NASA's Artemis II Moon Flyby Livestream
CNET
0:00 Welcome to Artemis mission control here
0:02 at Johnson Space Center in Houston, Texas.
0:05 I'm Leah Cheshire Mustachio.
0:07 Right now, the Aremis 2 crew and mission
0:09 control are preparing to support today's lunar flyby.
0:12 The first time we've sent humans around the moon in over 50 years.
0:16 Integrity, you can use the OES and your HHP camera
0:20 for the milestone words at the Apollo 13 record distance.
0:24 You'll notice that we pause every time
0:25 we hear communications to and from the crew.
0:27 They are the stars for today.
0:30 This afternoon, the crew will have their closest approach
0:32 of the moon and will surpass the record that record
0:36 just mentioned of the f furthest humans have ever
0:40 flown set by the Apollo 13 astronauts in 1970.
0:49 You're looking at a live view inside the Orion
0:51 spacecraft and at our Artemis 2 crew members.
0:54 They have just completed their posts sleep period during which
0:57 they conduct any hygiene and cabin setup for the day.
1:02 They also had a chance to eat breakfast
1:04 before we got into our daily planning conference.
1:08 The flight control team here in mission
1:09 control Houston collecting information from all consoles around
1:12 the room that we could relay up to the crew ahead of this monumental day.
1:18 As you can see on your right,
1:19 NASA astronaut Christina Cook taking a video of NASA astronaut Victor Glover.
1:28 We expect to have great views of the crew
1:29 throughout the day as well as of course the moon.
1:39 We expect to surpass that Apollo distance record in 55 minutes and 50 seconds.
1:45 We are now looking live at a camera mounted on one
1:48 of the spacecraft's solar arrays pointed to our lunar neighbor.
1:54 We are currently just 14,200 miles away
1:58 from the moon and 247,672 miles away from planet Earth.
2:20 Houston integrity for a ready to copy.
2:34 Carbon dioxide 2.3 oxygen which has the alarm
2:40 26.3 73.1° 10.3 psi and one followon question.
2:51 We understand milestone wars will be directly following the conference.
2:55 Will that take the place of the pao event
2:57 or the will the pao event still take place per the timeline?
3:07 Good question, Christina.
3:09 Uh, the milestone words that we exchange at the record distance at the end
3:15 of the conference will take the place of the PAO timelined activity.
3:21 Um, so that'll be our moment to talk about this occasion and after that there
3:27 will be no more expected PAO words and you can get straight into your flyby.
3:32 Copy all AA.
3:40 Okay, thank you.
3:41 And final clarification, even though it's taking the place of it,
3:45 it will all just be on OE1 with HHP camera.
3:49 No additional video.
3:51 Is that right?
3:55 Airm.
4:05 Okay.
4:05 Thank you.
4:06 Yep.
4:06 Some had already heard that.
4:07 Sorry about the the second question.
4:09 We appreciate it.
4:10 Talk to you soon.
4:12 No problem.
4:33 those communications between NASA astronaut Christina Cook and Canadian
4:37 Space Agency astronaut and today's Capcom or capsule communicator.
4:41 The one person here speaking with the crew right now, that is Jenny Gibbons.
4:45 She is an Artemis 2 backup crew member here in Mission Control Houston.
4:51 We are now 4 days, 18 hours,
4:53 and 30 minutes into the flight of Orion for Artemis 2.
4:56 The Aremis 2 crew inside Orion lifted off
5:00 a top the Space Launch System rocket on Wednesday,
5:03 April 1st, from NASA's Kennedy Space Center in Florida.
5:06 Those four crew members uh is are the first
5:09 to live and work inside the Orion spacecraft,
5:12 which they have named Integrity,
5:14 and have been busy conducting meticulously timelined events.
5:18 It was a beautiful asscent from Kennedy Space Center.
5:25 One of those early events was the proximity
5:27 operations demonstration during which NASA astronaut Victor Glover,
5:31 the Artemis 2 pilot,
5:32 manually flew Orion after having just detached from the interim
5:35 cryogenic propulsion stage as if they intended to dock.
5:39 This was practiced for future Aremis missions
5:41 during which astronauts in Orion will dock
5:43 with the lunar lander that will take them to the surface of the moon.
5:46 About 24 hours after launch, 25 hours actually,
5:49 Orion then conducted TLI, the trans lunar injection burn.
5:53 This 5 minute 50 second burn committed Orion to departing
5:56 high Earth orbit and set us up for today's flyby.
6:00 That trans lunar injection burn also served as the spacecraft's de-orbit burn.
6:04 It slingshots Orion around the moon and sends the crew
6:07 on a free return trajectory with splashdown approximately 7:07 p.m.
6:11 Central on Friday, April 10th.
6:13 Last night on flight day 5, the crew entered the lunar sphere of influence,
6:17 the point at which the pull of the moon's
6:18 gravity will become stronger than the pole of Earth's.
6:21 We've also been getting some great views inside the cabin
6:24 of the crew members living daily life from working out to eating,
6:29 taking photos, and making memories together.
6:31 They've also been taking some beautiful views
6:33 of our home planet and of the moon.
6:35 And we expect many, many more of those following today's activities.
7:20 these live views back inside the cabin of Orion.
7:23 But before we get into flyby,
7:24 let's take a minute to get reacquainted with our crew.
7:27 Reed Wiseman is the Artemis 2 commander and a Baltimore native.
7:31 He's been in space once before.
7:33 I think there was going to be some families heading into the viewing room today.
7:36 If they end up showing up, could you just give us a heads up when they're
7:39 there so we can just wave to them on the camera?
7:44 Absolutely.
7:46 And that was the voice of Reed Weisman.
7:48 He has been in space once before as a flight engineer for they don't come.
7:52 You could just lie to us and tell us that they're there.
7:53 That'd be great.
7:54 Thanks.
7:56 We'll keep that in mind, too.
7:57 And he I'm sure they'll be here.
8:01 Wiseman also has a great sense of humor.
8:03 He was aboard the International Space Station from May
8:06 through November 2014 as part of Expedition 41.
8:10 This was a 165-day mission during which he and his crewmates
8:13 completed more than 300 science experiments in areas like human physiology,
8:18 medicine, science, earth science, and astrophysics.
8:21 They set a milestone for station science by completing
8:23 a record 82 research hours in a single week.
8:26 He also served as chief of NASA's
8:28 astronaut office from December 2020 to November 2022.
8:32 And here on Earth, he has two daughters.
8:36 The Artemis 2 pilot is Victor Glover,
8:38 selected as an astronaut in 2013 when at the time he
8:42 was serving as a legislative fellow in the United States Senate.
8:45 His first trip to space was in November 2020 when
8:48 he launched as a pilot of NASA's SpaceX Crew 1 mission.
8:51 That was the first operational mission of NASA's commercial crew program,
8:55 which resumed launching American rockets from American soil to the International
8:59 Space Station since the end of the shuttle program.
9:02 Victor is a US Navy captain and naval aviator who served as a test pilot,
9:06 racking up more than 3,500 flight hours in more than 40 different aircraft.
9:11 He also became the first person to pilot Orion the other
9:14 day when we saw the Prox Ops demonstration shortly after launch.
9:18 He and his wife have four children.
9:23 Mission specialist Christina Cook is a native of Grand Rapids, Michigan.
9:27 She was selected to the astronaut corps in 2013,
9:30 the same class as Victor Glover.
9:32 She served as flight engineer on the International
9:34 Space Station from March 2019 to February 2020.
9:38 During that time, Cook set a record for the longest single space
9:41 flight by a woman with a total of 328 consecutive days in space.
9:46 She also participated in the first ever all female
9:48 spacew walk with her friend and colleague Jessica Mir,
9:52 now living and working aboard the International Space Station.
9:54 Yet again, before becoming an astronaut,
9:57 Christina helped to build space science instruments and led scientific
10:00 fieldwork in some of the most remote environments on the planet.
10:04 Her hobbies include surfing, rock climbing,
10:06 community service, yoga, travel, and photography.
10:09 And she is certainly getting a chance to do that.
10:13 Firsttime flyer, Canadian Space Agency astronaut Jeremy Hansen is flying
10:17 to the moon as a mission specialist on the Aremis 2 mission.
10:20 The London, Ontario native was selected as an astronaut in 2009.
10:24 After that, he worked as Capcom
10:26 at NASA's mission control center here in Houston.
10:28 Capcom stands for capsule communicator and is the single
10:31 direct voice communicating with the astronauts in space.
10:34 He also participated in training exercises like living on the ocean floor
10:38 off the coast of Florida to simulate deep space exploration for seven days.
10:43 In 2017, he became the first Canadian to lead a NASA astronaut class.
10:47 and he also enjoys getting out on a sailboat,
10:49 rock climbing, and mountain biking.
10:51 And he and his wife have three children.
11:44 As you can see, the crew members have dimmed the cabin lights inside Orion.
11:54 As they uh prepare for their lunar flyby,
11:56 they'll be configuring the cabin as they'd like to have it to allow
11:59 for proper positioning as they move about to and from the windows,
12:03 taking photos of the moon.
12:05 Dimming the lights also helps prevent
12:07 reflections from inside Orion onto the windows.
12:11 Ahead of this lunar flyby,
12:13 let's dive in and explain what you can expect over the next several hours.
12:17 The crew has about 6 hours allotted to make observations about the moon.
12:22 Throughout the flyby, their activities have been precisely timelined.
12:26 There are five five blocks of time during which
12:28 the crew will be observing the moon from Orion's windows.
12:32 At any time, two members will be at the windows working in a pair.
12:36 One crew member will be taking photos from window
12:39 2 with a blue shroud over the window.
12:41 This can help prevent that glare or reflection from inside Orion.
12:45 They have an 800 an 80 to 400 millimeter zoom lens to use.
12:50 The other astronaut will be in window 3 using their portable computing device.
12:54 You'll hear that referred to as PCD to make annotations.
12:58 Both of these crew members will make audio recordings of what
13:01 they are seeing and they'll wear headsets connected to those PCDs.
13:05 Those audio recordings will be sent to the science team at a later date.
13:08 We will not hear them live.
13:11 The two crew members at the windows will
13:12 swap roles and positions halfway through their timelined block.
13:16 The other two crew members who won't be at the windows
13:18 at that time will be serving in the background as support.
13:21 One will be conducting the science set reps or situation reports.
13:26 This is what we will hear live from the crew.
13:28 They'll be calling down a few times
13:30 each hour to discuss what they are observing.
13:32 Those situation reports include how the crew is positioned,
13:35 any missed targets, or anything unexpected they saw.
13:39 Lunar target descriptions, any hardware issues, and of course,
13:42 their emotions and reactions as they fly by the moon.
13:46 The other support crew member will take pictures
13:48 of the astronauts at the windows and serve as camera support,
13:51 providing new SD cards when needed.
13:54 There's a 15minute time frame between each observation block during which
13:58 the two support members switch places with the crew making observations.
14:27 two views, both coming from Orion.
14:30 They're on the left, the inside of the spacecraft,
14:33 and on the right, a view of our moon, the destination for today.
14:52 during the lunar flyby today.
14:54 Orion will provide astronauts with a f a full disc view of the lunar surface.
14:59 They'll have a higher vantage point,
15:01 much farther than Apollo's lunar orbits on average.
15:04 These astronauts can observe both the holes
15:06 and largecale geological features in a single view.
15:11 And due to our April 1st launch date and current illumination conditions,
15:15 the Artemis 2 astronauts have become the first humans to directly
15:18 observe certain far side regions of the moon with unaded eyes.
17:00 Great.
17:00 Thank you.
17:01 Ready?
17:07 Okay.
17:07 How do I Is it all We are now 36 minutes until we see the Integrity crew pass
18:48 the Apollo 13 distance record and joining me
18:50 on console I have Julian Gross the Artemis curation lead.
18:53 Thanks for joining me today.
18:55 Thanks for having me.
18:55 I'm very excited to be here.
18:57 We're very excited to have you.
18:58 So can you tell me about your role
19:00 as Artemis create Artemis curation lead and what that entails?
19:04 Yeah.
19:05 So for the overall Artemis campaign,
19:06 I'm the Artemis um lunar sample curation lead.
19:09 That means I'm helping Artem I'm helping NASA to return
19:12 the next set of lunar samples from the lunar surface.
19:15 Um, and for Artemis 2 specifically,
19:17 I'm one of the uh science theme leads and specifically
19:21 I'm responsible or the voice for impacts poles and landing sites.
19:25 Fascinating.
19:26 So, how what helped us select the targets
19:28 that the crew is going to be photographing today?
19:31 So, we had a plan coming in where we um basically made a list
19:34 of all the available targets uh during
19:37 the April launch window um because before you launch,
19:41 we wouldn't exactly be sure which um targets would be visible.
19:45 Uh and so once we launched,
19:47 we then were able to uh cut down on that list and prioritize our targets.
19:52 Um and the five theme leads uh came together and really discussed
19:56 and collaborative uh talked through which um
20:00 the long length configured for lunar flyby
20:07 which targets we could then which targets we could then see um and prioritize
20:12 um and so that made it into our plan.
20:14 We worked then with timeline to make sure that all the targets are visible.
20:18 Uh some targets are time dependent like or set or earth rise and some
20:21 targets will rotate out of view uh when integrity starts going around the moon.
20:25 And so we we put these in early so
20:27 that the crew has a chance to describe those to us.
20:30 Fascinating.
20:31 I cannot wait to hear what they have to say.
20:33 So we just heard them say that their long lens is configured.
20:35 That's very exciting.
20:37 And for us when we look at the moon from Earth,
20:39 what features are we seeing that the crew will also fly by today?
20:44 Yeah.
20:44 So I really hope that um people on Earth uh who
20:48 are in in nighttime u will look up into the moon tonight.
20:51 Um the features that the crew will see that we
20:54 can also currently see um is Arus Arcus Plateau.
20:58 Uh Grimaldi is another feature.
21:00 Um they're going to be sort of on our limb.
21:02 And then Oceanana's procolarum that really dark large uh
21:06 area on the near side that we can see.
21:08 The crew is going to see that in the beginning.
21:10 Um the more they fly around, the less of that they will see.
21:14 So those are targets we will hear them describe early on in the flyby.
21:18 Fascinating.
21:18 Well, and the crew has been training for years for this day,
21:21 and so we're going to hear them make a lot
21:23 of calls about uh what they are seeing on the moon,
21:26 and they're going to use a lot of interesting
21:28 terms that uh I myself need some brushing up on.
21:31 So, could you walk us through a few of the things
21:33 that we'll hear them use to describe the moon like albido,
21:37 exosphere, ejecta, just some of those major
21:40 terms we expect to hear from the crew?
21:42 Yeah, of course.
21:42 Um albido is basically a term um of a reflectiveness of the surface.
21:48 And so high albido usually for the moon means
21:51 bright areas and low albido means like darker areas.
21:54 And so when you look into the night sky you can see the the high
21:56 albido areas are the white parts and the low albido ones are the darker areas.
22:01 Um, eector is when you have an impact and um it ejects or um throws out material
22:09 that then ends up on the surface and you
22:11 can see that as sort of rays or ray system.
22:13 So you might hear them describe oh I can see M for example with its rays.
22:18 It has an asometric rays coming out
22:20 and so we're excited to hear them describe that.
22:24 Um you might hopefully hear stuff about color or color hues.
22:28 Um, and so if they can see any changes um,
22:32 in those color hues from like white to gray to maybe brownish,
22:36 um, we're excited to be here about that.
22:38 Um, exosphere is the almost no existing um, atmosphere of the moon.
22:45 Um, it's barely there.
22:47 Uh, but there is dust on the lunar
22:50 surface that can get lofted up through electrostatic forces.
22:54 Um, and when the sun goes behind the moon,
22:56 it can scatter forward on those dust particles and sort
23:00 of like create a little glow on the horizon.
23:02 And so we're really excited to see if the crew can actually see that.
23:06 This is so exciting.
23:07 Thank you so much for walking through all of that with us,
23:10 Julian Gross, Artemis Curation Lead.
23:12 We really appreciate you joining us here today and good luck to your team.
23:15 Thank you.
23:15 I'm really excited to be here.
23:18 We are now me 4 days 18 hours and 49 minutes into the flight of Orion.
23:25 This view of the moon from the Orion spacecraft as we get closer and closer.
25:10 We're live here in Artemis mission control
25:12 at Johnson Space Center in Houston, Texas,
25:14 just about 32 minutes way until the crew surpasses the record
25:18 set by Apollo 13 as the farthest astronauts to ever leave Earth.
25:27 This view coming from a camera mounted
25:29 on the tip of one of Orion's four solar arrays.
25:32 Each array has a camera on its tip,
25:34 and so we anticipate getting views throughout the lunar flyby.
25:37 Of course, except during the point of loss
25:40 of signal when the spacecraft flies behind the moon.
25:48 Inside the cabin, the crew are configuring
25:50 the uh inside of Orion for today's flyby,
25:54 making sure they have everything just where they want it to help them take
25:58 the pictures that they are aiming for for the science team here on the ground.
26:04 Coming up in just a few minutes, we will have a pre-Lunar flyby conference.
26:09 During that lunar flyby science crew conference,
26:12 our science officer here on console, Kelsey Young, will be speaking directly
26:16 with the crew members about their targets,
26:19 about their goals for today, what they expect to see,
26:21 and what we are hoping to hear from them.
26:55 We have a lot of milestones coming up today, so make sure you don't miss them.
26:59 The first coming up again at 1:56 p.m.
27:02 Eastern time, the crew will pass the distance
27:04 from Earth record set by Apollo 13 in 1970.
27:07 At 2:45 p.m., lunar flyby officially begins.
27:11 The crew will have that time on their schedules to begin photographing
27:14 and providing audio uh recordings of what they are seeing on the moon.
27:19 At 7:02 p.m., Orion will make its closest approach to the moon,
27:22 approximately 4,70 miles away.
27:26 Of course, all of these numbers are going
27:27 to have to be confirmed following the flyby.
27:30 These are estimates and we are working with orbital.
27:38 Ahead of the official beginning of flyby today, Kelsey Young,
27:41 Artemis science flight operations lead,
27:43 will be conducting a pre-Lunar flyby crew conference.
27:46 She will give information on camera setup,
27:48 remind the crew of their intended targets,
27:50 answer questions from the astronauts, and more.
27:53 Young will help the crew set their targeting timeline,
27:56 which counts down the time they have to image each target.
27:59 and what they'll be capturing next.
28:01 She'll also remind them what that the ground
28:03 team will be calling for science sitreps, also known as situation reports.
28:08 Those are essentially call downs to report what they've been observing.
28:11 They'll continue to do this even through their LOS, their loss of signal,
28:15 as those communications will come down later
28:18 on after they reconnect with us on Earth.
28:40 this view in the cabin.
28:41 You can see the crew members are already
28:43 using their cameras getting set up and they
28:45 have dimmed the cabin lights to allow them
28:47 better visibility outside of the windows and fewer reflections.
28:50 Now 28 minutes until they become the humans to travel farthest from our planet.
29:03 Houston Integrity, we are ready for the conference.
29:05 On your call, Houston is ready for the conference.
29:13 Passing you over to science.
29:20 Good morning crew.
29:21 This is science.
29:22 We couldn't be more excited for a full
29:24 day of lunar and planetary observations today.
29:26 The first one in over 54 years.
29:28 How do you hear me?
29:34 We hear you loud and clear.
29:35 And Kelsey, you just got to know you're pulling us away from the moon right now.
29:39 So, let's go.
29:44 Message received.
29:45 I will keep it tight here.
29:46 Um, I did just want to start with a thank you on behalf
29:48 of the lunar science team and the entire
29:50 lunar and planetary science community of which
29:52 you are absolutely a part for what you've already done in this mission
29:55 and what you're going to do today to inspire the next generation of scientists.
29:59 Um, I have to say moonjoy is the new
30:01 term that's already become our team's new motto.
30:03 So, thanks for that.
30:04 Um, in this conference we'll cover hardware and config reminders.
30:07 Um, and then I'll just briefly, as you said, cover today's science plan.
30:11 Um, I'm assuming you already have your LTPS up.
30:14 Um, confirm that and I'll jump quickly into the cabin config reminders.
30:29 Okay, we uh have the LTP to give you a sit rep on board.
30:34 You've got Reed and Christina on one PCD
30:37 and Ike has his own and Jeremy has his own.
30:44 Copy that.
30:44 That was going to be one of my questions for you.
30:46 Um, and I'll ask a question back.
30:48 Is that the config that um,
30:50 you and Christina plan to carry throughout the day for PCD use?
31:01 Negative, Kelsey.
31:01 Our plan for PCD use is we have run the power cables to windows
31:06 two and three and we are going to leave one PCD the yellow PCD will
31:12 be in window two and the green PCD will be in window three and we
31:18 will do that the whole day and then the red PCD will be a rover.
31:24 Understood.
31:24 Super helpful.
31:25 um recommend when you guys switch in and out of PCDs to add your initials
31:29 to your onenote annotations just so we can keep track of who's is who.
31:34 Um, and then given that you have three PCDs instead
31:37 of four for the data transfer at the end of the day,
31:40 recommend making a new subdirectory for entitled for science
31:44 for your own photos um or with your initials that we can keep track of which cam
31:49 which pictures came from which flashcards this view.
32:14 So, Kelsey, I just want to just do here's what we're doing.
32:18 We have community cards in all cameras on board
32:20 and then when each astronaut approaches their camera,
32:23 the intent is they will put their card into that camera for photos
32:28 and then put the community card back in at the end of the session.
32:31 But just know it is it is harder to manage
32:33 cards than we thought and we don't want to miss science.
32:35 So it might end up a bit more disorganized.
32:40 Understood.
32:41 Thanks for that essay.
32:42 Um just read the uh flash card numbers down when you get a chance.
32:46 um and we'll follow your lead on the best
32:48 thing to do operationally during the flyby.
32:51 Um with that, I'll move on to windows.
32:54 Um so the window characterization DFTO you guys did a few
32:57 days ago um confirm that window 2 is ideal for imaging.
33:01 Um so no change to config of photographer in window 2,
33:04 observer in window 3, and science reps in window one.
33:14 coming up on a handover.
33:16 Be back.
33:16 Uh, hang on, Kelsey.
33:17 The way we have it configured, tell us if this is going to be wrong.
33:20 Window two is the long lens with a shroud.
33:23 Window, as you heard science officer call to the crew.
33:28 We are now in a handover time period.
33:30 We will regain communications with the crew very shortly.
33:33 These are tracked uh and we are currently on the deep space network.
33:38 This is the first time humans have used the deep space network in over 50 years.
33:42 Given that we currently use the tracking data relay
33:44 satellite systems in the uh for the international space station.
33:54 This view from Artemis mission control on the right is Kelsey Young.
33:58 That's who you hear speaking with the crew.
34:03 Young is the Artemis science flight operations lead and we
34:06 also look forward to speaking with her here today.
34:42 again.
34:43 We are just about 22 minutes until we reach the Apollo record.
34:48 We are in a handover of satellites with the crew aboard Orion.
34:52 The t-shirt shroud for the Z9 and solar.
34:55 And then window three will be for visual
34:57 observations and window four is for floater.
35:04 And thanks and thanks integrity for that Reed.
35:09 Um we had a handover during that time.
35:11 So I'm going to have to ask you to give
35:13 that read back on window uh orientation for the crew again.
35:22 Okay.
35:22 We are happy to change it, but the way we have it configured right now is
35:25 window one has a t-shirt shroud for the Z9 for solar.
35:29 Window two has the shroud for the long lens for both lunar and solar.
35:34 Window three is for visual observations.
35:37 Window four is for floater.
35:39 And then the docking hatch window has had a great view.
35:41 So we've done a lot of mapping through that as well.
35:47 All right, copy.
35:48 They all read um a note just on the window
35:50 one t-shirt shroud that you can remove that for the lunar
35:54 observation block if you want to if you want that extra
35:57 view for another floater but defer to you guys on that.
36:01 Um you are go to use the full 400 millimeter zoom on the long lens.
36:06 Um but where possible try to keep the end of the lens flush
36:10 with the window to prevent imaging through
36:13 the multiple window panes at an angle.
36:16 And if you have to take an image at an angle,
36:19 re recommend you limit the max focal length to 200
36:23 millimeters or simply acquire the images at multiple focal lengths.
36:28 Um, last imaging um, update as a result of the DFTO is that if you can
36:36 take the images out of the left side of window two where possible,
36:41 that is the best half the window.
36:43 understand that might not be possible with the shroud.
36:46 Any other imaging questions from you?
36:57 Okay, copy that.
37:01 Okay, last couple reminders.
37:02 Um, don't forget the ability to take the wave files to tag uh imagery
37:08 that you are um wanting to follow up on using the FN3 button on your camera.
37:14 Um, and then a couple quick notes on your LTP.
37:18 We have refined your precise flyby timing since generating the LTP.
37:23 Optimus has the correct timing for the LOS and AOS,
37:27 but the LTP identifiers for LOS and AOS are
37:30 roughly 2 minutes later than they will be in reality.
37:34 Final LTP timing real uh update is that the green line
37:38 on your LTP should start automatically 45 minutes before the flyby.
37:44 If it doesn't appear, let me know and I'll have troubleshooting steps for you.
37:48 Um last updates um are on the eclipse.
37:52 Um so only for that last hour today.
37:54 Um of course remember if the sun is in view
37:57 to use your eclipse glasses and reminder that we will
38:00 have a few activities for you prior to the eclipse
38:03 to reconfigure all three cameras for corona and deep sky observations.
38:08 There these activities um some of which will occur during the forward link LOS.
38:13 So we wanted to flag it for you.
38:14 Now, any questions before I cover the last two reminders?
38:24 No, we have no questions on that.
38:27 Last couple eclipse reminders.
38:29 Um, the sunset period and the first roughly 23 minutes
38:32 of the eclipse will fall during that forward link loss,
38:36 but we'll still have a return link and we're still looking
38:38 forward to your science sit reps and observations during that time.
38:41 Um, and I do have reminder for you on your preferred
38:45 starting config for the Eclipse in terms of RO responsibility.
38:50 Let me know if you want me to read that up
38:51 or if you guys have that um in your minds already.
38:55 And if no other questions on config,
38:57 I'll give you a few science focused reminders.
39:12 Uh, give us a quick high level, but uh,
39:14 we we see it in Optimus and I think we got it squared away,
39:17 but give us your quick Kelsey high level.
39:23 Okay.
39:23 Um, a couple changes from the first LTP you studied are that is
39:28 that Glushko is the only feature that the same pair will view tight twice.
39:32 That's Reed and Jeremy.
39:34 That's why that's the only target you see that is marked as one of one and two,
39:38 one of two and two of two.
39:40 Um, so Omen and O oriental are in there twice, but they're by different pairs,
39:44 which is why you don't see them marked accordingly.
39:46 Um, a note uh from feedback on your observations
39:50 so far over the last couple days.
39:52 Um, reminder that if you note structure and texture as well as color and albido,
39:58 please note any correlation between the two.
40:00 And also reminder that negative observations are still valuable science.
40:05 So a lack of color or a lack
40:06 of structure associated with color is also valuable.
40:10 Um a reminder also that your observations so far indicate
40:14 it will likely take some time for your eyes to adjust.
40:17 We especially heard that around
40:19 your terminator observations and your color observations.
40:22 So, reminder to um know that your eye adaptation is going to kind of come
40:27 in throughout your shift and let us know when you start to see that nuance.
40:31 Last reminder is um around Earth Set and Earthrise.
40:35 When you're viewing us back here at home,
40:37 you'll be looking directly at Asia, Africa, and Oceanana.
40:41 So, I'm sure people watching from those places here on Earth will
40:43 want to give you all a wave as you take their picture.
40:46 Any other questions from me?
40:48 for me.
41:05 And Kelsey, hey, when you're talking window, left and right side,
41:09 uh just can you say towards window one or towards window
41:12 three and then we'll know that we are talking the same language?
41:17 Absolutely.
41:17 Okay.
41:18 So, I mean that the side of window
41:20 2 closest to window three is preferred for imaging.
41:31 Okay.
41:31 The side of window two closest to window 3 is preferred for recording.
41:36 Stand by.
41:36 We'll talk to the crew.
41:42 Again, we are in our pre-Lunar flyby science conference with Kelsey Young.
41:55 Kelsey Young is the Artemis science flight
41:57 operations leading with the crew aboard Orion.
42:02 They've been training for this moment for years and this is
42:04 their last opportunity to get some uh further pointers and information.
42:08 Before the t-shirt shroud,
42:10 what window does the science team think will have the best view?
42:14 Is it window one or window four?
42:18 The only time we're strongly recommending use of the window
42:22 eclipse the window the t-shirt window shroud for the eclipse viewing.
42:25 Which window is primary for Z9?
42:30 Window one.
42:39 Okay, awesome.
42:40 So, we have got that all set up.
42:42 And just to be 100% sure, window one is the most port window by the food warmer.
42:47 Window two is right in front of seat one.
42:50 Window three is right in front of seat two.
42:51 And window four is on the starboard side by the side hatch.
42:55 Do you agree with all that?
42:57 We agree on the ground.
42:58 Good readback.
43:05 Okay, that's awesome.
43:06 Uh Kelsey, we're going to close with happy words.
43:08 It It's just incredible.
43:09 I wish you were up here to see all the smiling faces,
43:12 to hear all these terminologies being thrown around and uh
43:15 we are just fired up to get started on this day.
43:17 Uh let me pass the mic around if anybody has anything that
43:22 Kelsey, it's so great to hear your voice on the loops.
43:25 I just want to channel everything that you guys
43:28 are probably feeling right through my eyes and heart.
43:31 It is awesome to see the side of the moon.
43:33 You guys made us excited for this day and we couldn't appreciate it anymore
43:38 and we are ready to hopefully deliver
43:40 on all the awesome training you guys have provided.
43:46 I'll just add Kelsey,
43:48 it is blowing my mind what you can see with the naked eye on the moon right now.
43:53 It's just unbelievable.
43:57 Kelsey and to the whole lunar science team uh all of you all the work
44:01 you put into this we're just grateful can't wait to get going and uh thank you
44:04 for the tipper for Carol crater and for integrity we can see them and uh we've
44:09 imaged them and can even see with the naked
44:11 eye quite impressive thank you so much
44:16 beautiful words you guys thanks so much and I got video of the science
44:19 team right now and they are all absolutely buzzing looking forward to today.
44:29 Okay, we're heading into the timeline.
44:30 Cheers, guys.
44:50 of the pre- lunar flyby science conference with Dr.
44:54 Kelsey Young.
44:56 Young has served as the Artemis science
44:58 flight operations lead getting the crew ready.
45:00 And we're live in Artemis mission control in Houston.
45:03 But we are not the only room monitoring today's flyby.
45:06 As you heard Young mention, in this same building and just down the hall,
45:09 a multi-disiplinary lunar science team supports the Artemis 2 crew in real time,
45:14 including experts in lunar geology, impact cratering,
45:17 vcanism, polar science, imaging, and visualization.
45:22 There are two integrated facilities, and the first is the SIR,
45:25 which is what you have right here.
45:26 That's the science evaluation room.
45:28 They are embedded within mission control to provide science
45:31 input during live operations like what we see today.
45:34 Additionally, and not pictured, we have the science mission operations room,
45:39 a back room that processes data, evaluates imagery, and supports rapid analysis.
45:45 Our science officer on console and mission control Houston serves
45:48 as the primary interface between the science team and the flight controllers,
45:51 ensuring science priorities are represented during mission execution.
45:55 Again, today, that's Dr.
45:56 Kelsey Young, who will be speaking with the crew
45:59 during the time they are behind the moon.
46:01 We will be speaking with her uh once the crew
46:04 is behind the moon and out of communication with Earth.
46:16 Back inside the Orion spacecraft on your left,
46:19 closest to the camera, NASA astronaut Christina Cook.
46:24 To her left, NASA astronaut Reed Weisman.
46:26 To his left, Canadian Space Agency astronaut Jeremy Hansen.
46:30 And all the way in the back, NASA astronaut Victor Glover, our Artemis 2 crew.
47:10 We are now approaching 8 minutes until the crew surpasses the Apollo 13 record.
47:16 Currently 12,599 miles away from the moon, 248,57 miles away from Earth.
47:38 We uh you know, you may also hear
47:40 the Orion spacecraft referred to today as Integrity.
47:44 This was named by the Artemis 2 crew.
47:47 It is Integrity crew.
47:50 We have Reed's family in the viewing gallery.
47:53 You're welcome to say hello.
48:05 Well, whether you're being serious or you're getting around,
48:07 that is awesome to hear.
48:09 Thanks, Jenny.
48:10 And hello to Ellie and Katie.
48:12 I don't know who else is there,
48:14 but it's great to know that you're in mission control right now following along.
48:17 We are having a blast up here, and the view of the moon is absolutely amazing.
48:26 I'm seeing a lot of hearts come out of the viewing gallery and even more smiles.
48:30 Thanks, Re.
48:44 Copy heart.
48:46 Copy bracelet.
49:02 that call from Capcom.
49:03 Jenny Gibbons, Canadian Space Agency astronaut and Aremis 2 backup crew member,
49:08 letting Reed Wiseman know that he has family here
49:11 to support him today in the Artemis mission control viewing room.
49:33 As I was mentioning, we uh have the Orion spacecraft flying today.
49:38 However, the Aremis crew members named their Orion spacecraft Integrity.
49:42 So, you will hear calls to this entire crew with the name Integrity.
49:46 They say that the name integrity
49:48 embodies the foundation of trust, respect, cander,
49:51 and humility across the crew and the many engineers,
49:54 technicians, scientists, planners, and dreamers required for mission success.
50:08 This view live from the outside of Orion
50:11 as we continue preparing for our lunar flyby.
50:15 Now less than five minutes from surpassing the record set
50:18 by Apollo 13 astronauts for the farthest humans to travel from Earth.
50:22 This will not be the farthest that integrity travels today.
50:28 They will continue until they reach approximately a distance of 252,760 miles.
50:36 That would be about 4,15 miles farther than Apollo 13.
50:41 However, these numbers are our targets and we will get uh confirmation
50:46 on those numbers as soon as we possibly can and share them with you all.
51:10 We talked a little bit about what to expect from the crew,
51:12 whether that's taking photos or making audio recordings.
51:15 To get a little more detailed, Reed Wisman and Jeremy Hansen will be up first
51:20 to capture imagery and record audio on the portable computing devices.
51:24 You hear those referred to as PCDs,
51:26 while Victor and Christina serve as the support members.
51:30 The crew will switch windows and rolls halfway through their shift.
51:34 And 1 hour and 5 minutes later, Victor Glover and Christina Cook will be
51:37 the next crew members at windows 2 and three
51:40 to take photos and make annotations while
51:42 Reed and Jeremy take on those support roles.
51:45 There are five viewing blocks and the crew will swap out with each one.
51:48 During two of the blocks,
51:50 the two support members will also be able to enjoy their midday meal.
52:01 At least three times per block is a science set rep.
52:04 Again, situational report.
52:06 This is partially an operational status reporting back if
52:09 they missed any targets or gotten any specific ones,
52:12 if they have issues with their camera or any other uh operational items.
52:17 The other part is an actual description of the moon.
52:20 This task is done by one of the support team astronauts.
52:23 So, that's not the crew currently taking photos or making annotations,
52:26 but they do have windows one and four
52:28 that they can float up and provide that information from.
52:32 If you watch the entirety of the flyby,
52:34 you'll also notice the crew will be photographing some
52:36 targets multiple times to get observations in different lighting conditions.
52:41 This is due to Orion changing their location throughout the flyby.
52:50 What this crew will be able to capture in a couple of hours of the same
52:54 targets in different lighting would take orbiters years
52:57 to do because of solar and spacecraft positioning.
53:00 This crew has studied the moon extensively and they're also
53:03 familiar with what the science team calls the big 15.
53:06 These are 15 features that they've memorized.
53:08 So, at any time they'll be able to see five
53:11 of those and help orient themselves and where they are around the moon.
53:15 Those targets are diverse and complex in their geological history
53:19 and observations of them could help answer some big picture science questions.
53:49 If you've been following the mission,
53:51 you can see that the configuration of the cabin is
53:53 a little bit different than what it looked like on launch day.
53:56 After ascent, the team uh the crew were allowed to reconfigure
54:00 their spacecraft and you can see that they've taken down seats.
54:03 They have also taken away foot rests.
54:06 This gives them more opportunity to move about the spacecraft.
54:23 Orion itself has 330 cubic feet of habitable volume.
54:27 That's about the size of two minivans and is
54:29 60% more cubic volume than the Apollo spacecraft.
54:35 We are standing by for the integrity crew
54:38 aboard Orion to surpass the Apollo 13 record.
55:22 Integrity crew.
55:24 On April 15th, 1970, during the Apollo 13 me mission,
55:30 three explorers set the record for the farthest
55:32 distance humans have ever traveled from our home planet.
55:36 At that time over 55 years ago,
55:39 Levelvel Swigert and Hayes flew 248,655 statute miles away from Earth.
55:47 Today, for all humanity, you're pushing beyond that frontier.
55:52 Integrity, over to you.
56:03 Yeah.
56:04 From the cabin of integrity here as we surpass
56:08 the f furthest distance humans have ever traveled from planet earth.
56:13 We do so in honoring the extraordinary efforts
56:17 and feats of our predecessors in human space exploration.
56:22 We will continue our journey even further into space before mother
56:25 earth succeeds in pulling us back to everything that we hold dear.
56:31 But we most importantly choose this moment to challenge this generation
56:36 and and the next to make sure this record is not long lived.
56:50 Thank you, Integrity,
56:51 and congratulations to you and the rest of the Artemis 2 team.
57:01 Thank you, Houston.
57:02 We have a couple more things uh we'd like to take this moment for.
57:07 Um our science team uh helped us out with a couple
57:10 of relatively fresh craters on the moon that have not
57:14 been previously named and our crew would like to propose
57:18 a couple of potential names for those items or those areas.
57:23 and we spent a bit of time uh this morning looking out the window
57:26 and we're able to see them now both with our naked eye and through the long
57:30 lens and so we feel this is a good time to uh send this down
57:34 and a spe special shout out to Kelsey for helping us uh with this.
57:39 The first one uh we'd like to suggest is
57:42 a named crater in honor of our great spacecraft integrity.
57:47 And so if you were to look at Oriental on the far
57:51 side and then draw a line straight up tom on the far
57:54 side relatively in the middle is an unnamed crater and we
57:58 would like to suggest it be called integrity in the future.
58:04 My second and the second one and especially meaningful for this crew is a number
58:11 of years ago we started this journey and our close-knit astronaut family and we
58:16 lost a loved one and there's a there's a feature in a really neat
58:21 place on the moon and it is on the near side far side boundary.
58:26 In fact, it's just on the near side of that boundary.
58:29 And so at certain times of the uh moon's transit around Earth,
58:34 you can we will be able to see this from Earth.
58:37 And so we lost a loved one.
58:39 Her name was Carol, the spouse of Reed, the mother of Katie and Ellie.
58:50 And if you want to find this one,
58:51 you look at Glushko and it's just to the northwest
58:56 of that at the same latitude as M.
58:58 And it's a it's a bright spot on the moon.
59:03 And we would like to call it Carol.
59:06 And you spell that C A R R O L L.
59:55 Integrity and Carol Crater loud and clear.
59:58 Thank you.
1:01:38 as the Artemis 2 crew passed the record set by Apollo 13 for the farthest
1:01:43 humans to ever try from to ever fly from Earth at 12:57 p.m.
1:01:48 Central time, 1:57 p.m.
1:01:51 Eastern time.
1:01:53 Canadian Space Agency astronaut Jeremy Hansen shared.
1:01:56 We're getting ourselves all put and back together now and we are
1:01:58 going to dim the cabin lights and prepare for our science objectives ahead.
1:02:02 Thank you.
1:02:05 Sounds good.
1:02:05 We're doing the same down here.
1:02:06 And you are maneuvering to your observation attitudes.
1:02:17 As we pass that Apollo 13 record of the furthest
1:02:20 humans to ever fly from Earth at 12:57 p.m.
1:02:23 Central time, 1:57 p.m.
1:02:26 Eastern time, the Artemis 2 crew shared some poignant words,
1:02:30 specifically Canadian Space Agency astronaut Jeremy Hansen.
1:02:34 The crew also called down two craters,
1:02:36 not yet named, that they would like to name.
1:02:39 One, Integrity, in honor of their spacecraft, which they have named.
1:02:44 That's near the M crater.
1:02:47 Another near Klushko,
1:02:48 which is a bright spot named Carol in memory of Reed Wiseman's wife.
1:03:00 There was a moment of silence here in Mission Control Houston.
1:03:04 And now the team and the Artemis 2 crew are ready to begin their lunar flyby.
1:04:39 We are four days, 19 hours,
1:04:42 31 minutes mission elapsed time of the flight of Artemis 2,
1:04:46 our four astronauts aboard Orion.
1:04:48 Today is our lunar flyby day.
1:04:52 The spacecraft is currently about 12,000 miles away from the moon,
1:04:56 and you can keep up with the distance
1:04:58 from Orion to the moon and Earth by visiting nasa.gov/traartemis.
1:05:03 Or you can just stay with us here because
1:05:04 we're going to be telling you throughout the day.
1:05:06 They are currently 248,834 miles away from planet Earth.
1:06:57 Coming up next on the cruise timeline
1:06:59 today will be their cabin configuration portion.
1:07:02 You heard some calls down to science officer Dr.
1:07:04 Kelsey Young earlier about how they have configured the cabin so far.
1:07:08 This is just a little bit more of uh timelined
1:07:11 activity for them if they need to further do so.
1:07:16 On flight day three,
1:07:17 the crew had time on their schedule allotted for configuring
1:07:20 the spacecraft cabin for how they intended to arrange it today.
1:07:25 Of course, they had to uh take down that configuration
1:07:28 for another test yesterday of their Orion crew survival system suits,
1:07:33 but uh configuring it on flight day three allows them the opportunity to get
1:07:37 a chance to see what works for them
1:07:39 now that they are in the microgravity environment.
1:08:23 Again, the crew is about to begin
1:08:37 their cabin configuration portion of their timeline,
1:08:40 though they have been working that um already
1:08:42 as well as potentially during their posts period this morning.
1:08:46 The official lunar flyby observations are slated
1:08:49 to begin in just about 40 minutes.
1:08:54 That's when we'll have the crew at the windows photographing the moon
1:08:57 as well as making calls down about what they are seeing.
1:09:10 And we are live here in Artemis mission control for the duration of the flyby.
1:09:15 Currently the orbit one flight control team is on console.
1:09:18 This room is staffed 24/7 from the time
1:09:21 before the astronauts step foot on the rocket until
1:09:24 the time they splash down and are safely
1:09:27 recovered in the Pacific Ocean on flight day 10.
1:10:52 again.
1:10:52 This is Artemis mission control here in Houston.
1:10:57 We are now 11,777 miles away from the moon.
1:11:01 We did pass the Apollo 13 record
1:11:04 of farthest humans away from Earth at 12:57 p.m.
1:11:07 Central time, 1:57 p.m.
1:11:10 Eastern time.
1:11:13 That distance, 248,655 statute miles from the Earth,
1:11:17 continuing to be exceeded by the crew.
1:11:20 They will reach their farthest distance from the Earth around 6:07 p.m.
1:11:24 Central time.
1:11:25 At that time, they will be in an LOS or a loss
1:11:28 of signal with us on Earth as they'll be flying behind the moon.
1:13:30 as the crew gets into their cabin configuration preparations.
1:13:33 We are joined by Dr.
1:13:34 Sarah Noble, the Artemis lunar science lead.
1:13:37 Thanks for joining us here today.
1:13:38 Yeah, it's quite a day.
1:13:39 Yeah, we are very excited.
1:13:40 I can only imagine how you guys are doing over there.
1:13:43 So, tell me a little bit about yourself and what your role is for Artemis 2.
1:13:47 Sure.
1:13:47 So I'm the Aremis lunar science lead.
1:13:50 So over the entire campaign and I my job is basically to make
1:13:53 sure that as we have this big adventure back to the moon,
1:13:56 we actually learn new things about the moon.
1:13:58 Fascinating.
1:13:58 So why is the moon such an important destination today?
1:14:02 Yeah.
1:14:02 So the moon is a pretty amazing place.
1:14:04 It is a great place to learn about um basic fundamental um processes
1:14:08 that happen on like all the planets
1:14:10 like cratering and volcanology and also it is
1:14:13 um you know part of our earth moon system and you know the earth
1:14:16 recycles its its uh rocks pretty well
1:14:19 right through plate tectonics and weathering and whatever.
1:14:21 Most of the rocks on the earth are geologically young but on the moon we have
1:14:25 the entire record that goes back four
1:14:27 and a half billion years until since we for formed.
1:14:29 And so if we really want to learn about what h was happening
1:14:33 uh in that period like moon is really the only place we can go.
1:14:36 We're also thinking about going back to the moon
1:14:38 and we want to go to the lunar south pole.
1:14:40 So what makes that such an interesting destination?
1:14:43 Yeah south pole is cool right?
1:14:44 It's it's far away from the places we went during Apollo.
1:14:47 It's different kinds of of rocks there.
1:14:48 Some of the oldest rocks on the on the moon.
1:14:50 It's also a place where we think there might be resources like water.
1:14:54 uh there are craters that that really never can see the sun because
1:14:57 of the low sun angles there and they get very cold and and and we
1:15:00 think that water and other things can build up in those craters
1:15:03 and so we're very interested to see uh what that might do for us.
1:15:06 I'm very interested as well.
1:15:07 So for some of our viewers who might be new
1:15:09 to this, what does lunar science look like during an Artemis mission?
1:15:13 Yeah, it's pretty exciting for us as we have sort of built this from scratch
1:15:17 to try to understand how we can best use the crew to support our science.
1:15:21 And so, you know, we've developed a system.
1:15:23 We've got um a team in place.
1:15:24 We've got a back room here uh here in this building called the SIR,
1:15:28 the science evaluation room.
1:15:29 And there's fact a back room to that back room over in another another building
1:15:32 here at Johnson Space Center where we've
1:15:34 got our teams of scientists working really hard.
1:15:36 Uh they're actually speaking to to this room
1:15:38 uh through our science officer was this is now the first time we've ever had
1:15:41 a science officer uh in in flight control room.
1:15:44 So, we're pretty excited about that.
1:15:46 So, we have a really voice out and and up to the crew.
1:15:48 I know it's been so exciting to hear Dr.
1:15:50 Dr.
1:15:50 Kelsey Young speaking directly with the crew today.
1:15:52 Now, so close to the moon and we have a live
1:15:54 view here of the science operation or the science evaluation room.
1:15:58 So, this is where the majority of your team is today.
1:16:00 Is that right?
1:16:01 Yeah, that's right.
1:16:01 This is a big chunk of our of our scientists.
1:16:03 You can see them in there now working working
1:16:05 hard trying to uh get ready for the day.
1:16:07 Um and then again, there's a there's a second room uh
1:16:10 where we have a lot of our data folks where the data
1:16:11 will first come down and they'll sort of sift through
1:16:14 the data and get it ready for this team to to take.
1:16:16 What's the mood like right now in the sir?
1:16:19 It is um I would say giddy.
1:16:21 I think uh we are all uh we've worked very hard for this.
1:16:24 They have they have done simulation after simulation.
1:16:27 They have worked really hard for over the last couple years to get ready
1:16:29 for this moment and I think everybody's just
1:16:31 really excited to see you know even already
1:16:34 we've we've had some some uh descriptions from the crew coming down and it's so
1:16:37 great to see their joy uh and our joy our love for the moon come through.
1:16:42 Yes, we are in for a real treat today if
1:16:44 it's been anything like their observations the past couple of days.
1:16:47 So, how are the lunar science teams using this test
1:16:50 flight to prepare for future missions to the moon?
1:16:52 Yeah, absolutely.
1:16:53 This is the way that we are building
1:16:54 our foundation for the future from everything from, you know,
1:16:57 how do you train a crew to to be a geologist, right?
1:17:00 And so, you know, working through
1:17:01 that, getting them classroom training, field training,
1:17:04 uh building the science team,
1:17:06 building these physical rooms that we are in, designing them,
1:17:08 designing software that the teams are using, and then,
1:17:11 you know, figuring out uh what happens to that data.
1:17:13 They're going to take this data and it's going to come down and how do we get it
1:17:15 out to not only our team but out
1:17:17 to the world and the rest of the science community.
1:17:19 Yeah, that's a great point because when you hear these crew members talk,
1:17:22 you would never know that they're not geologists.
1:17:24 Your team has trained them so well.
1:17:26 They have been very good students.
1:17:28 Who can blame them?
1:17:29 It's a pretty great topic.
1:17:30 Uh, one more question for you.
1:17:32 How does the science that we're doing on Artemis help
1:17:35 support long-term exploration and including our sustained presence on the moon?
1:17:40 Yeah, you know what?
1:17:40 We have a saying uh in the science mission
1:17:42 directorate that science enables exploration
1:17:44 and exploration enables science right.
1:17:46 So you needs the scientists because we are the ones who are
1:17:48 the experts in you know landing site and doing analysis of landing site
1:17:52 and making sure we can find a good place to land to like
1:17:54 understanding the properties of the soil so we can you know design
1:17:57 our systems to manage that understanding
1:17:59 the radiation environment keeping our astronauts
1:18:01 safe all of these things right but you know in return you provide
1:18:04 us with opportunities where now we're going to be able to collect
1:18:07 this data and collect samples and deploy our instruments and all of that.
1:18:10 So, it's a it's a symbiotic relationship.
1:18:12 That makes perfect sense.
1:18:13 Well, Dr.
1:18:14 Saran Noble, Artemis lunar science lead,
1:18:16 thank you so much for joining us here today.
1:18:18 Best of luck to you and you you and your team,
1:18:20 and I hope that you get to enjoy today, too.
1:18:22 Thank you so much.
1:18:24 We are now uh getting closer and closer to our lunar neighbor.
1:18:28 This live view coming from the Orion spacecraft
1:18:31 and a camera mounted on one of its solar array wings.
1:20:52 Houston integrity for camera serial numbers.
1:20:59 Ready to copy.
1:21:06 Hey Jenny, these are card numbers for the various positions.
1:21:12 For the long lens on the D5, we will have individual cards.
1:21:18 Victors 1008, Jeremy 1,9, Reed, 12, myself, 15.
1:21:33 For the Z9, we will have one card that is dedicated for today.
1:21:39 Serial number 107.
1:21:43 For the cabin camera D5, we will have one dedicated card for today.
1:21:49 Serial number 100 22.
1:22:01 All right, Christina, we copy all.
1:22:02 Thank you.
1:22:15 We just realized that we have Earth out window one and moon out window two.
1:22:21 And we were I'm sorry, Earth out window four and moon out window three.
1:22:25 And it gives you the best idea of scale we have had yet.
1:22:29 The moon is about three to four times the size of the Earth.
1:22:32 And it is almost full.
1:22:34 in the earth is just a small crescent out there.
1:22:37 Uh it's magnificent.
1:22:39 I got a picture of it uh with the wide lens.
1:22:41 Such a majestic view out here.
1:22:48 Amaze.
1:22:48 Amaze.
1:22:48 Amaze.
1:22:49 Thank you, Reed.
1:23:04 Those are some of the communications we're excited most about today.
1:23:08 Commander Reed Wisman calling down their view right now.
1:23:11 Obviously a little bit different than what we
1:23:13 can see from this solar solar array camera.
1:23:16 Uh they are looking through the windows of the Orion spacecraft
1:23:19 able to see at the same time Earth and the moon.
1:23:23 You also heard NASA astronaut Christina Cook calling down
1:23:26 some of the cameras that they will be using today.
1:23:32 The crew is in that cabin configuration portion and we expect
1:23:36 the lunar flyby observation period to start just about 20 minutes.
1:24:07 Checking in on Orion's distance and speed.
1:24:09 They are currently traveling 1,71 mph, 249,59 miles away from Earth,
1:24:18 11,293 miles away from the moon, and continuing to grow closer.
1:24:26 At closest approach to the moon today, the spacecraft would be will be just
1:24:30 about 4,070 miles away from the lunar surface.
1:24:35 This will be during our loss of signal
1:24:37 with the crew as they travel behind the moon.
1:24:39 And we will await their return to get the official number
1:24:43 for you for how close they come to our lunar neighbor.
1:25:49 Inside the cabin today, the lunar targeting package is the primary tool guiding
1:25:53 the crew observations and consists of two key components.
1:25:57 The lunar geography review helped the astronauts study major lunar features
1:26:01 in advance and help learn how to orient themselves during the flyby.
1:26:05 Because of course, the moon is not actually labeled
1:26:08 like it appears here when we look at this map.
1:26:10 The learner targeting plan provides a detailed timeline of observation targets,
1:26:14 background science context, and specific instructions for the Pictures the crew
1:26:19 should take as well as the verbal description descriptions that will be helpful
1:26:23 to the science team reviewing them later.
1:26:26 This is a screenshot from their lunar targeting
1:26:29 package and a screenshot specifically of that lunar attitude.
1:26:37 Go ahead.
1:26:43 Hey Jenny, understanding we are in final attitude now for the lunar flyby.
1:26:50 Would it be possible to pitch the vehicle down 5 degrees?
1:26:55 That would allow us to get the D5 long
1:26:58 lens flush and have the least amount of window distortion.
1:27:07 We're taking That call from Christina Cook,
1:27:11 NASA astronaut and mission specialist on Artemis 2.
1:27:17 Copy.
1:27:17 The Orion spacecraft is positioned in a specific attitude to allow the crew
1:27:22 to best see the moon outside
1:27:23 of their windows today for this imaging opportunity.
1:27:27 That call was a request for a potential attitude shift just slightly,
1:27:31 another 5° to give them a better view and to give
1:27:36 them a better opportunity to use their long lens camera.
1:27:42 They'll also be using that lunar targeting package we were discussing.
1:27:46 I am following along with that real time,
1:27:48 so I'll be able to share with you exactly
1:27:49 what targets the crew is looking at and when.
1:27:52 They also trained with a lunar science passport.
1:27:54 It's a little reference guide used on Earth
1:27:57 to reinforce recognition of key lunar features.
1:28:00 It is not on the flight,
1:28:01 but it was a significant study tool for the crew to get them ready for launch.
1:28:06 The apparent size of the moon will change throughout the flyby,
1:28:10 and it'll appear roughly like a basketball held
1:28:13 at arms length at the crew's closest approach.
1:28:17 That reinforces the need for careful
1:28:19 planning and practiced observation techniques.
1:28:45 Houston integrity for timeline.
1:28:50 Good.
1:29:06 Hey Jenny, just to make absolutely
1:29:08 sure that we start observations when expected,
1:29:11 we are showing in Optimus that observation time starts
1:29:15 in about 15 minutes and in LTP that our first target,
1:29:20 discussion one, starts in about 29 minutes.
1:29:24 Can you confirm you'd like us to start discussion one in 29 minutes at 1900 GMT?
1:29:39 Christina, we are tracking that discussion 1 should start at 18:45.
1:29:46 That's 15 minutes from now.
1:30:01 Okay, copy all.
1:30:02 It may be a granularity issue with LTP,
1:30:05 but understand that we start that observation in 15 minutes.
1:30:09 And I bet when we get there,
1:30:10 the green line in LTP will match the start of the white band for discussion one.
1:30:16 I think it's just an a matter of the labeling and the granularity.
1:30:21 Thanks for confirming.
1:30:27 Copy.
1:30:27 And we'll look into that a little bit more on our side as well.
1:30:40 Christina, can you verify for us that your green
1:30:42 line is moving on the timeline page of your LTP?
1:30:52 A firm.
1:30:58 Jenny, I do think we're good.
1:31:00 Looking closer, I see the labels are just not aligned
1:31:03 with start or end times of the white visible bands.
1:31:06 It fully makes sense now.
1:31:08 So, I think we are all set.
1:31:10 We'll look forward to starting some observations in about 13 minutes.
1:31:17 Copy.
1:31:17 Thanks, Christina.
1:32:57 As you heard discussed,
1:32:58 we are expecting the crews observation time period to start in about 10 minutes.
1:33:05 First, they'll be conducting a warm-up,
1:33:07 warming up to their science observations of the moon.
1:33:10 They'll be discussing with each other,
1:33:12 helping each other orient uh using the major landmarks that they've studied,
1:33:16 asking what is familiarity.
1:33:18 If we roll left port five degrees,
1:33:22 that would get the moon closer to the left side of window two.
1:33:36 Copy, Victor.
1:33:38 We'd like to know if it's pitch and roll or one or the other.
1:33:54 Jenny, we actually thought you already put the pitch in.
1:33:57 Had the pitch been put in already?
1:34:01 No, we need a little while longer to talk about it.
1:34:17 So Jenny, I guess what's happening is just as our orbit's changing,
1:34:20 where it is in the window is changing.
1:34:22 So maybe these fancy little adjustments aren't worth it.
1:34:26 It's going to continue to move in the window.
1:34:28 Or is the spacecraft going to keep the moon
1:34:31 at the same point of the window if we adjust the attitude?
1:34:33 I assume the previous Right now, we are pointing the center of the window
1:34:48 to the center of the moon with two degrees of deadband.
1:35:36 The conversation you hear happening now between the astronauts aboard Orion
1:35:40 and Artemis mission control here at Johnson Space Center in Houston, Texas.
1:35:45 They are in the center of your screen
1:35:46 seated at the Capcom or capsule communicator console.
1:35:50 That's Jenny Gibbons, Canadian Space Agency astronaut and Artemis 2 backup.
1:35:59 She was also the lead Capcom
1:36:01 for Expedition 63 aboard the International Space Station.
1:36:14 The crew is requesting some attitude changes to the spacecraft
1:36:17 to allow them to better image the moon, our priority for today.
1:36:22 Of course, those have to be uh discussed on the ground
1:36:25 before they are put into work aboard the spacecraft.
1:36:28 So, the team is taking some time to do so.
1:36:30 You also heard Gibbons reference that we are into deadbands.
1:36:35 Deadbands are essentially keeping us in the lane in which we're traveling.
1:36:40 It's if you're familiar with lane assist in your car, very similar in this case.
1:36:59 we are now 10,870 m away from the moon,
1:37:04 traveling 1,66 mph and 249,390 mi away from Earth.
1:37:12 Again, we recently surpassed the Apollo 13
1:37:15 distance record of farthest humans have ever traveled.
1:37:18 And upon calling down some words during that milestone,
1:37:22 Canadian Space Agency astronaut Jeremy Hansen
1:37:24 noting that he hopes that this record
1:37:27 that they are setting today is soon broken by future explorers.
1:39:37 This is Artemis mission control.
1:39:39 We are standing by for the beginning of lunar flyby.
1:39:48 Expecting that to start in just a few minutes when
1:39:50 the crew will begin a warm-up discussion preparing for the day.
1:39:54 They will be capturing images along while discussing what they
1:39:58 find familiar about the moon and what looks unexpected to them.
1:40:59 again.
1:40:59 Just minutes away from the official start of lunar
1:41:02 flyby or when it is timelined for the crew.
1:41:08 We are currently 10,726 miles away from the moon.
1:41:13 This view on the left side of your screen
1:41:15 coming from the camera on one of Orion's solar arrays.
1:41:48 other.
1:41:49 conversation points while the crew are
1:41:53 getting getting ready for their flyby today.
1:41:59 They'll be looking to orient themselves using major
1:42:02 landmarks and annotating their observations along with their discussion.
1:42:10 They'll have 10 minutes for that warm-up discussion.
1:43:59 Houston Integrity.
1:44:01 We have two folks at the window deep in discussion
1:44:04 talking about all of the awesome features that they're seeing.
1:44:08 Uh we just had a huge moment realizing that Herz
1:44:11 sprung is about the same size as our incredible oriental.
1:44:17 We're really excited about this target that's kind of new to us.
1:44:21 We're orienting on things like how we talk about albido.
1:44:24 Uh finding some of the prevalent things that we're used to from all
1:44:28 of our training and uh just overall taking in this view.
1:44:33 We also are noticing that it is the moon
1:44:36 is still getting noticeably bigger as we go,
1:44:39 even when you're watching it continuously.
1:44:41 It's great to see these two guys get warmed up.
1:44:46 We love the report, Christina.
1:44:48 Thanks.
1:44:48 And you nailed it on why we added Herzrung.
1:44:51 As you'll see in the prompts,
1:44:52 we're looking for comparisons to the comparatively
1:44:55 much older Herzbrung compared to the younger oriental.
1:44:58 Great words.
1:45:16 This is Artemis mission control.
1:45:18 That was the voice of Dr.
1:45:19 Kelsey Young speaking with the astronauts aboard Orion
1:45:22 as they begin their observation period and lunar flyby.
1:45:29 NASA astronaut Christina Cook reporting their view of Herzbrung Basin.
1:45:34 The team here is looking for centered images of the basin at a full zoom
1:45:38 and they're hoping that the astronauts can
1:45:40 image and describe the inner and outer rings.
1:45:43 This is considered a degraded basin with a floor
1:45:46 rings and ejecta compared to a younger oriental basin.
1:46:03 We talked, we spoke earlier with uh Julion Gross,
1:46:10 the Artemis curation lead about some of the terms
1:46:13 we will hear the crew use today.
1:46:15 One of those just called out, that's albido,
1:46:17 looking at surface brightness or the amount of light a surface reflects.
1:46:44 A few more terms that we hope to hear today
1:46:47 during the crew's sit reps or situation reports include embegging.
1:46:52 This refers to one feature that surrounds
1:46:54 another that usually is a higher relief feature.
1:46:58 Houston integrity.
1:46:59 One report from the crew at the windows.
1:47:01 We can actually see the moon and earth at the same time right now.
1:47:07 It's interesting because the earth looks way brighter.
1:47:11 So the earth itself seems to have a much higher albido than the moon.
1:47:15 We think this is independent of our eyes focusing um because
1:47:19 of course the earth is much smaller than the moon in our view.
1:47:22 So you could think that your eyes focus for the darker sky
1:47:26 and that means that it only has apparent brightness more than the moon.
1:47:30 But since we're seeing both in the same view,
1:47:33 we do think that this can be inferred
1:47:35 as the Earth as a whole has a higher albido.
1:47:44 Great observation, Christina.
1:47:45 Um, and reminder that as you're starting to look
1:47:48 for those subtle color and albido variations on the moon,
1:47:52 um, the the relatively bright albido Earth,
1:47:55 um, might make those a little bit difficult.
1:47:57 But as your eyes continue to adjust,
1:47:58 we expect you to start to see more nuance on the moon.
1:48:01 Thanks.
1:48:07 Great call.
1:48:08 Thanks for the reminder.
1:48:13 We're all going to be experts in lunar terminology by the end of the day.
1:48:17 Another one we expect to hear is mare.
1:48:19 These are dark regions paved or filled by volcanic deposits.
1:48:24 You also can hear them called seas, oceans,
1:48:26 lakes, or marshes or other bodies of water.
1:48:37 Again, we are live in Artemis mission control.
1:48:39 But on the right side of your screen, that is the science evaluation room.
1:48:43 Team members who have been preparing for this day for years.
1:48:48 The crew has significantly darkened the cabin of Orion.
1:48:52 This allows them better views outside
1:48:53 the windows and fewer reflections from inside.
1:48:58 They reported being able to hear the to see the moon
1:49:01 and the earth out the same window at this time.
1:49:04 We are really hopeful to get those photos right now.
1:49:07 This view on the left side of your screen coming from a camera
1:49:09 mounted on one of the solar array wings on Orion outside the spacecraft.
1:49:18 The crew is equipped to 80 to with 80 to 400 millimeter zoom lenses.
1:49:23 is The team continues their warm-up discussion.
1:50:42 I should say the crew members aboard Orion continue their warm-up discussion.
1:50:46 However, they are about to be prompted to move on to discussion number two,
1:50:49 which is near side and far side.
1:50:58 some of the things that they are looking to capture.
1:51:00 The ground has prompted them to photograph anything that stands out to them
1:51:04 and to compare the near side versus the far side mar in color,
1:51:08 albido, topography, and texture.
1:51:12 They al also want the crew to compare the appearance of raid
1:51:15 craters in the near side mare versus in the far side highlands.
1:51:20 Of course, a reminder that some of the items
1:51:22 that the crew or some of the landmarks the crew
1:51:24 are seeing today is the first time that humans
1:51:27 have ever laid eyes on those portions of the moon.
1:51:48 In the targeting package, there are a few reminders of the crew.
1:51:52 For the crew, there are uh
1:51:54 time-sensitive observation reminders and science sit reminders.
1:52:00 Integrity.
1:52:01 We have a sitrep.
1:52:03 Um the targets that are being discussed right now.
1:52:06 It's the far side near side comparison
1:52:09 and hearing some great discussion of uh browns
1:52:11 and greens and the aeroscus plateau and how
1:52:13 those disappear as you go toward the north pole.
1:52:16 And then over to the far side, uh, you lose the color.
1:52:20 Um, you've got, uh, Jeremy in window two,
1:52:25 Reed in window one, uh, having a great discussion.
1:52:28 Christina is under window, I'm sorry, Reed is in window three.
1:52:31 Christine is under window one, uh, documenting the discussion.
1:52:36 And, uh, we've gotten the lights completely off in the cabin.
1:52:39 There are some LEDs that we cannot put out that uh,
1:52:42 do provide some uh, some light scatter.
1:52:46 Uh but we uh have all of the internal lights off
1:52:50 um and uh are letting our eyes adjust as best we can.
1:52:56 The uh window for view, you only get about a third of the moon.
1:53:02 Uh, Tao is going to go over the horizon soon and uh,
1:53:08 you can see Aerostaris and then you start to lose uh,
1:53:12 the view as you go to the west in Ocean and Proarm.
1:53:17 Um, so far the team is on the plan and uh
1:53:23 the long lens is being put to good use and recordings
1:53:27 are being made and uh internal documentation of uh
1:53:32 the the configuration and and the uh uh the observations is ongoing.
1:53:40 Science, do you have any questions for us at this time?
1:53:45 Integrity Science.
1:53:46 Uh, Victor, very glad that you provided the first
1:53:48 formal science sit as this these were indeed your idea.
1:53:52 Uh, one follow-up question.
1:53:54 Um, any relationship between those browns and greens you described?
1:53:57 Do you see them blending into one another
1:53:59 and do you see any topography associated with either color?
1:54:10 I don't want to bother the window team.
1:54:12 I just heard that.
1:54:13 I overheard that.
1:54:14 Uh, and so I'm sorry I don't have that detail yet.
1:54:16 I will, uh, ease her up and see if I can pick that up.
1:54:20 Um, I will try to answer that at some point.
1:54:24 I also heard, um, a comparison of the albido in Aristarus,
1:54:29 that uh, crater, the very high albido spot.
1:54:31 You can see on the near side there is a feature called
1:54:36 I believe uh Burgess alpha that is uh equally or maybe higher albido.
1:54:46 Um I apologize for the gaps.
1:54:54 I'm trying to listen and uh talk at the same time,
1:54:56 but um I will try to get some more information
1:55:00 uh to correlate those colors uh from Aeros Starkis for you.
1:55:07 Understood, Victor.
1:55:07 And good call to not bug the window team.
1:55:10 Really like the brightness comparisons to Burgess A.
1:55:13 Um really helpful for the science team.
1:55:15 Keep them coming.
1:55:16 Thanks.
1:55:22 I also heard a discussion about the uh albido of Grimmaldi being the 10
1:55:28 and how many of us when we were a little further away saw
1:55:30 that as the darkest albido and that the bigger mari off to the to the uh
1:55:36 uh west sorry to the east was um still dark but maybe a 78.
1:55:42 Uh we still think that but you are seeing color variation,
1:55:45 albido variation inside of Grimmaldi as well and that even
1:55:49 on the west side there's still a very dark part of it.
1:55:52 Uh but it is still the darkest.
1:55:53 It is just not as uniform as it looked when we were farther away.
1:55:56 We're starting to differentiate uh the striations of albido inside of Kbaldi.
1:56:04 Copy all Victor and you read our mind.
1:56:06 Superlatives like darkest bigist are really really helpful for us.
1:56:10 So keep those coming.
1:56:47 As we were just mentioning,
1:56:48 the crew is slated to perform these science sit reps.
1:56:52 They are prompted to do so by an icon in their lunar targeting plan.
1:56:56 That one coming down from NASA astronaut and pilot of Artemis 2, Victor Glover.
1:57:11 As we discussed, the uh Capcom is usually
1:57:15 the only person in the room speaking with the crew, the capsule communicator.
1:57:19 However, today the science officer, Dr.
1:57:22 Kelsey Young, she is the Aremis science flight operations lead,
1:57:25 is speaking with the crew during the flyby
1:57:28 to ask any questions that the team may have.
1:57:32 To her right, to her right is Trevor Graph.
1:57:34 He is one of three science officers.
1:57:36 Those would be Kelsey Young, Trevor Graph, and Angela Garcia,
1:57:40 who will also join us later for an interview.
1:58:31 and Houston Integrity I was able to excuse me science integrity I was able
1:58:36 to get a view out of window one which is a beautiful view I can see
1:58:40 uh the entire moon that they're looking at uh we left the t-shirt up there
1:58:44 so I was kind of peeking through the opening in uh the makeshift shroud there.
1:58:49 And um once I was able to get two eyes on it,
1:58:52 uh what jumped out at me was Fabalov.
1:58:54 It's just peeking out of the terminator.
1:58:57 Uh it's clear of the terminator now,
1:58:59 but it just really jumps out because it's still
1:59:00 got the low light uh the low sun angle.
1:59:03 And so where the, you know, Aval has that impact over the top of another
1:59:08 crater where the two craters intersect on the eastern edge.
1:59:12 So um on the side closest to Oriental where the two crater rings
1:59:19 intersect the shadow there is the highest peak in the interior of Babalob.
1:59:25 And so you can see that terrain is uh there's some real variation
1:59:29 in the terrain there that there's a nice peak where those peaks intersect.
1:59:33 Sorry where those rings intersect and we'll get a picture of that.
1:59:40 Love the description, Victor,
1:59:41 especially the comparison and relationships you just described about topography.
1:59:46 Um, and if it's easier for your observations,
1:59:49 do feel free to remove the t-shirt shroud from window one.
1:59:58 Absolutely.
1:59:58 We will do.
1:59:59 Thank you.
2:00:04 Those calls coming from NASA astronaut Victor Glover.
2:00:21 As we discussed, the crew is working in pairs at at the windows right now.
2:00:26 Uh, taking photos are uh,
2:00:30 Commander Reed Wisman and mission specialist Jeremy Hansen.
2:00:34 Serving as their support team are pilot
2:00:35 Victor Glover and mission specialist Christina Cook.
2:00:39 You're hearing those calls from uh, Victor Glover as he is on that support team
2:00:44 and he is tasked with providing the science sit reps.
2:00:47 While the two crew photographing and making annotations
2:00:50 of the moon are in windows two and three,
2:00:53 windows one and four are available for the support crew to fly up
2:00:57 to, obviously look at the moon themselves
2:01:00 and uh provide these science situational reports.
2:01:07 The view on your screen is part of the lunar targeting package
2:01:10 and it's something that the crew can reference as they are flying by.
2:01:14 But this is an animation.
2:01:22 You also heard Glover mention oriental.
2:01:25 Oriental is a major feature that the team is interested
2:01:28 in today and it's known as the Grand Canyon of the moon.
2:01:33 Until this mission, Grand Theore Basin had
2:01:36 never been seen in sunlight by human eyes.
2:01:40 Oriental Basin and its surrounding ejecta
2:01:43 could fit within a straight line distance
2:01:45 from NASA's Johnson Space Center where we are at today to Kennedy Space Center.
2:02:04 This a live view in Artemis mission control in Houston, Texas,
2:02:08 where the teams are monitoring all systems,
2:02:10 not just for today's flyby, but on the spacecraft themselves.
2:02:14 Again, this is a test flight,
2:02:15 our very first flight of humans on the Orion spacecraft.
2:02:22 This team has been live uh or this team has been monitoring
2:02:26 the entire time of the mission as well as we have been
2:02:28 live the entirety of the mission and we will be continuing to do
2:02:32 so all the way through splashdown and crew recovery from the Pacific.
2:02:41 This is a visualization from Arrow the Artemis realtime orbit website
2:02:45 that you can also access at any time by visiting nasa.govarttemis.
2:02:49 /traartreemis showing us that we are now under 10,000 miles from the moon.
2:02:54 9,948 to be specific and continuing to count down.
2:03:04 Again, our closest approach to the moon today should come about 6:02 p.m.
2:03:08 Central, 7:02 p.m.
2:03:10 Eastern.
2:03:10 However, we will be out of contact with the crew
2:03:13 at this time as they begin transiting behind the moon.
2:03:17 At that time of closest approach,
2:03:19 the distance from Orion to the lunar surface will be about 4,070 miles.
2:03:26 Of course, these are estimates at this time,
2:03:28 and we'll be sure to provide you with the uh
2:03:31 official numbers once that closest approach has been reached.
2:03:46 This shot live inside the Orion spacecraft where our four
2:03:49 crew members are continuing with their lunar flyby activities.
2:03:54 They have just begun those activities really about 20 minutes ago.
2:03:57 So, we've got several hours of moon view opportunities.
2:04:01 This is still a live view inside that capsule.
2:04:03 However, you can see just how dark they have turned down the lights.
2:04:07 Actually, they've turned them all the way off.
2:04:09 There are a few LEDs that they cannot power off,
2:04:11 but turning down these lights gives them better views
2:04:14 outside of the spacecraft's windows while they photograph the moon.
2:04:18 This also prevents any reflections from inside the spacecraft
2:04:21 bouncing up on the windows and interfering with their photography.
2:05:24 As we were previously discussing, the crew members are serving on teams.
2:05:28 The first team being Commander Reed Weisman and mission
2:05:31 specialist Jeremy Hansen at the windows photographing what they see.
2:05:35 We heard reports earlier that they could see both
2:05:38 the moon and the earth in the same view.
2:05:40 And we are looking forward to seeing the moon
2:05:41 and the earth in the same view as well.
2:05:44 That earth set coming up in just a few hours.
2:05:51 While Wiseman and Hansen are at the windows photographing,
2:05:55 Glover and Cook are serving as support crew.
2:05:58 They are able to assist with cameras.
2:06:00 They are also providing those situation reports,
2:06:02 letting us know how the team is working inside the spacecraft,
2:06:06 what they're seeing, and uh how they're feeling about it.
2:06:10 Those first blocks of teams will last about an hour and the crew
2:06:17 members are approaching the halfway point into their first observation block.
2:06:21 A reminder, we have five of those blocks today.
2:06:23 So, they're approaching this halfway point during which
2:06:26 the crew at the window will switch roles.
2:06:28 One will begin taking pictures and the other
2:06:30 will be making annotations on their PCD.
2:06:33 That's portable computing device.
2:06:35 Both of those crew members at the windows are recording audio of what they see.
2:06:41 They are putting on headsets and recording
2:06:43 audio into their portable computing devices.
2:06:45 Obviously, we are not hearing this right now.
2:06:47 This is going to be sent down to the science team
2:06:50 and they will be able to analyze that at a later time.
2:06:54 What we are hearing though,
2:06:55 and we'll continue to hear are those science sit reps a few times every block.
2:07:01 Once this block is complete, about 40 minutes from now,
2:07:04 we will have the teams switch.
2:07:06 That means pilot Victor Glover and
2:07:09 Integrity looking out of window one.
2:07:12 I think I may have misreported earlier saying
2:07:14 that uh it was Tao going over the horizon.
2:07:17 That was Copernicus I was referring to.
2:07:19 Apologies.
2:07:20 It was Copernicus uh is what is farthest bounding to the east.
2:07:25 Uh and that is now like on the horizon or just past it.
2:07:29 and Coralv is now uh a few degrees from going over the horizon.
2:07:35 Uh and then you know next it'll be Aristarkus Aristarus plateau.
2:07:39 Um and so on the west we are getting a much better view of the terminator.
2:07:45 Uh looks like we have about 80% illumination uh of the moon and uh
2:07:52 Vavalov and one Vavalov diameter to the west
2:07:57 is where the terminator is right now.
2:08:00 Uh and so other features are starting to peek out there.
2:08:03 Um the center of the illuminated part of the moon is uh to the lower part is
2:08:11 is oriental and just around oriental a lot
2:08:16 of light structure is starting to to show up.
2:08:21 um a lot of high albido similar to uh the uh feature I cannot
2:08:28 earn burgess alpha uh and uh and aerostaris type uh high albido in the ring.
2:08:35 So when you look at the interior ring and the external ring,
2:08:38 it's almost uh as if the edges are starting to dry up and and and turn white.
2:08:43 If it was something that was wet and got dry,
2:08:46 the edges would be the part to dry first.
2:08:49 you just kind of outline all the topography in the interior of that wall is
2:08:53 uh like it was dusted with chalk or started to dry or maybe dusted with snow.
2:08:59 If this was the earth, I would say there was snow dumped on some of the ridges
2:09:02 uh on the interior of the rings uh of of uh Orient Hall.
2:09:08 Also an interesting part of the discussion that I
2:09:11 heard between Reed and Jeremy is that uh from Galo
2:09:16 to uh Grimmaldi there are two dark features there uh
2:09:23 that look like commas uh but in the wrong direction.
2:09:27 But there's also a lot of interestingness.
2:09:30 Just a lot of geometry and squiggles and dots and and uh lines
2:09:36 that are uh starting to stand out as as more small features come into view.
2:09:41 And there also is a lot of variation in albido.
2:09:45 Uh and some of those the two dark features for example
2:09:48 have on the southern edge of the larger one the one
2:09:51 that's further to the south is a very dark uh
2:09:53 the the the one albido like the southern and western part of Grimmaldi.
2:09:58 Uh and the one to the north closer to Glitchko is also that same dark albido.
2:10:05 Um and then around them there are some very high albido spots just to the north
2:10:11 of the lower the southern one and just
2:10:13 to the west of the smaller one to the north
2:10:16 very high albido almost approaching the 10 a nine or a 10 like a starkus uh
2:10:23 and lots of little bright spots are just
2:10:25 starting to pop up on this in this view.
2:10:28 Um to the north as you look up at the north pole there is a very distinct crater
2:10:34 with a lot of uh very central a very defined
2:10:38 central peak that is also uh three in albido and all
2:10:43 that area past it going to the horizon gets
2:10:46 lighter and lighter uh and is very very high albido
2:10:50 and um I will go look and find the name
2:10:52 of that feature if I can uh look that up.
2:10:55 and then to the south.
2:10:57 Uh really getting some interesting uh geography
2:11:01 and topography in the South Pole Aken Basin.
2:11:05 And uh the view of the South Pole is is uh quite amazing.
2:11:10 We've got some terminator there as well as the limb view.
2:11:14 And there is a very distinct crater right at the South Pole.
2:11:19 And uh I'm going to go look up.
2:11:23 I don't believe that is uh Achen,
2:11:25 but uh I'm going to go look up the name of that one uh because it's
2:11:29 also giving uh a lot of good uh
2:11:31 topography due to the shadows uh that I'm seeing.
2:11:34 But that's I was trying to bound the view that I'm seeing for you and it
2:11:37 got distracted by all of these interesting albido
2:11:40 variations that are popping up in the interior.
2:11:42 But that's the view that we see just aval
2:11:45 diameter to the west beyond is where the terminator is.
2:11:49 Um just beyond I think Copernicus is the easternmost
2:11:55 feature that we can see a very nice uh
2:11:58 ringed very nice structure crater to the north
2:12:02 with a great high albido central uplift to the north
2:12:07 and the south is dotted by a a and a a a very
2:12:13 characteristic crater uh with a lot of terrain uh shadow features and I will go
2:12:18 try find some landmarks to to put names with those.
2:12:22 Any questions uh for the observation team
2:12:28 integrity science, love the descriptions.
2:12:30 You're definitely looking odd up there.
2:12:33 Appreciate seeing the training being implemented.
2:12:36 Um especially interested in your descriptions of the dark patches.
2:12:40 you compared the comma looking features to the albido you see in Grimmaldi
2:12:45 and notice that you're starting to see those color differences popping out.
2:12:49 Any observations you want to make, especially when you get on, you know,
2:12:52 the PCD um in a little bit would really help
2:12:54 us tease out um the differences in those dark MAR deposits.
2:12:58 Great description, Victor.
2:13:00 Keep them coming.
2:13:06 Absolutely.
2:13:06 Will do.
2:13:07 And I know you've got descriptions on both
2:13:09 of the window observers right now as well.
2:13:12 Keep them coming.
2:13:55 Great evidence of how well trained this crew is by the science team.
2:14:01 NASA astronaut and pilot of the Aremis 2 mission,
2:14:03 Victor Glover, calling down a situation report,
2:14:07 noting several different features on the moon and such descriptions,
2:14:11 uh even saying that it looks like snow on some of the peaks.
2:14:14 Obviously, we do not expect that to be snow,
2:14:17 but uh referencing that as some of the lighting on how
2:14:21 it looks to the Artemis 2 crew from their current position.
2:14:41 The team is slated to be switching their positions at the windows now.
2:14:47 Uh both Reed Wiseman and Jeremy Hansen have been at windows two and three.
2:14:53 one taking photos, one making observations
2:14:56 and annotations on their portable computing device.
2:15:03 At this time, we also anticipate that they are looking at a crater duo.
2:15:09 One of those is Glushko and the team is look and the other is M.
2:15:13 The team is looking to know the extent of Glushko's ray
2:15:17 system and how its rays differ in the Mare versus the Highlands.
2:15:22 They also want us the team to compare the ray
2:15:25 systems of Glushko to M is considered a young crater.
2:15:47 And if you've ever seen a photo of the rich hat structure,
2:15:50 it's also known as the eye of the Sahara.
2:15:52 It's 40 km in diameter and that could fit within M's interior.
2:16:02 Team is specifically interested in descriptions of that ray visibility,
2:16:05 including the color albido.
2:16:07 Remember, albido is the brightness or the surface reflection and the reach.
2:16:15 Again, I am using the same lunar targeting package
2:16:22 that the crew is referencing on board right now.
2:16:24 This helps keep them on time as well as prompt them for when they
2:16:27 need to make a call down to the science team and report what they're saying.
2:16:31 It also gives them reminders of when they need to swap positions at the windows.
2:16:36 Additionally, I'm using the Artemis 2 lunar science passport developed
2:16:39 by Amber Turner and the Artemis 2 Lunar Science team.
2:16:43 Now, this passport did not fly with the crew,
2:16:46 but they used it extensively as a study guide here on Earth.
2:16:50 So, a lot of the descriptions and comparisons you
2:16:52 hear today are developed directly by the science team.
2:17:00 We are now 4 days, 20 hours, and 43 minutes.
2:17:04 Science integrity.
2:17:05 uh that crater to the north uh that is uh it's like a we've got one
2:17:10 in the north that looks like just a textbook
2:17:13 crater and one on the south pole as well.
2:17:16 The one on the north I think is Pythagoras.
2:17:19 And what I wanted to highlight about that is uh it is either
2:17:23 a very distinct central uh uplift or just a very defined area of high albido.
2:17:32 If a majority of the crater uh especially the floor
2:17:36 of the crater is say an albido of five,
2:17:40 this center and uh gosh only a tenth of the diameter of Pythagoras is
2:17:48 an albido of two maybe three but is very bright and it stands out.
2:17:55 And then between that crater and the actual what
2:18:00 what is the horizon from here there seems to be
2:18:03 another crater right on the horizon and right
2:18:06 on the edge of that is another patch of that albido.
2:18:10 It seems to be between the two craters.
2:18:12 It's hard to tell from this grazing angle but there
2:18:15 is another spot just further north beyond Pythagoras between the two.
2:18:20 I can draw a picture of this one and show you where that very high
2:18:24 albido again another two albido surrounded by five
2:18:29 uh and most of the area bounding it
2:18:38 integrity science uh thanks for that we agree with the Pythagoras
2:18:42 assessment and as a followup to your previous report the sir had
2:18:48 questions about topography comparisons between the north pole and the south
2:18:53 pole of the moon if you're willing to provide words on that
2:19:02 topography comparisons.
2:19:03 Absolutely.
2:19:03 And uh if you have any idea what uh
2:19:07 if you draw a line between Pythagoras and the western
2:19:14 edge of the outer defined ring of Oriental
2:19:19 it intersects a beautiful textbook crater on the south.
2:19:22 I would love to know the name of that.
2:19:24 Uh the topography differences.
2:19:26 Now the south pole has a little bit
2:19:28 of a benefit that it has more of the terminator.
2:19:31 Uh, and I can see um uh a little more shadowing there,
2:19:37 but there's a a nice crater right at the South Pole.
2:19:42 So, that's the main thing defining the the topography there.
2:19:47 Um, seems to be quite a bit of elevation change.
2:19:49 I can see some very jagged shadows,
2:19:51 a 90° just to the west of that uh crater at the South Pole.
2:19:57 I can see a very distinct change
2:20:00 in the shadow directions and indicating I don't know
2:20:03 a very high uh wall or a very deep uh canyon just to the west of that.
2:20:09 Um and in the north it seems to be that uh from sort of the edge
2:20:14 of uh from the edge of the mare
2:20:19 that's dark which is maybe one Pythagoras diameter south.
2:20:24 Uh if you draw a ring about that uh you know
2:20:28 maybe the top uh 7° of the moon and just draw
2:20:33 a ring around that the near side is an albido of five
2:20:37 and looks quite smooth from here and then along the same edge
2:20:42 of the mari the edge of the mari that kind of Galdi
2:20:45 is just outside of Glushko is just outside of Carol Crater is
2:20:50 just outside of and you start to see the stark differences between
2:20:53 the darker 78s and the fives and sixes uh the fours and fives.
2:20:58 If you follow that line up to the north,
2:21:00 that line is also where the change in topography happens at the north pole.
2:21:05 The line defining the light and dark uh uh
2:21:09 on the edge of the mare that you can see from Earth.
2:21:12 Draw that line roughly the midpoint of all that straight to the north pole.
2:21:16 And on the side facing the earth, you see smoother topography and dotted
2:21:21 by Pythagoras and its next door neighbor crater.
2:21:24 And then on the far side,
2:21:26 you see a lot more cratering and a lot more topography.
2:21:29 And again, the uh far side has the benefit of a little terminator there.
2:21:35 But I am seeing a variation in the topography.
2:21:38 it seems to be more uh jagged and a a more challenging place to uh to to find
2:21:46 a place to land and to even traverse in the south um all around the South Pole.
2:21:52 And at the North Pole,
2:21:54 it seems to be it would be more challenging to to translate on the far
2:21:58 side of the North Pole compared to the near
2:22:01 side of the North Pole around Pythagoras.
2:22:07 Copy all, Victor.
2:22:08 Uh you really help paint a contextual picture of what you're looking at.
2:22:12 We really appreciate um the way that you're guiding us
2:22:15 into the areas you're seeing um
2:22:17 by drawing comparisons between recognizable features.
2:22:20 Thanks for that.
2:22:33 And Kelsey, another little science situp moment,
2:22:36 something I just heard from the window team is the more I look at the moon,
2:22:40 the browner and browner it looks.
2:22:42 I thought that was an interesting observation.
2:22:45 Um, the two observers have been on timeline, no hardware issues.
2:22:49 They did um start to talk a little bit about another feature
2:22:53 that that you'll hear more about on the recordings that they called a handprint.
2:22:56 that was uh at the end of their Glushko
2:22:58 and before they moved into their current target.
2:23:00 They thought that was worth chatting a little bit
2:23:02 more about and they're preparing to switch after this.
2:23:09 Houston copies and concurs.
2:23:21 Hey, Houston science actually Houston and science integrity.
2:23:24 Another just observation from the human.
2:23:26 Uh my eyes have shifted a little bit since I've been up here.
2:23:29 I've been wearing my reading glasses to uh look at the PCD.
2:23:33 Well, this is a very taxing event on the eyes,
2:23:36 looking out the window and seeing the very bright moon.
2:23:38 Then coming back inside to the dark cabin and trying
2:23:41 to work cameras and microphones and and and logistics
2:23:45 and lunch and those kinds of things and then
2:23:47 looking at the PCD which is dimly lit.
2:23:50 Uh it's just been an exercise.
2:23:51 It is it is a difficult thing uh to to manage and I'm up and down
2:23:55 on the glasses and then having to wait as my eyes adjust when I come back in.
2:23:59 As soon as I look back into the cabin from looking out the window,
2:24:02 I can feel my eyes adjusting and I just
2:24:04 have to have to work through it as they adjust.
2:24:10 Appreciate that report, Victor, and know that we are prepared to read you up
2:24:14 targets from the ground if that would um give you
2:24:18 the ability to keep your eyes focused on the moon
2:24:20 and not having to swap between that and the PCD.
2:24:22 Just let us know.
2:24:34 Yeah, we appreciate that science and we uh will also do that for the window
2:24:38 teams and we'll we'll back each other up that way as well,
2:24:41 but we appreciate that.
2:24:42 We may take you up on that.
2:24:43 Thanks.
2:24:51 Continued detailed descriptions from the Artemis 2 crew aboard Orion.
2:24:57 Again, this is a test flight,
2:24:59 the first time we've flown humans aboard this spacecraft.
2:25:02 So every detail, even that it's difficult to look
2:25:05 outside the window and then back at the PCD, that portable computing device,
2:25:10 every single detail is appreciated as we prepare for future missions.
2:25:15 Glover also mentioned that he is now wearing his glasses now
2:25:18 that he's in space and that his eyes have shifted a bit.
2:25:21 This is something that happens when our astronauts go to space.
2:25:24 Uh there is a fluid shift from the lower half of your body
2:25:28 up into your head and that can cause changes in your eyes.
2:25:31 It's something that we have seen over time for some crew members,
2:25:35 especially now that we have been living and working
2:25:37 on the International Space Station for over 25 years.
2:25:46 Again, it's clear that these Artemis 2
2:25:48 astronauts have undergone extensive lunar science training,
2:25:52 including classroom instruction, fieldwork, and highfidelity simulations.
2:25:57 Training expeditions even took place in analog environments like
2:26:00 the Icelandic Highlands and the Chem Assassin Impact Crater in Labrador,
2:26:04 where crews practiced identifying and describing
2:26:07 geological features under varying conditions.
2:26:16 Additionally, here at Johnson Space Center,
2:26:18 Orion mockups were used to rehearse crew choreography,
2:26:22 including three-dimensional space management with an inflatable
2:26:26 moon globe to simulate the flyby.
2:26:28 And while on Earth, the crew also used
2:26:30 that small lunar passport that I mentioned with descriptions,
2:26:33 photos, and prompts to help them study the features we hope they'll see.
2:26:37 Now, this is a view from their lunar targeting package at this time,
2:26:40 helping them determine what they're seeing on the moon,
2:26:43 as well as on the left, keep up with what their next target will be.
2:26:47 As you can see, we have got a long list and an exciting day ahead of us.
2:27:03 It's now been 4 days, 20 hours,
2:27:05 and 53 minutes since Orion launched a top the Space Launch System
2:27:10 rocket from Kennedy Space Center in Florida with our four crew members aboard.
2:27:14 NASA astronauts Reed Weisman, Victor Glover, and Christina Cook,
2:27:18 and Canadian Space Agency astronaut Jeremy Hansen.
2:27:30 The Aremis 2 crew passed a major milestone today uh
2:27:33 when they passed the Apollo 13 distance record at 12:57 p.m.
2:27:37 Central, 157 p.m.
2:27:39 Eastern.
2:27:40 That Apollo 13 distance record was 248,655 statute miles from Earth.
2:27:47 And Houston, another observation, whole moon.
2:27:50 When you look at the moon,
2:27:52 something I've never seen in photographs before, but is very apparent.
2:27:56 All the really bright new craters.
2:28:00 Some of them are super tiny.
2:28:02 Uh most of them are pretty small.
2:28:04 There's a couple that really stand out obviously.
2:28:08 And what it really looks like is like a lampshade
2:28:12 with tiny pin prick holes and the light shining through.
2:28:15 They are so bright compared to the rest of the moon.
2:28:22 We copy, Christina.
2:28:23 Thank you.
2:28:24 Looks like you guys might be doing it,
2:28:26 but remind you to swap positions at the window and take your SD cards with you.
2:28:31 We're loving everything that you're calling down.
2:28:33 So, keep it up.
2:28:47 Again, Orion previously surpassed that Artemis or the Apollo
2:29:02 13 uh greatest distance from Earth by humans.
2:29:06 That was 248,655 statue miles from Earth.
2:29:11 and Orion now 250,294 miles away from our home planet.
2:29:18 The spacecraft is 9,33 miles away from the moon and growing ever closer.
2:29:23 At its closest approach, it'll be about 4,070 mi away,
2:29:27 and we will make sure we confirm uh what that distance ends up being.
2:29:32 This is an approximation and an estimate ahead of that moment.
2:29:36 We're anticipating them to make that closest approach at 6:02 p.m.
2:29:39 Central, 7:02 Eastern, when they are in a loss of signal,
2:29:43 transiting behind the moon.
2:29:45 They will be the first humans in over 50 years
2:29:48 to fly behind the moon and lose contact with Earth.
2:29:52 We will regain that contact about 40 minutes
2:29:54 later as they reconnect to the deep space network,
2:29:57 emerging from behind the moon.
2:29:59 And we will look forward to seeing an Earth rise.
2:30:03 Again, the crew is currently in their position swap portion on their timeline.
2:30:22 This allows crew members the opportunity and the experience
2:30:26 of all roles necessary during today's flyby.
2:30:31 Right now, those two crims at the window have swapped positions.
2:31:05 Again, the crew at the windows swapping positions right now.
2:31:10 That crew is commander Reed Weisman and mission specialist Jeremy Hansen.
2:31:14 While Victor Glover and Christina Cook
2:31:16 serve as their support flyby crew members.
2:31:19 That's why you are hearing Victor
2:31:20 and Christina during those science situation reports.
2:31:24 Those voices will change in about 30 minutes when they take
2:31:27 a turn taking photos and making annotations while at the window.
2:32:54 Houston integrity.
2:32:56 I wanted to provide an observation or a little bit of um descriptive nature
2:33:05 on something that we saw on the first day we had good moon views.
2:33:10 This was when we saw more of the near side
2:33:13 and the ground helped me out with uh identifying Mari embrium.
2:33:18 Mari embrium when you have the western limb also in view looks
2:33:23 completely different than the normal view we have of the near side.
2:33:26 It is the most striking feature of the western limb view
2:33:31 that we had and its entire the mountain chains that form
2:33:35 its eastern side are very prominent but they they actually stand
2:33:41 out more than I'm used to seeing even on the western side.
2:33:45 And the whole thing just feels like a big bump.
2:33:48 It's it it actually looks like a large healing wound
2:33:53 with a high albido forming the mountain chain around uh the impact basin.
2:34:00 And it's a I just don't think I had had enough chance to describe how striking
2:34:05 it was on that western limb view as we were coming in a couple days ago.
2:34:13 Christina, science absolutely love that, especially since that's a feature
2:34:17 that all of us here on Earth can observe from home.
2:34:20 So, I'm sure tonight everyone's going to be going out
2:34:22 and looking for evidence of that beautiful topography you just said.
2:34:25 Thanks for those words.
2:36:00 The view on your screen coming from Orion,
2:36:03 a camera mounted on the spacecraft's solar
2:36:05 array wing toward the right of your screen.
2:36:10 The near side is the hemisphere we see from Earth
2:36:14 that is identifiable by those dark splotches which are ancient lava
2:36:18 flows integrity.
2:36:19 Sorry, science integrity.
2:36:21 Uh a question and a comment.
2:36:25 Uh question is, is it possible that we're seeing a shinger basin
2:36:29 uh from this vantage point um in the terminator at the south pole?
2:36:34 And the comment uh is ohm.
2:36:37 The rays coming out of M are less distinct.
2:36:40 We are not seeing uh the bright rays coming out of it.
2:36:44 But the sort of 9:00 wedge that is formed
2:36:47 by the change in albido from the uh interior portion that is
2:36:51 to the northeast uh to the surrounding uh lighter mar
2:36:56 to that's uh you know 270° to the uh to the west.
2:37:00 Um that 90 is very distinct and interior
2:37:04 you got some great descriptions from the two
2:37:05 at the window about the colors in there
2:37:07 but in that darker part in that wedge you've got
2:37:10 some really interesting color even though the rays
2:37:12 the distinct uh difference in the the albido almost
2:37:16 look like rays but it's not the rays coming
2:37:19 out it's the uh just change in that albido
2:37:25 integrity science that is very intriguing those those color rays
2:37:29 coming out of M rather than um sort of albido.
2:37:32 Uh and as answer to your question,
2:37:34 um you we do not think you can see Schrodinger.
2:37:37 It's it's it's in darkness as of now.
2:37:40 Um but thanks for that M description and it sounds like the pair
2:37:43 at the windows got great descriptions
2:37:44 that we're definitely going to dive into tonight.
2:37:52 Okay.
2:37:52 If you uh could help me, I I would still love to know what it is.
2:37:55 There's a very nice crater.
2:37:57 You're going to likely have a lot of pictures of it.
2:38:00 Um what it what would be right in the terminator at the south pole
2:38:04 or close to the south pole uh where it's intersecting the terminator right now?
2:38:11 Yeah, Victor, we're assuming you're talking about, you know,
2:38:14 kind of if you're looking at the terminator,
2:38:16 it's basically like 70% down from the North Pole.
2:38:21 Is that where you're looking?
2:38:30 contact.
2:38:30 Yes, that is where I'm looking.
2:38:38 Integrity Houston, that is an enabled caution for waste water dump required.
2:38:43 We have hit our limit as expected.
2:38:45 No crew action.
2:38:53 Copy.
2:38:53 No crew action.
2:39:03 you are and integrity science.
2:39:06 We're trying to figure out what you're looking at there.
2:39:08 Is it like right on the terminator or is
2:39:11 it in the illuminated port portion next to the terminator?
2:39:43 while we wait for a response from the crew.
2:39:45 The terminator is that dis day and night
2:39:48 or brightness and darkness that you see on the moon.
2:39:54 We see this from the International Space Station as well looking down at Earth
2:39:59 and science from integrity.
2:40:00 Uh, excuse my uh space orientation adaptation.
2:40:05 If you draw a line between Glushko through the center of Oriental
2:40:11 and then another line from Glushko through the southern tangent of Oriental,
2:40:17 that line would almost perfectly uh intersect tangentially the the crater
2:40:23 that I'm talking about and it is on the terminator.
2:40:25 So yeah, I think I'm not looking at the South Pole.
2:40:28 I was uh a little twisted.
2:40:33 That line description was really helpful.
2:40:35 I have eyes on the sir right
2:40:36 now and they are actively discussing lunar geography.
2:40:39 We will be back with you shortly.
2:40:51 You're hearing a couple of voices today in Mission Control Houston.
2:40:54 One of those is Dr.
2:40:56 Kelsey Young.
2:40:57 Integrity Science.
2:40:58 We believe that's Zean Crater.
2:41:07 Oh, I floated away from the speaker.
2:41:08 Say it again, please.
2:41:11 We believe that that is Zean Crater.
2:41:22 Zemen.
2:41:23 Okay.
2:41:23 And can you say the first letter?
2:41:24 I may be pronouncing that wrong.
2:41:26 What's the first letter of that word?
2:41:29 Zulu.
2:41:30 It's Z E M A N.
2:41:39 Copy.
2:41:40 Thank you for that.
2:41:41 Yes.
2:41:41 Uh we've got a great view of that.
2:41:43 And when I went back to the window just now, the view has completely changed.
2:41:46 Uh our trajectory uh is taking us uh to a new view.
2:41:50 And uh I'm looking more into Babalov.
2:41:54 I've got a nice great view into Babalov.
2:41:56 I'm actually away from the window right now.
2:41:57 So, I'm going to go try to give you
2:41:58 some bounding words on the view that we're seeing,
2:42:01 but I've got to get back to a window in a in a minute.
2:42:07 Understood, Victor.
2:42:07 You're defining new views of the moon in more ways than one.
2:42:16 Again, when you hear calls down to science or from science, that's Dr.
2:42:27 Kelsey Young, the Artemis science flight operations
2:42:29 lead here at a console in mission control.
2:42:32 You also hear communications with the crew
2:42:34 from Canadian Space Agency astronaut Jenny Gibbons.
2:42:38 She is the Capcom for today.
2:42:39 She is a backup Artemis 2 crew member.
2:42:46 those calls from pilot Victor Glover asking about a feature he was seeing,
2:42:51 specifically a crater on the moon.
2:42:56 Meanwhile, the team here in the science evaluation room was
2:42:58 actively working together to determine what feature he was describing.
2:43:08 The teams at the window have continued
2:43:10 to move through their targets including M Arisarus
2:43:14 Plateau Riner Gamma and we are preparing for the cabin and window teams to swap.
2:43:19 That's when we'll hear more from Reed Wiseman and Jeremy Hansen when they take
2:43:23 on the support roles while Christina Cook and Victor
2:43:26 Glover are at the windows photographing and annotating.
2:43:39 As we briefly mentioned,
2:43:40 if you look towards the right side of the moon essentially
2:43:44 um This live view coming from a camera outside the Orion spacecraft.
2:44:12 And if you look on the right side of the moon
2:44:14 where you see those dark patches integrity, um, wow.
2:44:18 Yeah.
2:44:18 I, uh, wish I had some more time to just sit here and describe what I'm seeing,
2:44:24 but uh, the Terminator right now is just fantastic.
2:44:27 It is the most rugged that I've seen it.
2:44:29 Um, from a lighting perspective, there are little islands,
2:44:32 there are islands of terrain out
2:44:34 there that are completely surrounded by darkness,
2:44:36 which indicates some real variation in uh in terrain.
2:44:41 Um, up to the north there is a a very nice double crater.
2:44:45 It looks like a snowman uh sitting there um you know
2:44:50 in the five 10 degrees below the pole at at in the terminator.
2:44:54 And then on the southern edge there's almost like a hole.
2:44:57 Looks like a hole and it's a the diameter of Babalov uh size just blackness.
2:45:05 Um and then a uh a wall of bright
2:45:09 and then it goes back to the black beyond the terminator.
2:45:11 So there's just it looks like there's a just a gigantic
2:45:14 hole right there um one diameter uh east of the terminator.
2:45:21 And as you go south, the terminator is not a nice smooth arc.
2:45:25 It's just jagged.
2:45:26 There's almost a 110 degree turn in the the shadow
2:45:31 as opposed to the nice smooth arc.
2:45:33 Again, indicating some really interesting variations.
2:45:36 And I'm sure we'll get some photos of that.
2:45:39 And then one of the uh uh craters further to the south
2:45:44 uh of Babalov um maybe halfway down to the South Pole.
2:45:50 uh is not only a very looks again looks like just
2:45:53 a a deep hole uh and then there's like two island rays
2:45:58 pointing off to the west and north uh that indicate very
2:46:03 high ridges and very deep canyons coming up out of that crater.
2:46:07 So again just some really interesting uh visual
2:46:10 uh illusions going on with the shadows there.
2:46:12 Like I said, there look like there look
2:46:14 to be uh islands out beyond the terminator.
2:46:18 Uh because some of the things um gosh,
2:46:21 maybe even a a valve diameter into the terminator are catching sunlight
2:46:26 on the peaks uh up to the north and to the south.
2:46:28 It's very very interesting to see.
2:46:34 Integrity science.
2:46:35 Oh my gosh, that was an amazing picture you just painted.
2:46:38 I glanced over at the SER video and I literally saw fist pumps in the air.
2:46:43 Those types of observations are things that humans are uniquely able
2:46:47 to contribute and you just really brought us along with you.
2:46:50 So, thanks for that.
2:47:07 That's awesome.
2:47:08 Kelsey, did you get a sit rep updating you
2:47:11 on a slight change in logistics for PCD use?
2:47:18 Christina, this is Houston.
2:47:19 We did not, but we will take it now.
2:47:26 We slightly changed the PCD plan for the window observers.
2:47:30 The two window observers kept their PCD.
2:47:33 So in other words, the one that window two went to window three and the one
2:47:36 at window 3 went to window two when
2:47:39 they swapped rather than staying at the window.
2:47:41 We'll plan on all observers keeping the same PCD for all observations.
2:47:51 Copy Christina.
2:47:51 That makes sense to us.
2:47:52 And good plan.
2:47:54 We are coming up here on a cabin and window team swap.
2:47:59 Let me know when you're ready for a quick vehicle status.
2:48:47 As you heard, science and go for the vehicle system update.
2:48:53 Howdy Reed, we don't have much for you.
2:48:55 We just wanted to let you know that toilet right now is no
2:48:58 go for use as we stick with the predetermined limit uh for now.
2:49:04 All crew members uh please use CCUs.
2:49:08 Otherwise, Orion is looking very good.
2:49:12 And you have 15 minutes in this handover
2:49:14 time where we expect Victor and Christina
2:49:18 to switch to the windows and you and Jeremy to be in the cabin assisting.
2:49:23 Uh let us know if you have any questions.
2:49:32 Uh, no questions at all and they're in the swap right now.
2:49:35 The first thing I'll tell you,
2:49:36 I floated up to the docking hatch window and uh just the the what I'm going
2:49:48 to call the mari around oriental just looks
2:49:50 so different out the docking hatch right now.
2:49:53 It's quite a bit darker.
2:49:54 It's uh the same darkness if not a little darker than Grammaldi.
2:49:58 Uh but it's cool after just being at the 400 mil for the last uh half hour.
2:50:03 Uh looking up close.
2:50:04 I got pictures of everything Ike was just describing on the Terminator.
2:50:07 It really is a fascinating terminator.
2:50:10 Um and then Orientod just looks so it looks so dynamic right now.
2:50:14 It's very three-dimensional out the docky hatch compared to what
2:50:17 I was just looking at through the 400 mil.
2:50:21 We love it.
2:50:22 Uh we are getting a sneak preview from one of our saw cameras
2:50:26 at what you're looking at and we see some of what you're describing.
2:50:29 We cannot wait to see your photos.
2:50:31 Thanks.
2:50:37 Yeah, Jenny, I wish you had some longer lenses
2:50:42 on those solar array so you could see the whole moon,
2:50:44 but man, it is uh or the uplose moon,
2:50:47 not the whole moon, but it is just fascinating here.
2:50:49 It's so cool.
2:50:51 All right, Mo and Inco, take notes.
2:50:53 We want to zoom lens on those saws next time.
2:50:56 Thanks, Reed.
2:51:03 Affirmative.
2:51:11 As the crew gets ready to switch positions uh from the window crew going
2:51:15 back to the support crew and the support crew flying up to the windows.
2:51:19 Um this view inside the room.
2:51:22 Capcom Jenny Gibbons speaking with the crew.
2:51:24 Canadian Space Agency astronaut.
2:51:27 The crew has continued to provide excellent descriptions
2:51:30 of what they are seeing on the lunar surface.
2:51:33 In this picture or in this live view actually
2:51:36 from Orion and a camera mounted on its solar array wing.
2:51:39 If you look at the dark portion on the right side of the screen,
2:51:44 those are visible from Earth.
2:51:45 That's considered the near side, those are ancient lava flows from a time early
2:51:51 in the moon's history when it was volcanically active.
2:51:55 And if you look towards the left,
2:51:57 there's that dark large crater that appears above
2:52:00 um to the left of those lava flows.
2:52:02 That's Orient Hall Basin.
2:52:04 It's about 600 miles wide and it straddles the moon's near and far side.
2:52:08 And this mission is the first time that humans have ever
2:52:10 been able to see this with their eyes in the daylight.
2:52:18 Again, you hear conversation about that terminator.
2:52:20 You have a great view of that as well.
2:52:22 That's the difference between light and darkness on the moon.
2:52:25 Victor Glover explaining that as a very jagged
2:52:29 looking terminator due to the peaks that they're
2:52:32 seeing and the craters that they're seeing
2:52:34 as they prepare to cross over the far side.
2:52:46 You also heard science officer uh the Dr.
2:52:50 Kelsey Young Artemis science flight operations lead sharing with Victor Glover
2:52:55 that his responses are truly something
2:52:57 that only human eyes can discern or provide.
2:53:00 So, we've previously discussed how having humans
2:53:02 observing the moon on this mission is being
2:53:04 combined with lunar robotic data to help
2:53:07 us maximize what we know about the moon.
2:53:09 So, part of that data comes from the Lunar Reconnaissance Orbiter or LRO.
2:53:14 This orbiter provides the robotic foundation
2:53:16 that makes Artemis 2 Lunar Science possible.
2:53:19 LRO has been orbiting the moon for 17 years,
2:53:22 which makes it the longest operated lunar orbiter in history.
2:53:26 And it's also the only American spacecraft
2:53:28 dedicated specifically to lunar science and exploration.
2:53:34 Artemis 2 lunar observations are designed to complement
2:53:37 data like the detailed surface images from LRO.
2:53:40 So while LRO provides those detailed highresolution maps of the moon's surface,
2:53:45 the Aremis 2 crew adds human observations
2:53:47 that focus on regional context and relationships between features,
2:53:51 giving scientists a larger a larger geological picture.
2:53:56 Now, this combination of robotic
2:53:58 and human observations strengthens lunar science.
2:54:01 LRO delivers precise and repeatable measurements over long periods of time,
2:54:06 while the Artemis 2 crew contributes realtime visual
2:54:09 descriptions and context that robotic instruments alone cannot provide.
2:54:14 The best description I've heard while preparing
2:54:16 for this mission is to compare the difference in looking
2:54:20 at the moon with your own eyes on Earth
2:54:21 and trying to take a picture with a camera.
2:54:24 The camera truly never does it justice,
2:54:26 and it's much easier to describe and perceive what you're
2:54:29 seeing with your own eyes than to take a photo.
2:54:32 These Artemis 2 astronauts can rapidly scan wide
2:54:35 areas and adjust their focus in real time,
2:54:37 as well as describe relationships between features.
2:54:41 The crew will also observe the same
2:54:42 regions multiple times under changing lighting conditions
2:54:46 during the flyby and provide perspectives
2:54:48 that would take robotic missions years to accumulate.
2:54:51 During the Aremis 2 mission, LRO is also attempting to observe some
2:54:56 of the same lunar features that the astronauts are studying.
2:54:59 Collecting this data simultaneously highlights how different instruments
2:55:03 and human eyes provide complimentary information about the moon.
2:55:07 This LRO data plays a direct role in preparing for future Artemis missions.
2:55:12 Its measurements of topography, surface temperature, composition, radiation,
2:55:15 and lighting conditions are used to assess hazards, identify safe landing sites,
2:55:21 and locate potential resources such as water ice near the lunar south pole.
2:55:26 This mission, Artemis 2,
2:55:28 represents the point where years of robotic preparation are paired
2:55:32 with human exploration for the first time in the Artemis era.
2:55:35 So together, LRO, the Lunar Reconnaissance Orbiter,
2:55:38 and Aremis 2 are demonstrating how NASA moves
2:55:41 from mapping the moon robotically to exploring it with humans.
2:55:45 We are laying the groundwork for future
2:55:47 Artemis missions and sustained lunar operations.
2:55:53 A check-in with Orion.
2:55:55 We are now 4 days 21 minutes, 4 days,
2:55:59 21 hours, and 22 minutes into the flight of Artemis 2.
2:56:04 our crew aboard the Orion spacecraft.
2:56:06 We are now 8,153 miles away from the moon, 250,742 miles away from Earth.
2:56:15 The spacecraft is traveling at 1,30 mph.
2:57:12 All right, Houston.
2:57:23 Uh, the professional science update giver is now in seat two.
2:57:28 That is where Victor is.
2:57:30 And Christina is nestling in seat one with the long lens.
2:57:35 And we're just getting ourselves oriented here.
2:57:37 Uh, it's it's a cool view in the cabin.
2:57:40 It's actually a cool view to be off the camera now and looking
2:57:42 at my crew mates getting up to their observation post and looking in.
2:57:47 It's super fun.
2:57:56 Copy all.
2:57:57 We like it.
2:59:15 As we heard confirmation from NASA astronaut
2:59:18 and commander of Artemis 2, Reed Wisman, they are now switching positions uh
2:59:24 of the support teams and the observation teams.
2:59:27 So, initially Reed Wisman and Jeremy Hansen were at Windows 2 and three
2:59:32 in the Orion spacecraft taking photos and making annotations in their PCDs,
2:59:36 portable computing devices.
2:59:40 They were also uh com giving audible descriptions uh into their PCDs,
2:59:46 wearing headsets with microphones,
2:59:47 and providing recordings that the science team will be able to listen to later.
2:59:53 We were hearing from NASA astronauts Christina Cook and Victor
2:59:56 Glover as they made observations as part of the support team.
3:00:03 Now, as these teams are swapping,
3:00:05 we anticipate hearing more from uh Reed and Jeremy as they'll be on the support
3:00:10 team while Victor and Christina will be
3:00:12 at the windows taking photos and making annotations.
3:03:37 and Jenny for the science team if they can mark uh this time I just cover
3:03:41 up window four to block out the ambient
3:03:45 light from a very bright planet Earth and it'll
3:03:48 be interesting to see if in the data uh Victor and Christina see any differences
3:03:53 from me and Jeremy with that window blocked
3:03:55 it's a lot darker in the cabin Copy, Reed.
3:04:02 We're taking note.
3:04:03 We'd be curious, too.
3:05:02 We are live in the Aremis mission control room
3:05:05 during the lunar flyby of the Aremis 2 crew.
3:05:09 The first humans to fly by the moon in over 50 years.
3:05:13 Orion launched 4 days, 21 hours, and 30 minutes ago at top the SLS rocket,
3:05:18 Space Launch System rocket from Kennedy Space Center in Florida.
3:05:27 Our four crew members inside
3:05:28 the spacecraft are transitioning their uh positions.
3:05:33 The cabin and window teams have swapped.
3:05:37 Currently at the window, we have Victor Glover and Christina Cook,
3:05:41 NASA astronauts, and serving as support, Reed Wisman and Jeremy Hansen.
3:06:02 For our crews at the window,
3:06:03 they are using handheld Nikons with an 80 to 400 millimeter zoom lens.
3:06:10 There are also GoPros on each of the solar arrays on Orion,
3:06:13 and that's where this view is coming from right now.
3:06:16 We have an interior camera of the crew as well,
3:06:18 but they have dimmed the cabin lights.
3:06:20 They've actually turned off the cabin lights to allow
3:06:22 them to better see outside of the spacecraft.
3:06:26 This also helps prevent any reflections from lights inside the spacecraft
3:06:30 reflecting onto the windows while they are photographing the moon.
3:08:30 We talked a little bit about the views
3:08:32 and the cameras being used on the Orion spacecraft.
3:08:35 Uh, and again, we do have GoPros on the tip of each solar array wing.
3:08:40 Now the bandwidth is a little bit limited because having a crew on board we do
3:08:46 have to down link a lot more data
3:08:48 that includes their environmental control and life support system.
3:08:52 Uh we are not the only data this view
3:08:54 that you see coming down from the spacecraft
3:08:56 and so uh we do rely on sharing some
3:08:59 of that with the other flight controllers in mission control.
3:09:04 This helps the team monitor all systems aboard
3:09:06 the spacecraft and ensure the safety of our astronauts.
3:10:24 We are standing by for a situation report from the crew aboard the spacecraft.
3:10:30 They've been imaging the whole moon.
3:10:32 There is new now a new crew at the window.
3:10:34 That would be uh Victor Glover and Christina Cook.
3:10:37 And so being it's their first time since
3:10:39 they have moved up to the window positions,
3:10:42 they have a chance to orient themselves and describe and take
3:10:46 pictures of any color or albido variations across the surface.
3:10:50 Reminder, albido is the brightness or reflectiveness.
3:10:53 Integrity science for a science sit rep when you're ready.
3:11:36 Houston integrity.
3:11:37 We have no external view of the moon right now for the floating crew members.
3:11:41 So my only signific window three doing observations
3:11:46 and Christina in window two with the long lens.
3:11:50 Integrity, we copy.
3:11:58 Um, are the shrouds still on windows one and four?
3:12:02 And if so, um, would you consider trying
3:12:05 to get a view through one of those windows?
3:12:13 Uh, we cannot take the shroud off of four
3:12:15 because the Earth is too bright and it's impacting uh, Ike's peripheral vision.
3:12:20 And then I can get a grazing glimpse out the docking hatch window.
3:12:26 I can see Oriental south down to the South Pole.
3:12:29 And the primary thing that I see from Oriental right now is
3:12:33 the just the long trenches uh that come out in, you know,
3:12:38 when you come out the north side of Oriental,
3:12:40 the ejecta kind of boulders across the northern half of the far side.
3:12:44 But coming out the southern half of Oriental,
3:12:47 I just see those large uh here they look like gorges.
3:12:52 They're almost like rain when it comes down the Grand
3:12:54 Canyon and fingers off into uh into the desert.
3:12:58 Kind of what it looks like.
3:12:59 Also, uh uh Burgess Alpha is extremely bright.
3:13:05 It's the brightest thing that I can see.
3:13:07 Um even brighter now than Aerist Starkus,
3:13:09 which is heading off to the Terminator.
3:13:12 It's almost impossible now to see Arista Stark is
3:13:14 the thing that Jeremy and I looked so much at.
3:13:16 I can just barely see the crater rays from M.
3:13:20 And uh I would say for uh Albino right now I would go
3:13:26 back to uh Grimmati is still extremely dark especially in that southwest corner.
3:13:33 And there are parts of Oriental and the outer
3:13:36 ring of Oriental that reach that same
3:13:38 level of darkness especially the rings of Oriental
3:13:41 reach the same level of darkness as Grimmaldi.
3:13:44 Uh and then south of Gmani, Jeremy and I were noting uh a few other
3:13:49 just really dark areas of cratering uh or I'm sorry,
3:13:52 Mar there and those have that same darker albido,
3:13:55 but uh Burgess is the brightest and GMI is the darkest.
3:14:06 Integrity Science, that was a great description.
3:14:08 Thank you and thanks for the docking
3:14:10 window geometry to give us that description.
3:14:12 Any comments before you go on the annular ring in Oriental?
3:14:21 The annular ring which uh I think everybody
3:14:23 kind of describes as like a pair of lips
3:14:26 or a kiss on the far side of the moon from here is very circular in nature.
3:14:30 The northern part of it is wider, darker.
3:14:34 The southern part is much lighter.
3:14:36 Um it is it is very neat looking and uh it but it
3:14:40 is very far more circular than I remember it looking in our training.
3:14:46 Uh the darkness of the northern side of the annular ring is the same darkness
3:14:50 from here out this docking hatch window
3:14:53 as the center uh center mare in uh in Oriental.
3:14:58 Uh not quite as dark as Dravaldi, but it it is probably only because dust
3:15:03 and lunar regalith has kind of impacted over time.
3:15:09 Reed, that's exactly what we are looking for.
3:15:11 Thanks so much.
3:15:11 You have heart hands coming out of the sir.
3:15:24 Say that again, Kelsey.
3:15:28 just saying that the sir was really excited about that.
3:15:30 That annular ring was something we were really eager to hear about.
3:15:33 So, thanks.
3:15:39 Yep.
3:15:39 You bet.
3:15:40 And now, Victor and Christina are moving on to Oriental.
3:15:43 I got them situated over there a little bit late.
3:16:09 That was NASA astronaut Reed Wisman now providing a science sit rep
3:16:13 as he is away from the uh windows most of the time.
3:16:18 He is working as the support person along
3:16:21 with Jeremy Hansen in the spacecraft as Victor
3:16:24 Glover and Christina Cook are now at windows
3:16:26 two and three able to photograph the moon.
3:16:34 Christina and Victor are also providing
3:16:37 recorded information to their portable computing devices,
3:16:41 that's their PCDs, and the science team will
3:16:43 have access to that at a later time.
3:16:46 They will then review it and compile all
3:16:48 of this data to help further our understanding of the moon.
3:16:52 One of the items you heard mentioned was Orient Hall Basin.
3:16:55 This has been a very exciting um opportunity for the crew.
3:17:00 They have all been very excited about seeing Oriental as well
3:17:03 as the science team has been looking forward to it.
3:17:05 It is known as the Grand Canyon of the Moon as we discussed earlier.
3:17:16 From the pictures, the science team is hoping that the crew will take
3:17:21 centered images of the entire basin and surrounding craters in a single frame,
3:17:25 but also use those 80 to 400 mm zoom lenses to create a mosaic entire basin.
3:17:37 With their unaded eyes,
3:17:39 the science team is hoping the crew will describe southern dark annual ring,
3:17:43 which you heard uh Reed just describing, as well as any color,
3:17:47 albido, texture, or topography across the Mar patches and ring mountains.
3:17:53 Science team reports that the observations will be used to study the geological
3:17:58 evolution of the youngest lunar basin
3:18:00 and to inform hypotheses for the annular ring.
3:18:10 And again, another fun fact about Oriental is
3:18:13 the diameter is the same distance between Johnson Space Center,
3:18:16 where we are today, and Kennedy Space Center,
3:18:19 where the crew launched on April 1st.
3:19:44 This live view from the Orion spacecraft on the Artemis
3:19:48 2 mission now 7,373 miles away from the moon, 251,130 m from Earth.
3:20:30 Again, the Aremis 2 crew passed the Apollo 13 record
3:20:49 of the humans farthest from the Earth today at 12:57 p.m.
3:20:54 Central time, 1:57 p.m.
3:20:57 Eastern time.
3:21:06 That distance set by Apollo 13 was 248,655 statute miles.
3:21:13 We have clearly passed that and we expect to uh pass that by about 4,15 miles.
3:21:21 That'll been when that will be when uh
3:21:23 the spacecraft reaches its farthest distance from the Earth.
3:21:26 It could be around 252,760 mi.
3:21:31 But again, these are uh approximations and our targets and we will
3:21:35 make sure to report back the final numbers once we have them.
3:22:03 We have some refined times of when we expect to uh have
3:22:07 Earth set of Earth behind the moon while Orion flies behind the moon.
3:22:11 That would be about 5:41 p.m.
3:22:14 Central, 6:41 Eastern.
3:22:17 The spacecraft would make its closest approach to the moon at 6:00 Central,
3:22:21 7 Eastern, and that would be about 4,066 miles.
3:22:27 And then at 6:02 p.m.
3:22:29 Central and uh the spacecraft will reach its farthest distance from the Earth.
3:22:34 We anticipate that will be about 252,755 mi,
3:22:39 which would be 4,111 mi farther than Apollo 13.
3:22:44 We would see Earthrise again at 6:21 p.m.
3:22:47 Central time and a few moments later,
3:22:49 a few minutes later, regain communications with the crew.
3:23:35 currently aboard Orion.
3:23:38 Victor Glover and Christina Cook are
3:23:40 the two team members conducting lunar flyby observations,
3:23:44 meaning they are using the Nikon cameras to photograph the moon
3:23:47 and their PCD or the portable computing device to conduct annotations.
3:23:53 They are both recording information that will
3:23:55 be down linked to the science crew.
3:23:57 And tomorrow morning, the science team will have a uh conference
3:24:02 with the team while the information is so fresh.
3:24:05 They'll be speaking with the crew
3:24:07 about their observations and their data collection.
3:24:16 Otherwise, most of tomorrow, flight day seven is considered an off day.
3:25:31 We are on flight day six of the Aremis 2 mission.
3:25:34 The first time in more than 50 years that humans will observe the moon directly,
3:25:38 providing a critical opportunity to practice how lunar
3:25:41 science will be conducted during future Aremis missions.
3:25:47 If you're just joining us, the crew is well into their lunar flyby observations
3:25:51 and we anticipate that we will hear from them soon.
3:25:56 A few times every hour they are slated
3:25:58 to call down with science sit reps or situation reports.
3:26:01 We most recently had one from commander Reed Wisman.
3:26:07 He and Jeremy Hansen, mission specialist,
3:26:09 were first at the windows today to photograph
3:26:12 and uh make annotations of what they were seeing.
3:26:16 Therefore, we heard more from Victor Glover and Christina
3:26:19 Cook earlier in the day during those first blocks.
3:26:22 But now that Reed Wiseman and Jeremy Hansen are on the support side,
3:26:26 they are the ones calling down what they are seeing from windows 1 and four.
3:26:31 Earlier, we heard that the Earth is so bright in window 4,
3:26:35 they have had to uh temporarily cover it with a t-shirt.
3:26:57 The moon preserves a near continuous record of solar system history
3:27:00 that has been erased on Earth because the moon doesn't have an atmosphere.
3:27:04 So things that we experience on Earth
3:27:06 like weather or plate tectonics don't really apply.
3:27:09 So, the lunar surface retains evidence of ancient impacts,
3:27:13 volcanism, and solar activity that scientists can study today.
3:27:16 And studying the moon helps scientists
3:27:18 understand how planets formed and evolved,
3:27:21 how the moon influenced our own planet Earth's history,
3:27:23 and how the sun shaped conditions across the inner solar system.
3:27:27 The moon also serves as a unique platform for studying the broader universe.
3:27:33 Artemis science is designed around questions best
3:27:35 answered by humans working alongside robotic systems.
3:27:39 Combining decades of robotic lunar data with real time
3:27:42 judgment context and adaptability that only humans can provide.
3:27:47 This mission Artemis 2 is serving as a proving ground for lunar
3:27:50 science operations which allows NASA to test how science is planned,
3:27:54 executed, and supported during a crude deep
3:27:57 space mission ahead of our future Artemis flights.
3:28:18 Integrity, time for a window team position swap.
3:28:22 So, Victor and Christina, please switch places if you've not done so already.
3:28:26 And remember your SD card for the camera.
3:28:45 We're in the swap right now.
3:28:46 They're wrapping up their last comments and they'll
3:28:48 switch over and change guards in the long lens.
3:28:54 Copy.
3:29:19 As you heard in that call,
3:29:20 it is now time for the team members at the window to swap positions.
3:29:27 That means Victor Glover and Christina Cook will be switching roles.
3:29:32 One of them have has been photographing the moon with a Nikon with an 80
3:29:36 to 400 millimeter zoom lens while the other
3:29:38 was making annotations on their portable computing device.
3:29:45 And both are recording audio that the science team will be able to listen to.
3:29:59 We are now 2 hours and 10 minutes until we expect
3:30:03 to lose signal with the spacecraft as they fly behind the moon.
3:30:12 And the next target for the crew is considered a crew choice event.
3:30:16 They have the option to focus on any
3:30:18 regions or patterns or features that interest them.
3:30:24 The science team has asked the crew
3:30:26 to capture pictures that illustrate their choice as well
3:30:29 as at different zoom levels and to describe
3:30:32 why those certain features or regions caught their eye.
3:30:39 Those recordings are part of what are being saved on their PCDs,
3:30:47 portable computing device that will be sent to the science team for analysis.
3:31:05 The crew has been allotted eight minutes for this crew choice event.
3:31:08 And it's also a time for a scheduled sit rep or situation report.
3:31:13 So we expect to hear them calling down what they are seeing soon.
3:31:55 Something that the crew or that the science team has
3:31:58 used to help prepare the crew is a Q card.
3:32:01 These ask for a feature ID if they happen to know
3:32:04 the type or name and if it is a target.
3:32:06 Of course, in this situation, when they have a crew choice,
3:32:09 they do not need to uh it may or may not be a target.
3:32:13 They want to know the location and the observation style.
3:32:18 They've also asked for the geometry of what's being captured, the size,
3:32:21 shape, boundary, and preservation, as well as the color and shadow.
3:32:25 So, the color tone, the albido,
3:32:27 that uh reflection or brightness, and any shadows or illumination.
3:32:32 Next, they're interested in structure and texture.
3:32:34 That includes slopes, structures and textures of course and geologic
3:32:39 relations like association to other features,
3:32:42 any contact to those features and of course their thoughts,
3:32:46 impressions or interpretations.
3:32:49 They are interested even in emotions and excitement that the crew may be having.
3:33:04 This flyby day has been practiced in many ways,
3:33:06 even in SIMS here in Mission Control Houston.
3:33:12 The team also conducted some fieldwork,
3:33:14 learning how to uh look for specific geologic features.
3:33:18 They also photographed a large globe and the science team helped them determine
3:33:24 uh which features they would be targeting and how to look at those.
3:33:46 We have a few more minutes
3:33:47 that the crew would be photographing their crew choice.
3:33:50 Again, this is NASA astronauts Victor Glover and Christina Cook at the windows.
3:33:56 They will then move on to another discussion portion.
3:33:59 This is for the far side albido,
3:34:01 that reflectiveness and color that they are seeing.
3:34:05 We heard earlier about some browns seen on the moon which is
3:34:08 very interesting especially here from Earth where we are just seeing whites,
3:34:12 grays uh and maybe even black at some points when they get
3:34:17 into that discussion for far south far side albido in a few minutes.
3:34:22 The theme is looking to know how that color and albido
3:34:26 is uh what those variations look like across the far side.
3:35:00 on the right side of your screen, the science evaluation room or sir,
3:35:04 where team members are looking real time at what the crew is seeing.
3:35:07 And even earlier, we're integrity ready for science.
3:35:13 We'll take it.
3:35:20 Okay, the crew has uh swapped positions.
3:35:23 They're in their crew choice uh element.
3:35:26 I've been listening to both of them
3:35:27 for a little bit and uh they're really enjoying uh
3:35:30 they both decided to pick the Terminator and they're
3:35:33 spending a lot of time looking at the Terminator.
3:35:36 um just talking about the resolution that they can see um the depth
3:35:42 of the craters and the various interesting
3:35:46 um and unique excavations that they can see.
3:35:53 So Victor is on the long lens and Christina is just looking
3:35:57 out the window and I'm sneaking a look a peek in t-shirt window.
3:36:02 Um, it looks like I don't have the best angle here,
3:36:07 but it looks like Aeros Starkus has is on the limb of the moon now.
3:36:12 Um, it's amazing how quickly it changes as we
3:36:16 speed around the far side of the moon.
3:36:19 Stuff that's leaving our field of view.
3:36:21 And, uh, now we have a lot of the dark side of the moon that, you know,
3:36:27 it's missing for us right now,
3:36:29 but it's it would be in view if it was lit at all.
3:36:34 Jeremy science.
3:36:36 Thanks for that sitrep.
3:36:37 Um do have a question.
3:36:39 Um a few times we've heard you and and uh
3:36:42 the other crew describe change during the course of your flyby.
3:36:46 Would be interested in future descriptions
3:36:48 of more uh verbosity about how it's changing.
3:36:52 Thanks for the great rep.
3:37:16 Yeah, Kelsey.
3:37:17 Uh, sounds good.
3:37:17 We are definitely keeping an eye on that.
3:37:20 Um, my eyes have just not readjusted.
3:37:22 The moon is so bright when you come back to the window.
3:37:25 I was just in the interior of the cabin.
3:37:27 I've come back to t-shirt window and it's just
3:37:30 overwhelming brightness and my viewing angles have been challenging.
3:37:35 So, I won't be able to give you great observations from this window,
3:37:38 but I will talk about something that I
3:37:40 was talking a lot about in my recordings earlier,
3:37:43 which was um we've been talking about some shades and uh
3:37:48 so we we have obviously the the dark and the light gray,
3:37:53 and then we've talked about naming some colors,
3:37:55 a brownish hue and a greenish hue.
3:37:59 And I'll tell you like right now Aristarus um the plateau is hard for me
3:38:07 to see from this window but that had greenish hues to me and was very unique.
3:38:11 I didn't see anything like that anywhere else on this side of the moon.
3:38:15 And then I see a lot of these what I would call brownish hue areas.
3:38:19 There's a number of them and they if
3:38:23 for example in the northwest corner of the highlands um
3:38:27 to me it looks like the brownish hue is
3:38:30 caused by ray or ejected material landing on the highlands
3:38:35 and then we obviously see the ray areas
3:38:37 as a lighter albido but in between the rays where
3:38:40 the the deposit would be thinnest that is what
3:38:44 it looks like is causing the brown to me.
3:38:46 So, I saw that in the northwest side of Aeros Starkus or sorry
3:38:51 that that dark area of the Highlands uh northwest side of the Highlands.
3:38:55 I saw it in the highlands to the east of Glushko.
3:38:59 And then I see those same brownish hues west of Oriental.
3:39:06 Um, and I I drew a contact there on one note,
3:39:09 but that's a huge region kind of like a piece of pie with a the point
3:39:15 of the pie pointing at Oriental and then
3:39:17 going up towards uh the northern side of Herzbrung.
3:39:24 And that is a that is an area
3:39:26 that just looks like a different that brownish albido.
3:39:33 That was fantastic, Jeremy.
3:39:35 We had heard rumors of the green and brown hues
3:39:38 and so you really read my mind on um asking about those.
3:39:42 Um understand they likely didn't have any contact
3:39:44 with each other the way that you described them.
3:39:47 Um but please correct me if I misunderstood that.
3:39:50 And then uh last thing I'll make the same offer we made to Victor earlier.
3:39:55 If it would be helpful for us to verbalize any targets so you can stay
3:39:58 at the windows and keep your eyes adjusted to the moon, please let us know.
3:40:19 Uh, if you got something you want us to look at, Kelsey, you can send it on up.
3:40:31 Definitely not looking to interrupt your flow.
3:40:33 Reed and Jeremy only offering um assistance if you
3:40:37 guys want to keep your eyes off of the PCDs.
3:40:47 Oh, I see what you're saying.
3:40:48 Okay.
3:40:57 not really science related and we definitely learned this at Apollo,
3:40:59 but the the thing that is just most fascinating I think to me
3:41:02 and Victor right now is even as as rugged as the far side looks,
3:41:08 when you look at oriental and home, it's rugged, but man,
3:41:12 when you look at the Terminator, it is just like impossibly rugged.
3:41:16 And it reminds you that the whole far side is that way.
3:41:19 And just the terminator is really bringing out the shadows
3:41:22 and the hills and the valleys and it is just it's unbelievable.
3:41:25 It's like no surface of the terminator is not
3:41:29 marked by meteor impact and it's just it is
3:41:32 very impressive to look at that and you realize
3:41:34 that that is true across the whole far side.
3:41:36 You just can't see it uh due to the sun illumination right now.
3:41:43 read Houston copies and we were commenting on the same thing.
3:41:46 Even from our view, the Terminator looks absolutely alien because there is
3:41:51 just so much texture in there that we're just not used to seeing.
3:41:54 So, thanks for sharing that with us.
3:42:01 There's also I don't know the name of it.
3:42:03 Uh coming out the souths southwest of Oriental right
3:42:08 on the southern terminator is just a massive crater.
3:42:12 Uh I don't know the name of it.
3:42:14 Maybe you can look on the on the uh solar ray wing video and tell me it's right.
3:42:18 It's the southernmost crater you see on the terminator right now.
3:42:28 We're looking for you.
3:44:36 We're loving that picture.
3:44:37 Thanks for showing us.
3:44:39 And Reed, as an answer to your last question,
3:44:42 we believe that that is Chbby Chev crater.
3:44:45 And the sir agrees with that.
3:44:56 Okay, that picture I was just showing you is an 8X
3:44:59 iPhone out the docking hatch for the high grazing angle.
3:45:02 It's just amazing.
3:45:07 We love it.
3:45:08 Thank you.
3:45:35 This is Artemis mission control in Houston, Texas.
3:45:38 Mission elapse time 4 days 22 hours 12 minutes into the flight of Orion.
3:45:51 This is lunar flyby day for the crew aboard the spacecraft.
3:45:56 Reed Wiseman, Victor Glover, Christina Cook,
3:45:58 and Jeremy Hansen are now the farthest people to have ever traveled from Earth.
3:46:16 This a live view from inside the spacecraft.
3:46:18 They have turned off the lights so they're able to see
3:46:21 outside and photograph the moon better with no reflections from inside.
3:46:25 And for a very brief moment there,
3:46:27 Integrity Science, thanks for those iPhone views.
3:46:31 Uh it's helpful to see what you're seeing.
3:46:47 We very briefly saw NASA astronaut Reed Wisman showing
3:46:52 a picture he took on his phone of the moon.
3:46:59 We do expect to get all of the photos that the crew is
3:47:01 taking today and we cannot wait to share some of those with you.
3:47:05 But uh pretty cool in the meantime just to see
3:47:08 one quick shot from what the crew is seeing.
3:47:14 And this view from outside the spacecraft on Orion's solar array wing.
3:47:22 Orion is now 6,643 miles away from the moon and continuing to grow closer.
3:47:29 Again, their closest approach will be about 4,066 miles.
3:47:34 The best comparison is if you held a basketball at arms length.
3:47:38 That's about what it would look like
3:47:40 to the Artemis 2 crew at their closest approach.
3:48:59 this view showing uh at the very top a camera
3:49:04 coming from Orion continuing their flyby of the moon.
3:49:10 We have three more flyby observation blocks after the completion of this one.
3:49:20 Down on the bottom left of your screen,
3:49:22 that's the SIR, the science evaluation room,
3:49:25 where team members are continuing to work through all
3:49:27 of the targets that the crew is photographing today.
3:49:30 and they've helped identify some of the uh some of the craters and some
3:49:35 of the other items that the crew has seen on the moon's surface.
3:49:40 Down on the right is Artemis mission control here in Houston.
3:49:44 Those two rooms down at the bottom are just down the hall from each other.
3:50:03 And we are just a few minutes away from the next cabin and window team swap.
3:50:08 That means Victor and Christina, who have been at the windows,
3:50:11 will fly to the cabin uh the background essentially
3:50:15 and be their support crew for Reed and Jeremy.
3:50:19 Reed and Jeremy will move back up to the windows.
3:51:34 The crew is continuing their um discussion portion of the flyby
3:51:40 in the lunar targeting package where it says far side albido/color.
3:51:44 They are looking uh the science team is looking
3:51:46 to get a good understanding of what the crew
3:51:48 can see on the far side at this point and its brightness as well as any colors.
3:51:54 We did hear earlier uh Canadian Space Agency astronaut Jeremy Hansen reporting
3:51:58 that they could even see browns and even greens on the moon.
3:52:02 I'm really looking forward to seeing those photos.
3:52:04 And in just a couple of minutes,
3:52:06 the teams will swap from the cabin to the window.
3:52:18 another rundown of just how this flyby
3:52:21 is choreographed inside the spacecraft today.
3:52:24 So these activities have been timelined and there are these five blocks of time
3:52:28 during which the crew is uh going to be observing the moon from Orion's windows.
3:52:34 Now we are just coming up on the end
3:52:36 of the second block and we'll start the third soon.
3:52:41 So, at any time during those blocks,
3:52:43 two members are at the windows working in a pair.
3:52:45 One is taking photos from window two and has a blue shroud
3:52:49 over the window to help prevent any reflections from inside the spacecraft.
3:52:54 They are also using an 80 to 400 millimeter zoom lens.
3:52:57 And the other astronaut on the window team will be
3:52:59 in window 3 using their portable computing device to make annotations.
3:53:04 Now, again, both of those crew members are making audio recordings
3:53:07 of what they are seeing and we are not hearing that right now.
3:53:10 Those are going to be down linked to the science team who will
3:53:14 evaluate them and uh use that data to inform our understanding of the moon.
3:53:21 Those two crew members at the windows swap roles.
3:53:24 Integrity Houston, it is time for another
3:53:29 swap between the cabin and the window teams.
3:53:32 So, we have 15 minutes of handover time and then we will expect
3:53:37 Jeremy and Reed at the windows and Christina and Victor at the cabin.
3:53:43 I have no uh new vehicle updates for you,
3:53:47 but I do have a photo location uh for some photos on Ike's PCD,
3:53:52 and I want to let you know
3:53:53 that Jeremy's family have arrived in the viewing gallery.
3:54:11 Okay, Jenny, we copied most of that.
3:54:13 The only thing we're missing is what you
3:54:14 meant about the photo location on Victor's PCD.
3:54:19 And uh hello to my family.
3:54:21 I think that must be Katherine and Devon that are there.
3:54:24 And I'm glad they made it into the viewing room.
3:54:28 And uh we copy.
3:54:30 It's time for crew swap.
3:54:31 The A team's coming out of the windows and the B team's going in.
3:54:37 Okay.
3:54:37 Copy.
3:54:38 All I meant to pass for Victor's uh PCD is that there are some
3:54:42 late load uh photos that were requested
3:54:45 that are now in his favorite photos folder.
3:54:48 Um and you're exactly right.
3:54:49 We have Katherine and Devon here.
3:54:51 Uh they give you a big wave and they're super
3:54:53 excited and happy to see part of what you're seeing.
3:55:22 Okay, copy, Jenny.
3:55:23 We not sure what we're looking for in the PC,
3:55:25 but we're going to poke around and we may be calling you back about that one.
3:55:31 All right, that's no problem.
3:55:32 And it's unrelated to flyby.
3:56:12 This is Artemis mission control here at Johnson Space Center in Houston, Texas.
3:56:16 And as you just heard, Capcom or capsule communicator Jenny Gibbons,
3:56:20 Canadian Space Agency astronaut and Artemis 2
3:56:23 crew backup relaying to the teams in Orion
3:56:26 that it is time for a swap from the cabin to the window teams.
3:56:32 We're now at the tail end of the second lunar flyby observation block.
3:56:36 Again, we have five of these today.
3:56:40 Most recently, Victor Glover and Christina Cook
3:56:42 were at the windows photographing and making annotations.
3:56:46 While Reed Wiseman and Jeremy Hansen were in the cabin providing support,
3:56:50 whether that is SD card help,
3:56:53 but also science sit reps calling down any situation reports for what
3:56:57 they are seeing on the moon or anything about the vehicle status.
3:57:03 With that call to make a swap,
3:57:05 Reed and Jeremy will be back at the windows making
3:57:08 observations for what they see at the moon and taking photos.
3:58:43 Again, you're watching live coverage of NASA's Artemis to come.
3:58:59 But something that's truly awesome up here is we now
3:59:02 have the moon and the Earth in window three simultaneously.
3:59:07 And the moon is a gibus and the earth is a crescent.
3:59:12 And I'm guessing in about uh 45 minutes,
3:59:14 we'll have two identical crescents as we change our position in the universe.
3:59:23 That is pretty darn cool.
3:59:25 Thank you.
3:59:38 That's the Artemis 2 crew,
3:59:40 the first astronauts to fly by the moon in more than 50 years,
3:59:43 reporting that when they look out of window three, one window,
3:59:46 they're able to see both the Earth and the Moon at the same time now.
3:59:51 Now, obviously, our view is from a camera
3:59:53 on the solar array wing pointed at the moon.
3:59:56 And we hope to see that view of both the Earth and the Moon soon.
4:00:10 some upcoming times uh for what you can expect.
4:00:13 In about an hour and 40 minutes, we will have Earth set and during that time we
4:00:17 will have a view of Earth going behind the moon.
4:00:22 Shortly after, just a few minutes later,
4:00:24 we will lose signal with the Orion spacecraft.
4:00:27 This is tracked as it is going behind the moon
4:00:30 and out of reach of the deep space network.
4:00:33 At 6:00 p.m., the spacecraft will make its closest approach
4:00:37 to the moon at a distance of about 4,66 miles.
4:00:42 At 6:02 central, the spacecraft will reach its
4:00:45 farthest distance from Earth at about 2,00 252,755 miles.
4:00:52 Of course, these are approximate and we will make sure
4:00:55 to provide you with the final distances once those are confirmed.
4:01:00 At 6:21 p.m., we will have Earthrise from the Orion spacecraft,
4:01:06 but we will not have communications with the spacecraft until 6:25 p.m.
4:01:11 Central when we expect to acquire signal
4:01:14 with them after they've emerged from behind the moon.
4:01:39 Again, you're watching live coverage of NASA's
4:02:00 lunar flyby for the Aremis 2 mission.
4:02:02 First crew to fly beyond the moon in over 50 years.
4:02:06 The astronauts inside the spacecraft are switching positions.
4:02:10 Two at the windows and two serving in support roles
4:02:13 before they start their third timelined flyby observation for today.
4:02:23 We've heard great calls from the crew so far describing what they're seeing.
4:02:27 All well trained by the science team here on the ground.
4:02:33 Another major milestone for the crew today will
4:02:48 be to experience a solar eclipse from their capsule.
4:02:52 No one on Earth will experience this solar eclipse.
4:02:58 To the astronauts, this will look a lot like a total solar eclipse on Earth,
4:03:02 except the moon will be huge compared to the sun.
4:03:05 Whereas, if you're standing on Earth and looking at a solar eclipse,
4:03:08 the moon and the sun appear to be about the same size in the sky.
4:03:15 As the moon begins to cover and then uncover the sun,
4:03:18 the astronauts will see a partial solar eclipse.
4:03:21 So, that's before and after totality.
4:03:23 And during that time frame,
4:03:24 they will have to wear eclipse glasses so they can safely view this phase.
4:03:29 They also intend to capture images of the sun's corona during the eclipse.
4:03:34 This is a rare glimpse at the innermost corona
4:03:37 that will only be captured by the astronaut's cameras.
4:03:43 During the eclipse, we also look forward
4:03:45 to the crew members describing what they will see,
4:03:47 which includes unique light features like the shape
4:03:49 and size of the corona and potentially even lunar dust.
4:03:56 At the same time, Venus, Saturn, Mars, and Mercury will be near the sun,
4:04:00 so they may be able to identify what part of the sky they're looking at.
4:04:04 This can help train future Artemis astronauts
4:04:07 on what part of the sky they're seeing,
4:04:08 which is useful knowledge in challenging situations when they may need
4:04:12 to rely on that information instead
4:04:14 of instruments for navigation and orientation.
4:04:18 That eclipse window will last about an hour and it'll happen
4:04:21 near the end of the day today, closer to 7:35 p.m.
4:04:26 Central, 8:35 Eastern.
4:06:00 As you can see in this live view from Orion,
4:06:04 the Earth is um the spacecraft is maneuvering around the moon
4:06:08 and the views of the moon have changed since we started our broadcast.
4:06:14 The near side is now very far to the right side of your screen.
4:06:19 This is the side that we can see from Earth.
4:06:21 That darkened portion are ancient lava flows.
4:06:30 The crater down towards the bottom of the moon is Oriental.
4:06:34 And this is uh crater that was previously
4:06:37 never seen before by human eyes until this mission.
4:06:52 Everything to the left of Oriental is considered the far side.
4:06:56 And this is what we typically do not see from Earth.
4:07:36 Just a reminder about this view.
4:07:37 This is coming from a GoPro camera mounted
4:07:40 on the tip of one of Orion's four solar arrays.
4:07:43 Each solar array has a camera mounted on it
4:07:46 and uh the bandwidth is limited due to we have a crew on board and this is
4:07:51 our first flight of crew aboard the Orion spacecraft.
4:07:53 So having a crew means we have
4:07:55 to have an environmental control and life support system.
4:08:00 There's a lot of data around uh a lot of data to bring down
4:08:04 for the crew members to keep us up
4:08:06 to date on everything happening aboard the spacecraft.
4:08:09 So we have to share our bandwidth when it comes to imagery and data.
4:08:44 Inside the Orion spacecraft,
4:08:46 the astronauts have uh completed their cabin and window team swap,
4:08:51 meaning we have moved into the next block of lunar flyby observations.
4:08:56 Jeremy Hansen and Reed Wisman are now back
4:08:58 at the windows taking photos and making annotations.
4:09:02 About halfway through this block,
4:09:03 they will switch positions at the windows and will
4:09:05 be prompted at the by the ground to do so.
4:09:49 Houston integrity for sit rep.
4:09:52 First of all, I'll just talk about uh the experience
4:09:56 that that I had during Victor and my observation time.
4:10:00 It was an incredible experience.
4:10:02 We definitely noted how much more you can see with the zoom lens.
4:10:07 Even though we have a great visible eye image,
4:10:10 there's just a lot of um texture that just
4:10:13 pops right out at you when you can zoom in.
4:10:15 So, almost using it like a telescope, the camera lens.
4:10:19 We really enjoyed our discussion time.
4:10:21 That was a great innovation on the lunar targeting plan.
4:10:24 We were both able to describe a lot more kind of with flow,
4:10:29 I would say, when we were talking to each other.
4:10:31 And it was also we we sort of were able
4:10:35 to bounce ideas off of each other and come to new conclusions.
4:10:39 We had I think a very successful talking
4:10:41 through of some contacts between different color areas both
4:10:45 in the mare and in the highlands and we
4:10:48 identified some really unique texture areas as well.
4:10:52 At one point towards the end of the images of my time in window 3,
4:10:58 I just had an overwhelming sense of being moved by looking at the moon.
4:11:03 Uh it lasted just a second or two
4:11:05 and I actually couldn't even make it happen again.
4:11:08 But uh something just drew me in suddenly
4:11:12 to the lunar landscape and it became real.
4:11:15 And the truth is the moon really is um its own uni body in the universe.
4:11:21 It's not just a poster in the sky that goes by.
4:11:24 Um, it is a real place and it when we have
4:11:28 that perspective and we compare it to our home of the earth,
4:11:32 it just reminds us how much we have in common,
4:11:35 everything we need, the earth provides.
4:11:37 And that in and of itself is somewhat of a miracle and one
4:11:41 that you can't truly know until you've had the perspective and of the other.
4:11:48 Um, I'll switch into some logistics stuff.
4:11:51 The Peltors boats um their batteries stopped providing the active listening,
4:11:56 but we we have verified they are still recording and so we are able to have
4:12:01 discussion time and hear outside our recordings by just
4:12:05 moving the ear cup off of the ear.
4:12:08 Other than that, everything's working well technically and we've been able
4:12:11 to find all our targets and we're having a really great time.
4:12:18 Thanks, Christina.
4:12:18 We copy those uh logistics for the pulours and also thanks
4:12:24 for bringing us into the cabin with you with that description.
4:12:47 right on time.
4:12:49 NASA astronaut Christina Cook, a mission specialist for Artemis 2,
4:12:52 calling down a science sit rep, a situation report.
4:12:56 Good news, reporting that she and her teammates have
4:12:59 been able to capture all targets that were listed.
4:13:14 Christina also gave a vibrant description of just how it feels to be there
4:13:19 and to see the moon up close and not just something passing in our night sky.
4:13:27 Currently, the team members at the window are Reed Wisman and Jeremy Hansen.
4:13:34 Meanwhile, Integrity cabin team for Window Shroud We're listening.
4:14:11 Go ahead, Jenny.
4:14:15 Hey, Victor.
4:14:16 We have a temperature constraint on the windows
4:14:18 and um the shroud might be getting us close.
4:14:22 So, we just want to check on the state of window 4's shroud,
4:14:27 whether you believe it's still necessary because
4:14:30 maybe things have changed with our viewing.
4:14:32 And uh if so, we would like to request to have the shroud removed.
4:14:43 Houston, we believe it is necessary.
4:14:45 We pulled it off just as a corner.
4:14:47 It is very bright.
4:14:48 Uh it definitely would affect um our night vision uh and uh maybe comfort.
4:14:54 Uh but if is there a time,
4:14:55 can you tell us when we would have to take it off bite?
4:15:09 Unfortunately, since it's been on for a while,
4:15:12 we are going to have to request that the shroud is removed.
4:15:15 And we can recommend something that could block the light,
4:15:19 but just create a bit of distance between
4:15:21 the window and whatever is covering covering it.
4:15:24 Something like a t-shirt would do the trick and help.
4:15:32 Okay, we're removing the shroud and we will uh we'll make it work.
4:15:35 Thanks.
4:15:48 Thank you, Victor.
4:15:49 Um we know it's pretty bright in there now with that window uncovered.
4:15:53 We will also offer that airflow on the window would be helpful.
4:15:57 So if you want, you can also res retrieve the condensation hose which should be
4:16:02 friction fit onto one of the diffusers and that on the window would also help.
4:16:13 We can easily point a diffuser at the window.
4:16:15 So we're going to start with that.
4:16:16 And u it's pointing at the window now.
4:16:27 Okay, we'll take that, Victor.
4:16:28 Thank you.
4:16:29 Please keep us updated.
4:17:16 That call from Capcom Jenny Gibbons,
4:17:18 CSA astronaut and Artemis 2 crew back up to the crew aboard Orion letting them
4:17:23 know that they will need to remove
4:17:25 the window shroud they had placed on window 4.
4:17:28 They initially placed that shroud there to block
4:17:30 out some of the light from the Earth.
4:17:32 It was extremely bright coming in the cabin and interfering
4:17:35 with some of their uh viewing opportunities out at the moon.
4:17:44 This was a request from ground teams
4:17:46 to ensure that they are protecting other systems
4:17:49 and the crew has been offered the opportunity
4:17:51 to use something else to cover the window.
4:17:58 Meanwhile, uh Reed Wiseman and Jeremy
4:18:01 Hansen continue with their lunar flyby observations.
4:18:04 They have just uh looked at Glushko Crater.
4:18:08 That's about when we heard that call down
4:18:10 from Christina Cook with that description of everything she
4:18:13 had been seeing during her uh her observation
4:18:17 period and what she was seeing at that time.
4:18:21 The science team asked this crew to take centered images
4:18:25 of the entire crater and their ray system in one frame.
4:18:33 They're also interested in knowing the brightness, texture,
4:18:35 and extent of Glushko's rays and how they differ
4:18:39 in the Mar or that sea area versus the highlands.
4:18:47 Glushko is considered a young lunar crater and these observations
4:18:51 can help understand material properties of those craters science integrity.
4:19:13 Um, first I wanted to start off uh with connecting with what
4:19:17 Christina said that uh it was very moving to look out the window.
4:19:21 I had the unfortunate uh uh sequence to start looking out the window
4:19:26 and then moved to the long lens and it was hard to speak uh looking
4:19:32 through the zoom um because I went straight where Christina went and I was
4:19:37 walking around down there on the surface
4:19:38 climbing and off-roading on that amazing terrain.
4:19:42 Um, I also want to underscore something that she said as we
4:19:47 continue to explore when we actually do go down there to the surface.
4:19:50 I know for safety reasons that we would never send someone alone,
4:19:53 but I just want to really emphasize how important that discussion time was.
4:19:57 When we started to talk,
4:19:59 we not only got better science discussion, we got better human connection.
4:20:02 And so doing this as a pair, we just learn and grow together.
4:20:07 And that's just super important.
4:20:08 So, thank you for adding that to this plan.
4:20:12 Reed just passed me a note that the oriental basin annular
4:20:15 ring has a similar albido to the center but a different color.
4:20:19 It has more brownish tones in it.
4:20:22 Uh and he said it's very distinct uh now that he's been staring at it.
4:20:29 Victor, thank you.
4:20:29 You got a cheer from science there and uh
4:20:33 we all just went on that moonwalk with you.
4:20:36 So um highlighting how important it is to talk about these things.
4:20:39 Um, I also want to let you know that we
4:20:41 have Diana Glover with us in the viewing gallery.
4:20:44 She's all smiles.
4:20:53 Well, you just got a bunch of cheers up here.
4:20:55 Hey babe.
4:20:56 Um, I love you from the moon.
4:21:01 We love that we got a Hey babe, too.
4:21:03 And we also have one of your lovely daughters here uh watching you guys work.
4:21:15 Thank you guys for doing that and for uh supporting them through this.
4:21:19 Um to all of you, Genesis, Maya, Joya, and Karen, I love you.
4:21:23 And Diana, I love you.
4:21:24 I'm glad you get to be there.
4:21:48 We've had some really sweet words from the crew members
4:21:50 aboard Orion today as their families have been able to filter
4:21:53 in and out of the viewing room viewing room here
4:21:56 at Aremis mission control at Johnson Space Center in Houston.
4:22:00 Patrick Glover also giving a great science sit rep
4:22:03 and just a description of how it must feel if
4:22:06 you were down on the lunar surface while he
4:22:08 was looking through that 80 to 400 millimeter zoom lens.
4:22:12 He also expressed how important it was to be
4:22:15 able to talk through that real time with Christina Cook
4:22:19 and stressed the importance of that on future missions that it
4:22:22 not only made their discussions better but also more human.
4:22:28 lover and cook are in the support roles right now
4:22:31 uh not taking photos or making annotations at the windows,
4:22:34 but they are also encouraged to have their midday meal at this time.
4:22:39 For lunch today, those two crew members have options of beef ravioli,
4:22:43 salmon, butternut squash, sweet and savory kale,
4:22:46 pickled beets, cherry cherry blueberry cobbler, tuna noodle casserole,
4:22:52 tomatoes and artichokes, broccoli and chocolate peanut butter bar.
4:23:06 Once Glover and Cook return to the window portion of their uh flyby today,
4:23:13 Reed Wisman and Jeremy Hansen will get into their midday meal.
4:23:22 Again, this is the third of five scheduled blocks for our lunar viewing today.
4:23:27 And if you were watching at the start of the broadcast,
4:23:29 you can definitely tell the difference and the distance from the moon.
4:23:33 We are now 5,518 miles away from the lunar surface
4:23:38 and again expecting the crew to get about 4,066 miles away.
4:23:45 They are currently 252,050 miles away from Earth.
4:23:49 And every mile is a new record,
4:23:51 having surpassed the Apollo 13 milestone for furthest distance earlier today.
4:24:34 If you look down to the bottom right of the moon
4:24:36 in that darker looking area that is Oriental Basin.
4:24:42 We have continued to lose views of the near side.
4:24:46 It is just barely visible over towards the bottom right side of your screen.
4:24:52 And then you'll also hear later about that terminator.
4:24:54 That's the line between light and darkness while on the moon.
4:24:58 It is really exposing some of those craters at this time.
4:25:07 A couple of the other features in view
4:25:09 right now are Herzbrung Basin and Vavlov Crater.
4:25:17 Herzbrung Basin is nearer to the center
4:25:20 of the moon uh closer to that terminator line
4:25:24 right now and Vavalov Crater is just
4:25:27 on the outskirts of it closer again to the terminator.
4:25:36 Towards the bottom of the moon and to the left of the terminator
4:25:40 line or currently shadowed in darkness is Apollo Basin Science from Integrity.
4:25:58 Um, let me find out how far we are from the moon right now.
4:26:03 But our view is about a third of the moon is in eclipse.
4:26:08 That beautiful terminator is out there calling to me.
4:26:11 Were 4,691 miles from the moon and what looked
4:26:20 like uh in the terminator about uh a third
4:26:25 of the way up from the the southernmost
4:26:27 part of the terminator looked like a dinosaur print.
4:26:30 if one was running uh to the northwest uh now
4:26:36 is clearly a crater with a bunch of craters around it.
4:26:40 Um and that termin I can only see about half of it.
4:26:44 I'm looking through the docking hatch window right
4:26:46 now because we have the Z9 in window one.
4:26:49 Um but uh that Terminator has moved.
4:26:54 I guess I've been using Vavalov the whole time.
4:26:57 So, it's gone.
4:26:59 Uh, two more Babalof traders to the west.
4:27:03 And so, a few more features are starting to peek
4:27:05 out uh into the sunlight there with that low sun angle.
4:27:11 And so, you just you still have ridges
4:27:13 and and and valleys showing up very clearly.
4:27:16 a very jagged uh terminator and uh a few islands of light out there
4:27:23 with some some high elevation uh shining uh in the sunlight in that darkness.
4:27:30 And on the eastern side of the moon, uh the let's see,
4:27:36 Gromaldi appears to be one of the farthest east features and that is maybe
4:27:42 five degrees from being right on the limb and going off over the horizon.
4:27:47 Um it is interesting uh just looking at orient that my first impression of it is
4:27:56 all of the dark areas appear lighter which
4:28:00 I think makes sense because it is now facing
4:28:03 well it's still relatively the same to the sun
4:28:06 but my angle to it is different so
4:28:08 I'm looking at it from a little more even further to the side as we pass it.
4:28:13 Uh but all the darker features appear to be
4:28:16 just a little bit lighter uh from this vantage point.
4:28:20 The darker ring structure in the outer
4:28:22 and inner ring and the interior uh as well
4:28:25 as the annular ring portion everything seems
4:28:28 to be just a smidge lighter at this point.
4:28:34 Thanks for that description Ike.
4:28:36 Um any uh additional words you can provide on Orient Hall would
4:28:42 be wonderful as that is such a high priority target for us.
4:28:46 And while I have you um as we get closer to target
4:28:50 15 which is the terminator target if you can find Zean crater again
4:28:55 that you were looking at earlier everything to your left of Zean would
4:29:00 be getting into the South Pole Aken uh area to help you orient yourself.
4:29:10 Zean is a great way point out there.
4:29:12 I definitely see it.
4:29:13 Uh yeah, Zemen is very easy to find and that is awesome.
4:29:27 Thank you for pointing that out.
4:29:28 Feel free to do that as often as you think of things.
4:29:32 Um let's see.
4:29:33 looking back at Orient Hall.
4:29:35 Okay, another thing.
4:29:37 After looking through the zoom camera, man, you guys are smart.
4:29:40 You probably did this on on purpose,
4:29:41 but after looking with my plain eyes and then going to the 400 millimeter zoom,
4:29:46 uh now looking at it, I see the the cliff faces.
4:29:51 If if you were standing in the center, that uh inner and outer ring have
4:29:55 definitely some some some real terrain to them.
4:29:58 And now I can see that as terrain.
4:30:00 Now that I look at even with my naked eye,
4:30:02 I can tell that there's a lot of uh elevation and and uh uh that like I said,
4:30:07 a cliff face uh on that eastern edge uh where all the darker uh deposits are.
4:30:13 And it's just the scale now it looking at it from far
4:30:16 away before um it seemed like uh flat with color painted on it,
4:30:23 but now that I look at it, I can definitely see that there is,
4:30:26 you know, different depositional characteristics.
4:30:28 And so the darker is some other material,
4:30:30 but there's also uh some shadowing going on because of the the uh
4:30:35 the cliff face uh that is a part of that uh that crater wall.
4:30:42 Great description, Victor.
4:30:43 Thanks.
4:30:43 And really interesting to hear now the distinction between shadow and color.
4:30:49 Um before I let you go back to other observations,
4:30:53 um you mentioned that Reed saw um a browner
4:30:57 hue to the annular ring than the rest of Oriental.
4:31:00 Are you seeing that from your vantage point?
4:31:10 Uh the the way that I'm looking at uh Oran tall again,
4:31:15 I'm still in the docking hatch window.
4:31:17 I uh there's like a a a couple right here
4:31:24 in the center of the window and it is the orange capton
4:31:28 tape color and so it is uh unfortunately uh it's like
4:31:33 trying to look at stars you know next to a metropolis I
4:31:37 think it's drowning out any color that I can pick up
4:31:39 from the moon I I am not able to see that color
4:31:42 but I have not looked at it through one of the forward
4:31:44 face from one of the uh the windows one through four.
4:31:48 I think when I get away from this Capton tape strip that I
4:31:51 would be able to see uh the variation that Reed's talking about.
4:31:57 That is great feedback uh operationally.
4:31:59 Thanks, Victor.
4:31:59 I'll leave you to it.
4:32:20 Science Integrity with a question from the window team.
4:32:27 Integrity to science is here with you.
4:32:34 Yes.
4:32:34 Uh they have a question to help inform
4:32:37 a theory that they're sort of tossing back and forth.
4:32:41 What is older, the Mari seas of the near side or O or O or O
4:32:47 or O or O or O or O or O or O or O or O or Oriental?
4:32:55 Stand by Integrity.
4:32:56 We're going to get you a little geologic history here.
4:34:33 Integrity Science back with you for some lunar volcanism when you're ready.
4:34:42 Go ahead.
4:34:45 You're making our day down here getting to talk about lunar volcanoes.
4:34:49 Um, Orient Hall as far as Mare go um is
4:34:54 younger than almost all of the Mare on the near side.
4:34:59 The exception are features like Aeristcus which you know really pop out
4:35:04 to you guys and really pop out to us here on Earth.
4:35:07 That is younger but other than that Oriental
4:35:09 is is pretty young as far as Mari go.
4:35:30 and Kelsey, thanks for that.
4:35:32 We love Lunar Vcanism, too.
4:35:34 How about when the actual crater was formed?
4:35:48 Yeah, we're going to get you an age for Oriental.
4:35:51 And while we're getting that, Christina,
4:35:53 can you um maybe you've heard the window
4:35:56 team talk about the sort of contacts around Oriental,
4:36:00 but because it's that material is so much younger.
4:36:04 Um, if anything pops out to you
4:36:06 about physical relationship between that and surrounding terrain,
4:36:10 um, we'd love to hear it.
4:36:17 Yeah, definitely.
4:36:17 They are discussing a contact relationship that could could explain
4:36:22 some of the color uh that they're seeing in certain areas.
4:36:25 And so it was really about the ajecta of the creation of um the the basin
4:36:33 and understanding the superp position of its ejecta
4:36:37 and mari on the near side or other features.
4:36:40 So thank you.
4:36:41 We'll take the insight when you have it.
4:36:50 Thank you integrity.
4:36:51 Um and I know Jenny wants to get to you with some topics.
4:36:54 So, I'll leave you with um uh Oriental is 3.8 billion years old.
4:37:13 Copy that.
4:37:14 So, that's on the older side.
4:37:17 The actual basin was is very old.
4:37:22 Correct.
4:37:22 As is the case with a lot of Mare,
4:37:24 typically the big basin formed and then the, you know,
4:37:28 volcanic eruption was able to punch through the crust
4:37:30 where it was weakened by that basin formation.
4:37:38 Perfect tracking.
4:37:39 Thank you.
4:37:46 NASA astronaut Christina Cook calling down some
4:37:48 questions to the science team on console.
4:37:51 The voice you're hearing with those answers is Dr.
4:37:54 Kelsey Young.
4:37:56 She is joined by Trevor Graph on console today.
4:38:02 Christina asking about the age of Oriental and specifically the Mare regions.
4:38:09 Those are those dark regions that you see.
4:38:12 They are paved or filled by volcanic deposits.
4:39:11 better answer.
4:39:13 Integrity, it's about time for a position swap at the window.
4:39:17 So, we will ask Reed and Jeremy to swap positions.
4:39:20 And I'll remind you again about your SD cards.
4:39:24 and Victor or Christina, I have one window task for the cabin team.
4:39:29 When you're ready,
4:39:39 they are swapping and I'm ready.
4:39:42 All right, Tina, we found a way that we can reinstall the shroud on the window.
4:39:47 We understand it's uh pretty darn bright
4:39:49 compared to everything that you're looking at.
4:39:51 So, in order to reinstall it,
4:39:53 we will ask that you retrieve the condensation hose and you
4:39:58 install it on a friction fit on the cabin air outlet port.
4:40:03 That's right by one of your diffusers.
4:40:05 You're going to point that little condensation hose such
4:40:09 that the air is flowing over the window pane.
4:40:13 Let me know when you're ready for the stowage location.
4:40:18 Ready.
4:40:38 Christina, the hose is in locker A1.
4:40:45 The crew has gotten a go to reinstall that window
4:40:48 shroud they were using to block some of the Earth shine.
4:40:54 Copy.
4:40:54 This view coming from inside the Orion
4:40:56 spacecraft as the crew members are swapping windows,
4:41:00 specifically Reed Wiseman and Jeremy Hansen.
4:41:04 They've been our crew members at the windows taking photos, making annotations,
4:41:07 and making recordings that'll be down linked to the science team for review.
4:41:15 The science team will have a conference tomorrow morning with the crew
4:41:18 to get any fresh perspectives or things that they learned during the flyby.
4:41:58 Again, we are now in the third of five
4:42:21 observation blocks for the crew scheduled for today.
4:42:26 During this flyby, Orion is passing around between 4,000 and 6,000 miles
4:42:31 from the moon and providing the crew with a full view of the lunar surface.
4:42:36 It's a higher vantage point and much
4:42:38 farther than Apollo's lunar orbits on average.
4:42:41 So from this view, astronauts can observe both the north
4:42:44 and south pole and largecale geological features in one single view.
4:43:00 We are now just under an hour until Orion passes
4:43:04 behind the moon and we lose communication with the crew.
4:43:08 They will be out of reach with any of our deep space network antennas.
4:43:16 That loss of signal will last about 40 minutes and we expect to regain
4:43:20 communications with them once they fly behind the other side of the moon.
4:43:25 While they are behind the moon, they will also reach their max Earth altitude
4:43:29 as well as their closest approach to the lunar surface.
4:43:43 The view you have right now is a live
4:43:45 stream from a camera on Orion's solar arrays.
4:43:49 You are looking at a live view of the moon
4:43:51 and four people are inside that spacecraft taking pictures of it,
4:43:55 telling us everything that they are seeing.
4:43:57 The first humans to do so in over 50 years.
4:44:01 They'll be sending those pictures down for all of us to enjoy.
4:44:04 And of course, especially the science team who
4:44:07 are very excited for what they are learning today.
4:44:19 It appears the Aremis 2 spacecraft Orion is
4:44:22 now under 5,000 m away from the moon.
4:44:25 Again, we expect their closest distance to the moon be about 4,066 miles.
4:44:36 That is uh an estimate at this point and we will make sure
4:44:39 to share that closest approach distance once we receive it and Houston question.
4:44:54 Did you just want us to uh cool the window with the condensation hose or did
4:44:59 you want us to put the shroud back on and cool the window at the same time?
4:45:10 Victor, we definitely want you to cool
4:45:12 down the window with the condensation hose.
4:45:14 It's crew preference whether you put the shroud back on.
4:45:17 The hose will allow you to do that if it helps with your lunar flyby.
4:45:26 Okay, copy.
4:45:27 We're going to do both at the same time.
4:45:29 Thank you.
4:45:31 Houston, copies.
4:45:48 Houston, thank you for that suggestion.
4:45:50 And the cabin is darkened again.
4:45:51 And that makes a big difference for the imagery.
4:45:53 And for science, we are now seeing a half moon.
4:46:06 Thank you, Victor.
4:46:06 We're happy to hear it.
4:46:07 And we see half moon, full moon joy still.
4:46:46 crew reporting from Orion that they are seeing half the moon,
4:46:49 which is about what it looks like here from this view from the spacecraft.
4:46:55 However, what has become a little bit of a catchphrase for this mission,
4:46:59 everyone is reporting full moon joy.
4:47:44 We are keeping up with which targets
4:47:46 the crew is tracking through their lunar targeting package.
4:47:50 They are just wrapping up their second science integrity.
4:47:53 Another uh observation uh the the window
4:47:56 team commented on and Christine and I discussed
4:47:59 a bit is in Herstrung the uh uh solid and intact crater is very smooth.
4:48:07 Uh if you it it's if it were a dirt road,
4:48:10 it's very hard packed and then you go outside of it
4:48:12 and that outer crater that's uh the one that uh is older.
4:48:18 Uh it is a little rougher and more jagged
4:48:20 and starts to get into more loose looking uh terrain.
4:48:25 And uh the smooth interior also causes
4:48:29 the craters that are inside of the larger crater,
4:48:32 the smaller craters to have really sharp edges, sharp distinct edges.
4:48:36 And just a general comment on that area
4:48:39 that whole area the average albido there is darker
4:48:43 that is I would say six I'm sorry uh
4:48:46 three and the average albido uh around oriental and between
4:48:51 oriental and ohm excluding the wedge the darker wedge
4:48:55 is more on the 67 and uh that they
4:49:00 also seem to be different texturally Christina described it
4:49:03 earlier around her sprung and then from Herzbrung toward M,
4:49:08 I'm sorry, toward Orient Tall.
4:49:10 There appears to be a frozen uh a rippling pond,
4:49:14 but frozen um or or like choppy waves when it's windy out,
4:49:19 choppy water, and then it freezes instantly.
4:49:22 That's the texture.
4:49:23 If you walk down there barefoot, it looks like it would be hard on your feet
4:49:26 like like uh aha lava after it's cooled.
4:49:30 It's it's it would be pokey.
4:49:32 Uh except for right there in the center of Herzbrung.
4:49:34 It looks paved like a paved road.
4:49:37 Nice and smooth.
4:49:43 Victor, that's a wonderful description.
4:49:44 Going from a paved road to a lava um reminds us of the Icelandic highlands.
4:49:51 Thanks for that.
4:49:58 and science.
4:49:59 Another uh in the interior of uh the very intact the the interior
4:50:06 of the uh intact crater at Herzbrung uh is albido variation.
4:50:12 I think I heard one of the window crew maybe say color variation,
4:50:15 but definitely albido variation.
4:50:16 There's lighter patches and slightly darker patches.
4:50:19 Uh it's not swirling.
4:50:21 It's just patchy.
4:50:22 just uh uh has spots that are lighter
4:50:25 and I would say a predominantly darker average area.
4:50:32 Great description, Victor.
4:50:33 Thanks.
4:50:33 Not swirly, just patchy is really helpful for us.
4:50:52 really great descriptions coming from science.
4:50:54 Uh the window team is hitting all the targets.
4:50:57 They are on the plan and starting the discussion of the terminator.
4:51:01 And boy, I am loving the terminator.
4:51:03 I I think I I I know it's not purely a moon feature,
4:51:08 but what it does to the features of the moon,
4:51:10 to the terrain, uh I've probably spent the most time describing
4:51:15 into my recordings and thinking about and looking at the Terminator.
4:51:18 There's just so much magic in the Terminator.
4:51:22 The islands of light, the the valleys, the what look like black holes.
4:51:26 You'd fall straight to the center of the moon if you stepped in some of those.
4:51:29 It's just so visually captivating.
4:51:32 Uh that the Terminator is uh is is
4:51:35 the most striking thing that I've seen so far.
4:51:40 We've been loving your evocative descriptions, Victor.
4:51:43 you really are um bringing us along with you and we're
4:51:46 following along with visualizations that pale
4:51:48 in comparison to your descriptions.
4:51:50 Thanks.
4:52:04 Integrity Science, one more question on a status of what
4:52:08 the window team chose to uh observe for crew choice.
4:52:56 uh window two uh talked about Vavalov uh look
4:53:02 for suspended dust and uh the Terminator and window
4:53:07 three uh about the experience and about the three-dimensionality
4:53:12 uh of of uh the moon this close.
4:53:20 Wonderful.
4:53:19 And another observation about Oriental I would say is
4:53:23 uh the the features going off to the southwest,
4:53:27 the two large almost look like scratches in the surface.
4:53:31 Um I don't know if they're rays or canyons or collapsed lava tubes,
4:53:35 but two distinct features that are almost
4:53:37 parallel going off southwest from Oriental Basin.
4:53:40 Uh they are the first things that made me notice parallax of our trajectory.
4:53:46 Looking out at Oriental that and in the uh
4:53:49 the inner walls of the east side of the crater rings,
4:53:54 you really get a sense that we're flying over something
4:53:56 with elevation and terrain and and they look different from this orientation.
4:54:04 Love to hear it, Victor.
4:54:06 And you um had it that those chains are actually um crater rays,
4:54:12 secondary craters formed uh from the formation of Oriental.
4:54:22 Yeah.
4:54:22 Speaking of crater rays,
4:54:23 uh the crater rays that are going off to the north uh to the north
4:54:30 west uh that run off toward Herzbrung and and I believe toward Babalof.
4:54:36 I'm not looking out at it right now, but those crater rays are very interesting.
4:54:40 They're all very small.
4:54:41 I know you've imaged this, but they're all small and they look like, you know,
4:54:44 a big impact launch rocks and things that made smaller impacts down the way.
4:54:49 But something very interesting and again you can
4:54:51 see this in imagery but some of them are parallel and then some of them
4:54:55 converge toward the center of oriental and then
4:54:59 I think I even saw some that maybe diverge which uh not diverge but that are
4:55:03 uh convergent which indicate multiple large impacts
4:55:06 that created a lot of secondary impact crater rays.
4:55:12 Fantastic, Victor.
4:55:13 And I'll note that um we can infer
4:55:16 that you're looking down at your freshly named Integrity Crater,
4:55:20 which is near the end of one of those beautiful crater rays from Oriental.
4:55:24 Thanks for the description.
4:55:31 Yeah, you're welcome.
4:55:32 And integrity is easily identifiable with the naked eye from this point.
4:56:26 We've been hearing some great situation reports from Victor Glover,
4:56:29 the pilot of the Aremis 2 mission,
4:56:31 calling down to the science team, letting them know what he is seeing.
4:56:35 And one of those things is Herzrung Basin.
4:56:39 If you look just to the right of the terminator,
4:56:42 that is the difference between light and darkness on the moon.
4:56:46 You can see what he's describing when he says Herzbrung Basin
4:56:48 and how it looks a little bit paved in the middle there.
4:56:51 It's almost in the very center of the moon in this view
4:56:55 coming from the Orion spacecraft and a camera mounted on its solar array.
4:57:09 We are now 4 days 23 hours and 23 minutes into the flight of Artemis
4:57:15 2 and we are standing by for their lunar loss of signal in about 43 minutes.
4:57:21 Again, the spacecraft will fly behind the moon
4:57:24 and during that time we won't have communication with them.
4:57:26 They will be out of reach of our deep space network.
4:57:29 However, we will regain communication with them approximately 4040 minutes
4:57:34 later when they come around the other side of the moon.
4:57:45 The crew aboard the spacecraft are currently discussing the terminator,
4:57:49 that difference between day and night.
4:57:56 The science team is interested in learning about the topography
4:57:59 and the color of the lunar surface and it's
4:58:01 already been very interesting to hear that they have seen
4:58:03 colors like greens and browns while looking at the moon.
4:58:08 Some of the questions that they are hoping the crew will
4:58:11 discuss are how do the quantities and sizes of craters and mountains
4:58:15 vary along the terminator and they are looking for the crew
4:58:18 to describe the topography of features along or near the terminator.
4:58:23 They're also looking for more information on any color or tone variations,
4:58:27 and they're hoping that the crew will take images to illustrate their findings.
4:58:32 Glover reported earlier that the crew has missed none
4:58:35 of their targets when they are photographing at the window.
4:58:40 We aren't hearing the conversations that the crew is having right now,
4:58:43 but these are being recorded to their personal computer devices,
4:58:47 PCDs, and those will be sent down to the science team.
4:58:50 The science team will have a conference with the crew tomorrow morning
4:58:53 to discuss their findings and experience when looking at the moon today.
4:59:13 We have a few minutes left while the crew is discussing the terminator.
4:59:17 And if you're just joining us, you're looking at a live view of the moon,
4:59:21 our moon, from the Orion spacecraft, and a camera on its solar array.
4:59:27 Inside that spacecraft, four astronauts, Reed Wisman,
4:59:30 Victor Glover, Christina Cook, and Jeremy Hansen.
4:59:34 The first four people to fly around the moon in over 50 years.
4:59:46 This is our lunar flyby day and the crew has already surpassed one record today.
4:59:53 The crew passed the Apollo 13 distance record at 12:57 p.m.
4:59:58 Central, 1:57 p.m.
5:00:01 Eastern.
5:00:03 Canadian Space Agency astronaut Jeremy Hansen calling down that he
5:00:07 hopes it's a record soon broken by other explorers.
5:01:00 We are live in Artemis mission control in Houston,
5:01:02 Texas, monitoring the flight of Artemis 2.
5:01:06 All of the flight controllers here,
5:01:07 each monitoring a different system aboard the Orion spacecraft.
5:01:11 Integrity Houston, we are ready for our cabin and window teams to swap again.
5:01:18 Uh we have a 15minute handover time here and I have
5:01:22 a couple of items I want to read up to you.
5:01:24 They'll require you to uh write something down on your kneeboards.
5:01:28 Uh so let me know when you're ready.
5:01:43 Okay, Houston, we are ready.
5:01:47 Copy integrity.
5:01:48 First of all, once uh you start this next shift here,
5:01:52 um during this lunar observation shift, we will begin our lunar loss.
5:01:57 So, you can expect a call from me a few minutes prior reminding you.
5:02:02 And second of all, phto just sent us updated uh
5:02:06 altitudes and mess for lunar closest approach and max earth altitude.
5:02:13 Let me know when you are ready to write those down.
5:02:16 They differ slightly from Optimus.
5:02:25 Thanks Jenny.
5:02:25 We are ready to copy.
5:02:28 Lunar closest approach will be at ME 5 days 0 hours 25 minutes 34 seconds.
5:02:41 And the altitude will be 4,67 statute miles.
5:02:51 Maximum Earth altitude will be at ME 5 days 0 hours
5:03:02 27 minutes 39 seconds with an altitude of 252,000 756 statute miles.
5:03:37 The crew uh really wants to ask for that in kilometers and in par six,
5:03:41 but uh thank you for those.
5:03:44 Uh that is great.
5:03:45 Thanks for that update.
5:03:48 I'll send Photo to work and I appreciate the metric.
5:03:51 Um, other than that, I have no new vehicle statuses to pass you.
5:03:55 Enjoy your handover time and we're looking
5:03:58 forward to picking back up with you shortly.
5:04:09 All right, we'll talk to you shortly.
5:04:14 Those words called from Capcom Jenny Gibbons,
5:04:28 CSA astronaut and Armis 2 backup crew member
5:04:32 to the crew working aboard the Orion spacecraft.
5:04:36 Had a little bit of a view inside the cabin.
5:04:38 As you can see, it is very dark.
5:04:39 The crew has turned off the lights and the light
5:04:41 that you were able to see is coming through the window.
5:04:44 A reflection of Earth shine and from the moon.
5:04:56 The crew is moving into their next observation block,
5:04:59 meaning they are taking time to switch cabin and window teams.
5:05:03 We've had Reed Wiseman and Jeremy Hansen
5:05:05 at the windows taking pictures and making
5:05:07 annotations and recording some audio files that will
5:05:10 be down linked to the science team.
5:05:13 Meanwhile, Victor Glover and Christina Cook
5:05:16 were in the background serving as support.
5:05:18 They were also timelined to enjoy a little bit of their midday meal.
5:05:24 Now that we are swapping positions,
5:05:26 the uh support team becomes Reed Wisman and Jeremy Hansen.
5:05:32 They will be in the background helping with SD card swaps
5:05:35 as well as providing those situational uh reports to the science team.
5:05:41 Victor Glover and Christina Cook will be
5:05:43 the astronauts at the window photographing and speaking
5:05:46 uh into those PCDs portable computing devices
5:05:50 about what they're seeing on the moon.
5:05:55 As you heard Capcom Jenny Gibbons call to the crew,
5:05:59 this block is also when we will lose communications with the crew.
5:06:04 That LOS or loss of signal scheduled to be less than 35 minutes from now.
5:06:09 We anticipate to be out of signal with them for about 40 minutes
5:06:12 and will regain that communication once they've
5:06:15 flown around the other side of the moon.
5:06:44 Now, even the crew uh even though the crew will be flying behind the moon,
5:06:49 their observation period does not stop.
5:06:51 They will still be taking pictures and making
5:06:53 annotations uh of what they are seeing.
5:06:57 They'll be looking for the limb of the moon,
5:06:59 Earth set, and then Vavalov crater, which we have previously seen.
5:07:04 They'll swap positions at the window before moving into a crew choice option.
5:07:08 They will get to uh pick things that are interesting to them on the surface,
5:07:12 take pictures, and explain why they find them that way.
5:07:15 They'll also be looking for any impact flashes.
5:07:18 These are short-lived flashes on the lunar surface caused by impact bombardment.
5:07:32 Just before Earthrise, the crew will be looking for lofted lunar dust.
5:07:37 This may be lofted just above the lunar surface,
5:07:40 and we could only see it just before Earthrise along the dark western limb.
5:07:46 Any Earth shine would illuminate potential lofted dust.
5:07:50 But once the crew is all the way around the Earth,
5:07:53 the brightness of the Earth will wash out any
5:07:56 of that dust they might be able to see.
5:08:01 These were based on observations from Apollo missions and orbital spacecraft.
5:08:06 And so we're very interested to see if the crew
5:08:08 might be able to capture some of that lunar dust today.
5:08:21 Following uh that lofted lunar dust target, the next will be Earthrise.
5:08:26 We will regain conver communications with the crew shortly after Earthrise.
5:08:39 There will be a short observation break period where the moon is not in view.
5:08:44 That's because we are also anticipating the crew seeing an eclipse today.
5:08:48 The moon won't be in view because the team here
5:08:51 in mission control Houston will need to change the attitude
5:08:54 of the spacecraft and ensure that its solar arrays are
5:08:58 uh gathering light from the sun heading into that eclipse period.
5:09:03 So, we will have communication with the crew.
5:09:05 We just won't be able to see the moon.
5:09:10 However, we will have views during that eclipse time frame.
5:09:14 During that time, the science team is looking to know uh
5:09:19 they it will only be illuminated by Earth shine at that point.
5:09:22 So, they want to know what the whole moon looks like overall,
5:09:27 but they also want the crew to look into deep
5:09:29 space and potentially see if they can spot any planets.
5:09:46 Once the eclipse is over, the lunar flyby period will have ended.
5:09:53 We are live through the whole thing and even once flyby is over today,
5:09:57 we remain live 247 on NASA's YouTube.
5:10:00 Integrity.
5:10:01 You got a moment.
5:10:06 Go ahead.
5:10:12 I don't know if Katherine and Devon are still there, but if they are,
5:10:14 just wanted to um just let them know how much fun we're having out here.
5:10:18 It's extraordinary to be on the far side
5:10:21 of the moon right now and just see hanging out there, looking back at the Earth.
5:10:24 And Ashley and Kaitlin, I know you're back in Canada,
5:10:26 but if you happen to be watching too, and just wanted to say hi to all you guys.
5:10:30 Love you guys and uh we'll be heading back your way shortly.
5:10:38 Thanks Jeremy.
5:10:39 I hear uh they are watching and your family is still here.
5:10:42 So thanks for passing that along.
5:11:32 this view inside the Orion spacecraft.
5:11:36 And it's a little hard to make out,
5:11:37 but on the left there, that is Jeremy Hansen.
5:11:40 Just calling down some wellw wishes to his family.
5:11:43 Joining us in the viewing room and watching online.
5:11:48 Currently in the window are Victor Glover and Christina Cook.
5:11:52 They are taking pictures outside of the window
5:11:54 as they are now in their flyby observation block.
5:11:59 At this time, Reed Wiseman and Jeremy
5:12:01 Hansen are serving as support crew members,
5:12:03 and they are also going to have an opportunity
5:12:06 to enjoy their midday meal at this time.
5:12:15 On the lunch menu today for Reed Wiseman and Jeremy Hansen,
5:12:19 we have vegetarian chili, salmon croettes,
5:12:22 chicken with peanut sauce, sweet and savory kale,
5:12:25 pickled beets, chocolate pudding, barbecued beef brisket,
5:12:30 spaghetti and meat sauce, Italian vegetables,
5:12:32 butternut squash, candycoated chocolates, and maybe even a little bit of coffee.
5:12:47 And if you look closely, you can see it looks like they are getting
5:12:50 into some of their food for the midday meal.
5:12:53 All of the food on the spacecraft is rehydratable.
5:12:57 We don't have an option for fresh food
5:12:59 as there's not a refrigerated section of the Orion spacecraft.
5:13:04 So, all of this food uh can either
5:13:06 be rehydrated or eaten straight from the package.
5:13:08 just depends on what the food actually is.
5:13:11 And for food that needs to be rehydrated,
5:13:13 there is um information on each package of how much water
5:13:16 needs to fill that bag and what temperature it needs to be.
5:13:28 We are now 4 days, 23 hours, and 39 minutes,
5:13:32 40 minutes actually, into the flight of Artemis 2.
5:13:35 The spacecraft now under 4500 miles from the moon.
5:14:00 We are now also under 30 minutes away from loss of signal with the astronauts.
5:14:05 We will regain that communication about 40 minutes later.
5:14:09 They will still be photographing the moon and uh
5:14:12 documenting what they're seeing while they're behind the moon.
5:14:17 We especially look forward to potential Earth set and Earth rise views.
5:14:28 As you can see on the left side of your screen,
5:14:30 we are streaming this solar array camera view throughout the flyby.
5:14:34 And the science team also plans to capture
5:14:36 an occasional still photo with the solar array intermittently,
5:14:40 perhaps one every 8 to 10 minutes.
5:14:43 Still photos represent the highest resolution imagery from those GoPro cameras.
5:14:48 So starting 5 minutes before Earth set and loss of signal,
5:14:51 the science team will capture a series of photos,
5:14:54 one every 30 seconds to include Earth set all
5:14:57 the way through 5 minutes after Earthrise and acquisition of signal.
5:15:03 In order to capture these frequent photos,
5:15:05 the Solar Array camera that we were streaming
5:15:07 will need to switch to time-lapse photo mode.
5:15:10 So during this time,
5:15:11 the streaming video quality won't be um as sharp as you have it right now,
5:15:15 but we want to ensure that the science team
5:15:17 captures the data that they need during these time frames.
5:15:21 And we really look forward to seeing
5:15:22 those higher resolution images once they're available.
5:15:26 But with the view you are seeing right now,
5:15:29 um we are sharing bandwidth on the Orion spacecraft with every
5:15:32 system that is keeping the spacecraft powered and the crew alive,
5:15:36 especially the environmental control and life support system.
5:15:40 As this is the first flight with crew,
5:15:42 this is also the first flight of a life support system,
5:15:45 keeping the crew healthy and safe on the way to the moon and the way home.
5:16:07 on the timeline.
5:16:08 We're getting towards the end of the cabin and window team swap period,
5:16:12 but it looks like uh our astronauts Victor Glover and Christina
5:16:16 Cook are already photographing the moon outside of those windows.
5:16:22 Next target is M crater and this is
5:16:25 something that they have photographed previously during the flyby.
5:16:28 This is a small complex crater with a prominent ray system
5:16:32 and as referenced earlier it's the size of the eye of the Sahara.
5:16:39 That eye of the Sahara is a feature in Maicania.
5:16:46 Seeing this crater more than once throughout the flyby
5:16:50 allows the crew to photograph it at different lighting conditions.
5:16:59 Those different lighting conditions help expose different portions
5:17:02 of the target and can help the science
5:17:06 team learn a little bit more about how it formed and what it is today.
5:18:25 again.
5:18:25 This view inside the spacecraft as the crew
5:18:28 continues photographing the moon outside their windows.
5:18:34 They have turned the lights off to allow them to better get photos of the moon,
5:18:38 preventing any reflections from coming in from the spacecraft.
5:20:18 We expect the crew to be targeting M crater for another 6
5:20:22 minutes or so before they move into a discussion of the limb.
5:20:26 Now, the science team has asked for a science
5:20:29 sit rep or situation report during that time.
5:20:31 So, we hope to hear calls from the crew on what they are observing.
5:20:58 If you've been following along, at the start of the day,
5:21:01 we did have much more of the moon visible.
5:21:05 And even just an hour or so ago, we could see about half of the moon.
5:21:09 We are now continuing to see more of the far side
5:21:12 and that darkness where the uh moon is not reflecting light from the sun.
5:21:40 Earlier we were also able to see some of those darker
5:21:44 portions that old lava flow um that we often
5:21:48 see on the near side of the moon and that we
5:21:49 can all see from Earth that has mostly gone away.
5:21:54 We are now just seeing very little of oriental
5:21:57 that's down to the bottom right of the moon.
5:21:59 You can see just a small dark portion near the limb.
5:22:32 We are now about 18 minutes away from loss of signal with the Orion crew.
5:22:40 Again, we use the deep space network to communicate
5:22:43 with the crew members when they are this far from Earth.
5:22:47 This is the first mission since Apollo when
5:22:49 we have had humans on the deep space network.
5:23:16 As you recently heard Capcom Jenny Gibbons call to the crew,
5:23:20 we expect their closest approach to the moon to be at ME
5:23:24 or mission elapse time of 5 days 25 hours 25 minutes and 34 seconds.
5:23:31 At that time, their altitude would be
5:23:33 4,067 statute miles above the Earth's surface.
5:23:41 Just over two minutes later,
5:23:43 they will reach their maximum distance from Earth at mission
5:23:46 elapse time 5 minutes 5 days 27 minutes and 39 seconds.
5:23:52 The altitude at that time would be 252,756 statute miles.
5:23:58 These are our latest numbers and we'll make sure
5:24:01 to verify and confirm those once those milestones have been achieved.
5:24:05 Obviously, we will be without communication to the spacecraft at that time.
5:24:10 So, once we regain communication,
5:24:11 we will make sure to uh find out those numbers and report those to you.
5:27:14 Checking in on the lunar targeting package.
5:27:16 The crew is now in their discussion of the limb.
5:27:20 seeing the limb of the moon.
5:27:23 Uh that illuminated part.
5:27:27 Currently at the windows taking photos and making
5:27:29 annotations are Victor Glover and Christina Cook.
5:27:32 And we are expecting loss of signal in about 13 minutes.
5:27:36 We will regain that signal with the crew about 40 minutes later.
5:27:54 A milestone worth mentioning that this day marks the first time
5:27:58 in more than 50 years that humans will observe the moon directly.
5:28:02 A critical opportunity to practice how lunar
5:28:05 science will be conducted during future Aremis missions.
5:28:19 I've continued to reference the lunar
5:28:20 targeting package throughout this broadcast which is
5:28:23 the primary tool guiding the crew observations
5:28:26 and that consists of two key components.
5:28:28 The first of those is the lunar
5:28:29 geography review which helped the astronauts study major
5:28:33 lunar features in advance that also helped
5:28:35 them learn to orient themselves during the flyby.
5:28:39 The lunar targeting plan provides a detailed timeline of observation targets,
5:28:43 background science context,
5:28:45 and specific instructions for the picture the crew should take,
5:28:48 and verbal descriptions of what will be helpful
5:28:50 to the science team reviewing those pictures later.
5:28:53 That's what we've been tracking real time and what the crew
5:28:55 is using right now to keep up with their next milestones.
5:30:23 Integrity Houston, 10 minutes till the LOS.
5:30:25 We'll take a snappy sit rep from the cabin if you have one.
5:30:42 Okay, Jenny, that came uh we missed most of that, but just a 10-minute warning.
5:30:46 Is that what you're saying?
5:30:49 10-minute warning for the LOS.
5:30:50 And I'll take a quick sit rep from the cabin, please.
5:31:03 All right, cabin is still full of excitement.
5:31:06 We've got Christina in window two, Ike and or Victor window three.
5:31:12 Uh Reed's actually been trying to get some images out of the docking tunnel.
5:31:16 We can see uh the Earth and the Moon
5:31:19 and part of the moon out of the docking tunnel, which is pretty good.
5:31:22 And I'm just grabbing some footage right now um with our interior cameras.
5:31:30 Copy, Jeremy.
5:31:31 Uh, we'd like to know what camera Reed
5:31:33 is using and also the status of window one.
5:31:36 Looks like there might be a shroud removed.
5:31:49 Okay.
5:31:50 Um Reed was using the Z9 and um the t-shirt shroud is still on window one,
5:31:57 but we took the camera out of it, so maybe that's what you're noticing.
5:32:01 But when I looked in there, I saw a lot of sunlight reflecting around.
5:32:08 Copy.
5:32:08 That makes a lot of sense to us, Jeremy.
5:32:10 I want to remind you coming up on this LOS, it will take sit reps in the blind.
5:32:15 And as more and more of the moon is in darkness,
5:32:20 uh we will take any report you have on impact flashes.
5:32:39 All right, you have to say again your last.
5:32:42 There's a lot of conversation here and I was on the other
5:32:44 side of the cabin so I missed all of it.
5:32:47 Look out for impact flashes and we'll take sit reps in the blind.
5:32:58 Okay, impact flashes reps in the blind.
5:33:02 We got it.
5:33:04 And yeah, just so you understand what's going on with window one,
5:33:08 there is light coming through the outer hall
5:33:11 from window two into the inside of window one, if that makes sense.
5:33:16 Like I can see the inside of the vehicle
5:33:18 when I look between the two panes of glass.
5:33:23 Copy.
5:33:37 You're getting your first live look at Orion, the moon, and the Earth.
5:33:44 Everyone in this picture.
5:33:59 This is a live view from the Orion spacecraft.
5:34:10 Currently aboard Orion, four crew members, Reed Wisman,
5:34:14 Victor Glover, Christina Cook, and Jeremy Hansen.
5:34:20 And on the Earth, all of us, all of humanity.
5:34:25 You can see the moon is starting to get a little
5:34:28 bit dimmer as the astronauts are going to pass behind it.
5:34:32 Now, 6 minutes and 26 seconds away from that loss of signal.
5:34:36 Again, we will be out of communication with them for about 40 minutes until they
5:34:40 come around the other side of the moon
5:34:42 and we can reestablish contact integrity Houston.
5:34:59 You are six minutes from your 40inut lunar flyby loss.
5:35:05 From all of us, it's a privilege to witness
5:35:08 you carrying the fire past our farthest reach.
5:35:11 Thank you.
5:35:12 Godspeed.
5:35:24 Thank you for that, Jenny.
5:35:26 And uh thank you to all of you for allowing
5:35:30 us the immense privilege to be on this journey together.
5:35:33 It's quite amazing.
5:35:35 And as we uh go on this journey
5:35:40 thinking about the NASA mission to explore the unknown
5:35:43 in air and space to innovate for the benefit
5:35:46 of humanity and to inspire the world through discovery.
5:35:49 And as you've gone along on this journey with us,
5:35:51 um hopefully we're doing just those things.
5:35:54 And as we get close to the nearest
5:35:56 point to the moon and farthest point from Earth,
5:35:59 uh, as we continue to unlock the mysteries of the cosmos,
5:36:04 I would like to remind you of one
5:36:07 of the most important mysteries there on earth, and that's love.
5:36:12 Christ said in response to what was the greatest command
5:36:15 that it was to love God with all that you are.
5:36:18 And he also being a great teacher said the second is equal to it.
5:36:24 And that is to love your neighbor as yourself.
5:36:27 And so as we prepare to go out of radio communication,
5:36:33 we're still feel your love from Earth.
5:36:38 And to all of you down there on Earth and around Earth,
5:36:43 we love you from the moon.
5:36:51 Houston copies.
5:36:52 We'll see you on the other side.
5:37:00 We will see you on the other side.
5:37:46 Poignant words from NASA astronaut Victor Glover and a little bit of a love
5:37:51 letter from the other side of the moon all the way to Earth.
5:37:56 Glover touching on the teachings of Jesus,
5:38:00 including to love your neighbor as yourself.
5:38:03 We are now less than 3 minutes away
5:38:05 from loss of signal with the Orion astronauts.
5:38:11 The Artemis 2 crew will be out of signal for about
5:38:14 40 minutes as they are on the other side of the moon,
5:38:17 continuing their work photographing the lunar surface.
5:38:21 and they will reemerge.
5:38:23 And we will also get this view on the other side.
5:39:25 Just about a minute and a half now until we lose
5:39:28 communication with the astronauts aboard Orion on the Artemis 2 mission.
5:39:34 now 5 days and 6 minutes since their launch on April 1st.
5:39:39 Again, we'll be out of communication for about 40 minutes.
5:39:45 And this really beautiful view of a crescent moon and a crescent earth.
5:39:52 How great thou art.
5:40:30 30 seconds now until we expect loss of signal.
5:41:46 And we have confirmation of loss of signal
5:41:49 of the Orion spacecraft as it flies behind the moon.
5:41:52 We expect to regain communications with them
5:41:54 for in another approximately 40 minutes.
5:41:58 This was expected as their spacecraft is now out
5:42:00 of direct line of sight with Earth and behind the moon.
5:42:04 This is a poignant moment as it's the first time in over
5:42:07 50 years that we have humans completely unreachable by anyone else on Earth.
5:42:12 No matter how distant or secluded, we could reach anyone living on Earth.
5:42:16 But while the crew flies behind the moon,
5:42:19 it's simply impossible to make contact with them.
5:42:23 This is a live view inside the science evaluation room here
5:42:26 at Johnson Space Center and just down the hall from mission control.
5:42:30 This team has been monitoring the science or the flyby all day
5:42:34 as the team has continuing continued capturing targets on the lunar surface.
5:42:44 even got to see this team in action as they were helping the astronauts
5:42:50 identify some of the features they were seeing on the moon but not expecting.
5:42:58 There will be a couple of milestones during this loss of signal.
5:43:02 The first will be when the astronauts make
5:43:04 their closest approach of the moon at me.
5:43:08 5 days 25 minutes and 34 seconds.
5:43:11 when we expect they'll be 4,067 statute miles above the lunar surface.
5:43:17 Their maximum Earth altitude will be reached just two
5:43:20 minutes later at 5 days 27 minutes and 39 seconds.
5:43:24 When their altitude should be approximately 252,756 statute miles.
5:43:31 Once those milestones are reached and we have confirmation,
5:43:34 we will report the official numbers.
5:43:38 Throughout the Artemis 2 mission, astronaut voice, images, video,
5:43:56 and vital mission data must traverse thousands of miles
5:44:00 carried on signals from NASA's powerful communications systems,
5:44:04 the Near Space Network and the Deep Space Network.
5:44:07 Let's learn a little bit more.
5:44:14 NASA's Aremis 2 will send four astronauts around the moon,
5:44:18 preparing humanity for a long-term lunar presence and future journeys to Mars,
5:44:23 enabling communication and navigation for this test flight
5:44:26 are NASA's near space network and deep space network.
5:44:30 With antennas around the world and a fleet of relay satellites,
5:44:34 the networks will deliver vital data
5:44:36 to and from Earth through all phases of the mission.
5:44:40 The networks are seamlessly integrated
5:44:42 at NASA's Johnson Space Center in Houston,
5:44:44 Texas, where mission control coordinates the network handovers.
5:44:49 These transfers represent a delicate dance between the two networks,
5:44:53 exchanging support as the mission shoots toward the moon
5:44:56 on the launchpad and during their early orbit phases.
5:45:00 NASA's Orion spacecraft and space launch system rocket will rely
5:45:03 on communications and tracking services from the near space network.
5:45:07 After its trans lunar injection burn,
5:45:09 the deep space network's global array of antennas will
5:45:12 serve as Orion's primary communication support during lunar orbit.
5:45:16 As the mission journeys farther into space and away from Earth,
5:45:20 signal strength weakens and bandwidth is conserved for crew communications.
5:45:25 The astronauts will have a near constant connection to Earth,
5:45:28 ensuring their safety on a journey farther into space than ever before.
5:45:33 We say near constant because as Orion goes behind the moon,
5:45:37 a planned loss in communications will occur.
5:45:40 The deep space network will be standing
5:45:42 by to reacquire the signal as Orion reappears.
5:45:46 The Aremis 2 mission also provides an opportunity to test new capabilities.
5:45:50 Using laser links, NASA will periodically transmit Orion data to showcase
5:45:55 the benefits laser communications could
5:45:57 have for future human spaceflight missions.
5:46:00 The data from Orion sent by radio signals or laser links is massive.
5:46:05 The mission is gathering images, data, and video while also generating details
5:46:10 about mission health and crew voice files.
5:46:13 All of that data gets processed here
5:46:14 on Earth where systems compress it for efficiency.
5:46:18 In the future, we'll upgrade these systems on Earth so
5:46:21 that image and video clarity improve with each moon mission.
5:46:25 With the Aremis 2 test flight,
5:46:26 we're evaluating the communications infrastructure that will help carry us
5:46:30 into the future as we explore the moon and journey forward to Mars.
5:47:31 We are now about 33 minutes until we
5:47:33 expect to regain communications with the astronauts aboard Orion.
5:47:38 And in the meantime, I've got Dr.
5:47:39 Kelsey Young, Artemis science flight operations lead here with us.
5:47:43 Thanks for joining me, Kelsey.
5:47:45 Thanks for having me.
5:47:45 This is such an exciting day.
5:47:47 Oh, no kidding.
5:47:47 It has been so cool to hear you communicating directly with the crew
5:47:51 and I know that you have been preparing for this for years.
5:47:54 So, I am so excited for you and for your team.
5:47:56 So, just to get into that background a little bit,
5:47:59 tell me about your background and what you've been doing on console.
5:48:02 Uh, my background is as a field geologist.
5:48:05 Um, actually I studied impact tradering in the field for my PhD.
5:48:08 So, all these descriptions of impact traders have me just absolutely swooning.
5:48:13 Um, how I got into this though is, you know, during my PhD,
5:48:16 I got an internship at NASA and ultimately
5:48:18 never left to integrate science into flight operations.
5:48:21 So, we developed the science officer console
5:48:23 for which this is the first mission we're supporting.
5:48:25 We developed the science evaluation room that's right upstairs.
5:48:28 And so, it's so gratifying to see this operation structure come to fruition,
5:48:32 especially on a day like today.
5:48:34 I would have to imagine so.
5:48:36 And we've got a great view of the science evaluation room right now.
5:48:39 Is there anything that has stood out to your team so far?
5:48:44 Absolutely.
5:48:44 Um, so as you might have heard in some
5:48:47 of the press briefings and content that, you know,
5:48:49 we we've been putting out, color and albido were really exciting targets for us.
5:48:53 Um, we've heard several amazing color descriptions so far.
5:48:57 Um, just to highlight maybe one of them.
5:48:59 Um, we heard about greenish and brownish hues near Aerist Starkus,
5:49:03 which is actually a feature that we can see here from the near side.
5:49:06 And those greenish hues could actually tell us
5:49:09 something about the volcanic evolution of that area.
5:49:11 So, you can bet that the science team
5:49:13 is going to be prioritizing down linking those images
5:49:15 and the crew audio that we didn't hear that went
5:49:18 into those recordings to learn a little bit more.
5:49:21 Wow, that is fascinating.
5:49:22 I was hearing those colors and very interested just
5:49:24 from a personal standpoint because looking at the moon from, you know,
5:49:27 250,000 miles away, we don't see green or brown.
5:49:30 So just hearing that them being so close and getting
5:49:33 to see that fascinating and I know very exciting for you.
5:49:36 So what are you expecting to see in the upcoming portion of the flyby?
5:49:41 The upcoming portion is uh is actually going to be really exciting.
5:49:44 So right now as we speak um while folks
5:49:46 in the room are kind of taking their, you know,
5:49:48 their stretch breaks and everything, the crew are still hard at work.
5:49:51 Um they still have targets to image and describe during this LOS.
5:49:55 Um but when we come out,
5:49:57 the first thing of course we're going to hear about is Earthrise.
5:49:59 we're really looking forward to hearing about the cruise experience
5:50:02 with something that we can connect with and that, you know,
5:50:05 Apollo 8 brought us such amazing images from.
5:50:07 But then we start to get into um describing the Terminator as well
5:50:11 as looking for things like lofted dust
5:50:13 which tell us about the modern lunar environment.
5:50:16 Then the vehicle is going to orient away
5:50:18 from the moon for an hour and then pivot back
5:50:20 for the eclipse observations which is a whole different
5:50:22 set of science observations that we're really looking forward to.
5:50:25 It's kind of nice that the crew will get a little break in there
5:50:27 because they have been hitting it hard
5:50:29 today with photos and videos and annotations.
5:50:33 What are you hoping that the crew sees coming up?
5:50:35 Is it that lunar dust?
5:50:37 Oh my goodness, that's a hard question to answer.
5:50:39 I mean, we've already gotten such great descriptions.
5:50:42 I mean, the Terminator seems to just be like
5:50:44 one of their favorite things to look at and describe.
5:50:46 So, I feel like um you know, that was something we were looking forward to.
5:50:49 I feel like we've really gotten some great descriptions.
5:50:51 So, absolutely.
5:50:52 I'm I'm looking to the human moment of Earth rise.
5:50:55 Lofted dust is an exciting one and lofted dust will be a target
5:50:59 for them in the right after um right around the time of Earthrise,
5:51:03 but again in the eclipse period.
5:51:05 So, I'm really looking forward to seeing I mean they've already highlighted just
5:51:08 in the course of their flyby so far how the moon has changed and this is
5:51:12 going to be even even more dramatic change to go from their end
5:51:15 of this kind of lunar illuminated piece
5:51:18 of the flyby into the eclipse time frame.
5:51:21 And I can tell you they're going to be
5:51:22 experiencing a very different moon during that time.
5:51:25 And I can't wait to hear what their observations are.
5:51:28 Yeah, that's absolutely fascinating.
5:51:29 And what a what an privilege that we get to do
5:51:31 that on this mission because that's not always the case.
5:51:34 If we had launched on a different day other than April 1st or 2nd,
5:51:38 we wouldn't have gotten to see that eclipse.
5:51:39 Is that right?
5:51:40 That's correct.
5:51:41 April 1st and 2nd.
5:51:42 Um I will say, you know,
5:51:43 I was asked a lot in the weeks leading up to the launch,
5:51:45 well, what's your favorite day?
5:51:47 And my answer truly was there is no bad day to launch to the moon.
5:51:50 we were going to get great science out of it no matter what.
5:51:53 But it's a really neat opportunity to, you know, bring the sun into the picture,
5:51:57 bring different planetary bodies into the picture while
5:52:00 still literally keeping the moon in center stage.
5:52:03 Fascinating.
5:52:04 So, what differences are we looking for at each site?
5:52:07 We're hearing a lot of different terms.
5:52:09 We're looking at craters.
5:52:10 We're looking at mare.
5:52:11 What are the differences that you're hoping to see?
5:52:14 We do have, as you highlight, kind of different prompts for each target.
5:52:17 that's what they're looking at in their lunar targeting plan,
5:52:19 which I know you've been showing.
5:52:21 Um, and we have even different prompts for the person with the, you know,
5:52:25 the really long lens on the camera versus the the people with the unaded eye.
5:52:29 And you've heard the crew talk about, oh my goodness,
5:52:31 when I go from one to the other, I can really detect different nuances.
5:52:36 Um, and that's something that we experienced in in simulations,
5:52:38 but hearing them actually, you know, see it for real has been really gratifying.
5:52:43 Um, but we're looking for different things based on the target.
5:52:45 Sometimes we're looking for color, sometimes we're looking for texture.
5:52:48 For the Terminator, we're looking at kind of what texture and morphologies pop
5:52:53 out to you and what kind of diversity you see along the Terminator.
5:52:56 Um, you've heard, you know,
5:52:58 Victor especially make some comments about future impacts for exploration.
5:53:02 Um, so already I think that their descriptions in this first
5:53:06 part of the flyby have told us something scientifically,
5:53:08 but also about future surface missions.
5:53:10 Well, oh, it was so interesting to hear Victor talking about he was
5:53:14 imagining in his mind's eye being down on the surface and walking around.
5:53:18 That was very cool to hear.
5:53:20 Um, and when we're thinking about targets,
5:53:21 I know some of them are determined based
5:53:23 on the launch day because that determines the lunar illumination.
5:53:27 So, the ones that we're looking at today, how and why were these selected?
5:53:32 Such a wonderful question.
5:53:33 Um, this really gets at some like at the heart
5:53:36 of some of our really highest priority science questions.
5:53:38 Um, illumination conditions is a big one, right?
5:53:41 So, of course, we need the targets that we're interested on the lunar
5:53:43 feature to be illuminated by the sun in order to view them,
5:53:46 but the timing in which they see them
5:53:48 during the flyby enables us to ask different questions.
5:53:51 So you heard um in the the pre-fly by crew conference talking about
5:53:55 well the same pair Reed and Jeremy will get to actually look at Glushko
5:53:58 crater twice and that looking at it from different illumination angles allows us
5:54:03 to understand that feature better and connect
5:54:06 color and albido with topography and morphology.
5:54:09 Um, then you have other creators where you want to look
5:54:11 at it with the sun shining on it obliquely versus straight on.
5:54:15 And that tells you something different about the scientific objective that drove
5:54:20 the target being on the targeting plan in the first place.
5:54:22 We've talked a little bit uh with the viewers today about how
5:54:26 what the crew is able to capture in this short time frame um
5:54:30 of those craters in different lighting
5:54:32 conditions could take years for something robotic
5:54:36 to be able to do based on attitude maneuvers and where the sun is at.
5:54:40 So can you just talk a little bit about the importance
5:54:42 of having both the robotic operation and having the crew?
5:54:46 Absolutely.
5:54:46 We definitely don't want to minimize the impact of orbiting spacecraft.
5:54:50 Flun Reconnaissance Orbiter is the one that's often referenced.
5:54:52 You know, data from LRO and its payloads have really been instrumental
5:54:55 in getting us frankly to this point for Artemis 2 and future missions.
5:54:59 Um, but the human experience,
5:55:01 the the crew observations that we've already been hearing about,
5:55:05 it is such a perfect complement to the orbiting spacecraft data,
5:55:08 uh, because they are able to have this unique perspective,
5:55:11 they are far enough away where they can make these contextual observations.
5:55:15 You've already heard it.
5:55:15 How many times have we heard the crew and their science sit rep say,
5:55:18 "If I track this feature from all the way up
5:55:21 here in the northern hemisphere down to the southern hemisphere,
5:55:24 here are comparisons I can make." That right there is not
5:55:27 something we had the ability to do with the Apollo missions.
5:55:30 And it allows just literally in the blink
5:55:32 of an eye to synthesize observations that it would take,
5:55:36 you know, a really significant effort to coordinate
5:55:39 with different orbiting platforms and they're making it like that.
5:55:42 Wow.
5:55:43 It has been very very exciting to hear all of their calls so far.
5:55:47 And so I've heard they were able to capture every single target so far too.
5:55:51 Is that correct?
5:55:52 I think that's correct.
5:55:52 And I think it's important also to remember
5:55:54 that and I know the science team is anxiously awaiting this.
5:55:58 Um we've been hearing from the crew members
5:56:00 who are not at the forward windows, right?
5:56:02 The those crew who are, you know, really in the thick of the observations,
5:56:05 they are recording minutes long observations per target on their crew tablets.
5:56:11 We will be getting those down starting here in a couple hours and that's going
5:56:14 to contain really meaty science information that we
5:56:17 haven't heard live yet and that's going to form
5:56:20 the basis of my conversation with them tomorrow
5:56:22 morning where we're going to have a really
5:56:24 deep dive into the science and absolutely nerd
5:56:26 out about what they were able to do today.
5:56:28 One of the most gratifying things for me
5:56:30 today is hearing multiple crew members say,
5:56:32 "Thank you for putting the discussion times in the targeting
5:56:36 plan because when we have had the ability
5:56:38 to put one of the most gratifying things
5:56:40 for me today is hearing multiple crew members say,
5:56:43 "Thank you for putting the discussion times in the targeting plan because
5:56:47 when we have had the ability to put multiple brains on a problem,
5:56:51 we have elevated each other and I'm looking forward to them, you know,
5:56:55 sleeping on it overnight and then us being able
5:56:57 to really truly have an elevated science discourse tomorrow.
5:57:00 Well, we're looking forward to it, too,
5:57:02 and I cannot wait to hear everything that you guys get to learn overnight
5:57:06 from some of those audio recordings and just
5:57:08 everything that they'll be able to share tomorrow.
5:57:10 So, Kelsey, I know you are very busy.
5:57:12 You've done a great job today and thank
5:57:13 you so much for joining us for this interview.
5:57:15 Thanks for having me.
5:57:15 It's such an exciting day.
5:57:18 We are now expecting acquisition of signal in about 24 minutes.
5:57:23 As a reminder, the Orion spacecraft has flown around the other side
5:57:26 of the moon where they are out of contact with our deep space network.
5:59:27 And we just heard confirmation here in mission
5:59:30 control Houston that we have reached the closest
5:59:32 point of our destination to the moon at ME 5 days 25 minutes and 34 seconds.
5:59:40 And we anticipate the spacecraft's altitude is
5:59:43 approximately 4,067 statute miles above the moon.
6:00:00 We're continuing to track what the crew is
6:00:02 doing while around the other side of the moon.
6:00:05 They are continuing to take pictures of the Earth or sorry of the moon.
6:00:09 the Earth now out of sight.
6:00:11 Uh what they are in right now is a crew choice event.
6:00:15 The science team has encouraged them to find interesting features on the surface
6:00:19 to take photos of those and describe why they were interesting.
6:00:24 Something else that they'll be looking toward
6:00:25 next just momentarily will be impact flashes.
6:00:28 They've got a few minutes allotted to look at the darkest portions of the moon.
6:00:34 They're interested in short-lived flashes on the lunar
6:00:36 surface because these would be caused by impact bombardment.
6:00:43 After their impact flash targeting,
6:00:46 the team is interested in if the crew can see lofted lunar dust.
6:00:50 This would only be visible just before Earth rise.
6:00:56 Now 20 minutes until we expect
6:00:58 to regain communications with integrity in the astronauts
6:01:02 for Artemis We're live in Mission
6:01:47 Control Houston at NASA's Johnson Space Center,
6:01:49 but there's a team over 750 miles away also monitoring today's operations.
6:01:54 And of course, just like us,
6:01:56 they are in loss or loss of signal with the spacecraft.
6:01:59 This is LUCA, the lunar utilization control area,
6:02:03 and it's joined by Lisa, the lander engineering support area,
6:02:06 which are twin control rooms that will
6:02:08 support missions and operations in lunar orbit
6:02:10 or on the moon surface in real time
6:02:12 at NASA's Marshall Space Flight Center in Huntsville, Alabama.
6:02:16 The Luca and Lisa are right next to each other
6:02:18 and just a short walk away from the SLS Engineering Support Center,
6:02:21 which is used during launch, and the POIC,
6:02:24 where science on the International Space Station is monitored.
6:02:28 Luca primarily supports Artemis science operations,
6:02:30 while LISA will provide engineering support for landing astronauts on the moon.
6:02:35 During this mission, Artemis 2, teams in the LUCA will use
6:02:38 the facility to support firstofits-kind science operations
6:02:42 to better understand the deep space effects
6:02:44 of microgravity and radiation on the crew's physiology,
6:02:47 immune systems, and ability to complete various tasks.
6:02:50 The data from these science operations will
6:02:52 inform future crude flights to the moon.
6:02:58 For future crude missions to the moon,
6:03:00 members of the NASA human landing system mission insights support team,
6:03:05 a group of engineers, safety leads, flight operations experts,
6:03:08 and technical authorities will work in the LISA.
6:03:10 There they will monitor lander systems in real time
6:03:13 and be involved in key decision-making processes throughout the mission.
6:03:17 Teams are using the LISA during Artemis
6:03:19 2 to observe mission operations and using the opportunity to inform and prepare
6:03:23 for future crude landings to the moon's surface.
6:03:26 This We now expect to regain communications
6:04:23 with the astronauts aboard Orion in about 17 minutes.
6:04:27 In the meantime, a little overview of how
6:04:30 our crew members flying by the lunar far side
6:04:32 at an altitude of between 4,000 and 9,000
6:04:35 m are testing the capabilities of the Orion capsule.
6:04:39 Artemis 2 visualization lead Ernie Wright has simulated views of the flyby
6:04:43 using detailed topographic maps of the lunar
6:04:46 terrain and photorealistic lighting scenarios.
6:04:48 The Artemis 2 crew members have been
6:04:50 using these visualizations to prepare for this historic
6:04:54 mission which is paving the way for future
6:04:56 exploration of the moon surface and beyond.
6:05:01 So the most exciting thing to me about Artemis 2 is just the return to the moon.
6:05:04 We haven't been there in 50 years.
6:05:06 Human eyes are going to see parts
6:05:08 of the moon that haven't been seen by anyone before.
6:05:12 It also recommmits us to exploring the solar system
6:05:15 in a way that we haven't in a long time.
6:05:17 And I think it provides an opportunity for younger generations
6:05:20 to understand the excitement of doing that kind of exploration.
6:05:27 Artemis is our return to the moon after 50 years.
6:05:31 The emphasis of Artemis is going to be first of all science
6:05:35 um but second of all learning to sustain a presence on another
6:05:38 world first on the moon but we're hoping that that's a stepping
6:05:42 stone to Mars and other destinations in the solar system eventually.
6:05:46 Artemis 2 will be a flyby mission.
6:05:48 It's not going to land.
6:05:50 We're testing all of the technology that we've
6:05:53 created for flying to the moon since Apollo.
6:05:56 A lot of systems have been modernized and we
6:05:58 need to make sure that all of those work.
6:06:00 The astronauts will be looking out the window at parts
6:06:03 of the moon that have never been seen by human eyes before.
6:06:07 They will be flying by the moon
6:06:08 at an altitude that's much higher than Apollo's orbits.
6:06:12 And so they will see the entire disc of the moon,
6:06:15 including areas that are closer to both the north
6:06:18 and south pole that astronauts from Apollo never saw.
6:06:22 All of that depends on the lighting,
6:06:24 which we really won't know until launch day,
6:06:27 but we can practice with different lighting scenarios.
6:06:30 It's hard for people to sort of picture that in their mind.
6:06:33 If you can make a visualization of it,
6:06:35 show them a movie that helps everybody choose
6:06:38 the targets and also practice aiming at those targets.
6:06:42 The astronauts have actually been looking at these visualizations through
6:06:45 the lens of the camera and practicing aiming at the various targets.
6:06:51 This is a map of the surface of the moon, obviously,
6:06:55 but it shows what the Apollo astronauts could
6:06:57 see in sunlight while they were in orbit.
6:07:00 The brighter parts are the parts that they could see.
6:07:03 The darker parts, um, like this entire area here,
6:07:07 and places that are farther north and south
6:07:10 are places that they couldn't see in sunlight,
6:07:13 either because it was nighttime there or because
6:07:15 it was beyond the horizon of the astronauts.
6:07:18 All of the Apollo flights orbited the moon at a distance of about
6:07:23 110 km because the astronauts were flying at such a low altitude.
6:07:29 Their horizon was actually quite close and they
6:07:31 couldn't see the north and south poles.
6:07:34 Um, and this whole area over here was not in sunlight at the time.
6:07:39 And it includes this amazing impact feature here called Oriental.
6:07:43 Oriental is a very large impact feature.
6:07:46 It's about 650 km wide.
6:07:49 It's got multiple rings.
6:07:51 These are rings that form like ripples in a pond from the impact.
6:07:55 But of course, it's on a huge scale.
6:07:58 The middle of Oriental has that sort of dark basalt lava covering
6:08:03 it like the dark spots that we see on the near side.
6:08:06 It's one of the biggest ones that's more on the far side than near.
6:08:10 So seeing it with human eyes and sort of picking out features that maybe
6:08:14 you don't even see in robotic cameras is an important goal for the mission.
6:08:33 This live view in the silent science evaluation room
6:08:36 or the SIR here at Johnson Space Center in Houston,
6:08:39 Texas, just down the hall from where
6:08:40 we're at in the Artemis mission control room.
6:08:43 Teams continuing to monitor the flyby.
6:08:55 The crew continues their observations of the moon
6:08:57 even though they are out of touch with Earth.
6:08:59 We expect to hear from them in 12 minutes and 26 seconds.
6:09:03 Again, this is approximately 40 minutes loss of signal while
6:09:07 they are out of reach of the deep space network.
6:09:10 Right now, they are imaging or attempting to image lofted lunar dust.
6:09:17 Throughout our coverage,
6:09:18 we've talked a lot about the science and engineering behind today's lunar flyby,
6:09:22 but we also spoke to the crew about what the moon
6:09:25 means to them and how they see its place in human history.
6:09:41 remember being a a little kid lying in bed at night and just looking
6:09:45 out at the moon in whatever phase it was in and I was thinking,
6:09:48 man, my friends that live like 20 mi away,
6:09:50 they can probably look out and see that same exact moon.
6:09:52 And then when I was in the Navy and I would I would look
6:09:54 out at the moon and I'd be halfway around the planet and I would think,
6:09:56 man, my brother can see that moon where he is
6:09:59 and he's halfway around the planet from where I am.
6:10:01 And it's a connection of life on Earth.
6:10:03 We can all look up and see that moon.
6:10:05 It represents history.
6:10:07 It is a witness plate.
6:10:08 Everything that's ever happened to the moon is still written on the moon.
6:10:13 There's no processes of wind or change in the earth,
6:10:18 geological processes like we have here that change it.
6:10:21 and something that's been telling and can
6:10:24 read out the story of its own evolution.
6:10:27 There's something beautiful about that.
6:10:29 I've also learned from my indigenous mentors
6:10:33 that they refer to the moon as grandmother moon.
6:10:36 So, you've probably heard of mother earth.
6:10:37 They use grandmother moon because grandmother moon
6:10:40 is responsible for the water in their community.
6:10:43 The grandmothers, you know, sort of protect the water source just like the moon
6:10:47 moves the water around the planet, affects the tides.
6:10:51 It's something that represents something different
6:10:53 for each individual culture around the planet.
6:10:56 And that's really neat because we all share that same moon in the night sky.
6:11:00 We all have seen the same side
6:11:03 of the moon in different lighting conditions our whole lives.
6:11:06 And so it seems very familiar to us, but it's also kind of unknown.
6:11:09 When we get up close, some of the imagery that we'll get to describe
6:11:12 and to share with people will be very unique.
6:11:16 And that nature, both of those things being true about
6:11:18 this one entity that we all know just is really special.
6:11:23 It's just the epitome of a symbol
6:11:26 of both something that's in each of our hearts,
6:11:30 but this also represents exploration and reaching.
6:11:50 You're looking at a live view inside Artemis mission
6:11:52 control here at Johnson Space Center in Houston, Texas.
6:11:56 We are currently out of contact with the Artemis 2 crew.
6:12:00 This was a planned or not really a planned,
6:12:03 but a tracked loss of signal that occurs when the crew flies behind the moon.
6:12:10 We use the deep space network to communicate with the crew and when they
6:12:13 are behind the moon they are out of reach of that deep space network.
6:12:17 And when you consider our non-stop communications during the time in which
6:12:20 we live this is even more striking for the Artemis 2 crew.
6:12:24 They're only currently communicating with each other.
6:12:27 Now we expect to regain those communications in under 9 minutes from now.
6:12:31 And we also are hopeful for a view of Earthrise.
6:12:35 Despite being out of communication,
6:12:36 the crew is continuously capturing imagery of their predetermined lunar targets.
6:14:01 Now about 7 minutes 25 seconds until we anticipate
6:14:04 regaining communications with the Artemis 2 crew aboard Orion.
6:14:08 In the meantime, Artemis 2 lunar science deputy lead
6:14:11 Marie Henderson is training trained these astronauts to capture
6:14:15 and document their views of the lunar surface
6:14:18 for all of us to enjoy back here on Earth.
6:14:24 I cannot wait to hear their voices when they get to the far side
6:14:28 of the moon and I can hear them talk about seeing the moon out their window.
6:14:33 I try to imagine it now and it just I tear up thinking about it.
6:14:38 Oo, now I got to hold on a second.
6:14:42 We have human eyeballs connected to wonderfully
6:14:45 smart brains our astronaut friends have.
6:14:48 They are going to be able to observe the moon in multiple different ways.
6:14:50 They can use their eyes.
6:14:52 They'll look through their camera and snap pictures
6:14:54 and just looking out the window getting that human experience.
6:14:57 But during Apollo, the astronauts were so much closer to the lunar surface.
6:15:02 Our astronauts are going to be doing a flyby at a higher altitude.
6:15:06 So, they're going to be able to see the whole
6:15:07 moon as a lunar disc on the lunar far side.
6:15:10 That's a brand new unique perspective that humans
6:15:13 haven't been able to look at before.
6:15:15 We are doing a lot of lunar geography training with them.
6:15:18 They have study sessions and quizzes they can do that are assigned to them.
6:15:23 You know, even if you're an astronaut, you still get homework.
6:15:25 We actually get in the mockup in that enclosed physical space.
6:15:29 We have to think through the hardware that they have,
6:15:32 the cameras, the computers, their microphones to make these observations.
6:15:36 There's four windows up front.
6:15:38 through one of those windows, one of our astronauts will be using a Nikon
6:15:42 D5 camera with an 80 to 400 millimeter lens.
6:15:45 So, something that allows them to zoom in really
6:15:47 far and actually take more detailed observations of the surface.
6:15:51 It's almost like looking through a pair of binoculars as well.
6:15:54 It's just like being a geologist out in the field.
6:15:56 They're going, they're telling us what they're seeing,
6:15:59 looking for colors, textures, different morphologies,
6:16:02 and comparing the region that we're having them
6:16:05 look at to the regions that are around them.
6:16:08 We have a science team that is planning
6:16:10 the targets that are going to be observed,
6:16:13 putting them all on the timeline of how they're going to be observed,
6:16:16 and then taking the first look at the data when it comes down.
6:16:19 The Apollo astronauts were only on the moon for 300 hours total,
6:16:23 and they only went to the equator.
6:16:25 That's like going to places that were safer landing sites,
6:16:29 and they only saw so little, 300 hours total.
6:16:32 And so, we have so much more to explore and so much more to learn.
6:16:37 And we are the beginning of the next generation
6:16:39 that gets to start being a part of these discoveries.
6:16:57 We are now 4 minutes and 28 seconds until we expect to regain
6:17:02 communications with the astronauts flying aboard Orion on the Artemis 2 mission.
6:17:06 They are now flying behind the moon.
6:17:10 While behind the moon at an ME or mission elapse time of 5 days,
6:17:14 25 minutes and 34 seconds.
6:17:17 We expect this was the point in which they made
6:17:19 their closest approach 4,67 statute miles above the lunar surface.
6:18:27 We're live in the Artemis mission control room in Houston.
6:18:29 But we are not the only room monitoring today's flyby.
6:18:32 As you can see, this is the sir, the science evaluation room.
6:18:37 It's in the same building and just down the hall.
6:18:39 It's a multi-d disciplinary science team supporting
6:18:42 the Artemis 2 crew in real time,
6:18:45 including experts in lunar geology, impact cratering,
6:18:48 volcanism, polar science, imaging, and visualization.
6:18:52 You can see the SIR here.
6:18:53 That's the science evaluation room.
6:18:55 It's embedded within mission control to provide science
6:18:58 input during live operations like what we see today.
6:19:01 But additionally, the science mission operations room
6:19:04 is a back room that processes data,
6:19:06 evaluates imagery, and supports rapid analysis.
6:19:12 We also have our science officer, Kelsey Young, here on console today.
6:19:17 She's serving as the primary interface between
6:19:19 the science team and the flight controllers,
6:19:22 ensuring science priorities are represented during mission execution.
6:19:50 Coming up on 1 minute and 36 seconds until we contact Orion.
6:20:03 Meanwhile, aboard the spacecraft,
6:20:04 the crew has continued executing their lunar flyby tasks.
6:20:11 As we discussed earlier today, these activities have been precisely timelined,
6:20:16 and this is the fourth of five blocks of time during
6:20:20 which the crew will be observing the moon from Orion's windows.
6:20:24 At this time, pilot Victor Glover and mission specialist Christina
6:20:28 Cook are observing the moon at windows two and three.
6:20:36 One crew member is in window two with a blue
6:20:39 shroud over the window taking photos and using
6:20:42 an 80 to 400 mm zoom lens while the other
6:20:45 astronaut is in window 3 using their portable computing device,
6:20:48 also known as a PCD, to make annotations.
6:20:52 And both of those crew members are
6:20:53 making audio recordings of what they are seeing.
6:20:57 They are wearing headsets connected to their PCDs and those audio
6:21:00 recordings are being sent to the science team tonight.
6:21:03 We are not hearing those live.
6:21:05 However, we have been hearing quite a lot of great
6:21:08 descriptions from the crew who have been serving as the support.
6:21:12 Right now, the support team members are Reed Wisman and Jeremy Hansen.
6:21:17 Those team members are providing science sit reps, situation reports,
6:21:21 calling down a few times each hour to discuss what they're observing.
6:21:25 And even though we're out of contact with them right now,
6:21:27 they are still conducting those science sit reps as they'll
6:21:30 be available once they come back around the moon.
6:21:36 The situation reports include how the crew is positioned,
6:21:39 any missed targets or anything unexpected they saw.
6:21:42 They're also including lunar target descriptions,
6:21:44 any hardware issues, and their emotions and reactions.
6:21:59 Again, we are standing by to acquire signal from the Orion spacecraft.
6:23:03 We're in the Aremis mission control room at Johnson
6:23:06 Space Center getting our preliminary contact with Orion.
6:23:09 That acquisition of signal coming after a 40minute loss of signal during which
6:23:14 the crew was flying behind the moon out of contact with anyone on Earth.
6:24:06 We are getting our first views from Orion after the loss of signal.
6:24:12 Orion has come back around the other side of the moon
6:24:15 and that little crescent that you see is Earth over 252,000 miles away.
6:24:27 With this transit complete, lunar flyby continues.
6:24:30 But Orion has also technically begun its journey home.
6:24:46 Right now, the crew are getting a few moments
6:24:48 to enjoy and take photos of Earthrise for themselves,
6:24:52 and we expect to contact them shortly.
6:24:55 But we do have good signal coming from Orion.
6:24:57 Man.
6:25:37 This view from inside the Orion spacecraft.
6:25:40 All four astronauts now back on the other side
6:25:42 of the moon and in contact with us on Earth.
6:25:46 Their tasks for lunar flyby did not stop as they
6:25:49 went behind the moon and out of contact with us.
6:25:52 We anticipate during that time they
6:25:54 were attempting to image some impact flashes,
6:25:57 short-lived flashes on the lunar surface, which would be caused by impact
6:26:01 bombardment and potentially even lofted lunar dust.
6:26:06 Right now, of course, they are getting pictures of Earthrise.
6:26:12 After this target, they will get a short observation break.
6:26:15 It's about an hour long, actually.
6:26:17 Houston, integrity, com check.
6:26:23 Integrity, we have you loud and clear.
6:26:25 Tell me, Houston, we have you the same.
6:26:34 And it is so great to hear from Earth again.
6:26:37 To Asia, Africa, and Oceanana, we are looking back at you.
6:26:41 We hear you can look up and see the moon right now.
6:26:44 We see you, too.
6:26:47 When we burned this burn towards the moon,
6:26:49 I said that we do not leave Earth but we and that is true.
6:26:56 We will explore.
6:26:57 We will build.
6:26:58 We will build ships.
6:27:00 We will visit again.
6:27:02 We will construct science outposts.
6:27:04 We will drive rovers.
6:27:05 We will do radio astronomy.
6:27:07 We will found companies.
6:27:09 We will bolster industry.
6:27:11 We will inspire.
6:27:12 But ultimately we will always choose earth.
6:27:16 We will always choose each other.
6:27:22 Integrity from earth are single system fragile and interconnected.
6:27:26 We copy.
6:27:27 Those of us that can are looking back.
6:27:39 We are happy to say we copy.
6:28:12 Those first communications back with the astronauts aboard Orion.
6:28:24 Christina Cook calling back to what she
6:28:25 said just before trans lunar injection burn.
6:28:28 That with this burn, we do not leave Earth, we choose it.
6:28:32 The trans lunar injection burn served as not only what
6:28:35 put them on this trajectory to fly around the moon,
6:28:38 but what also committed them to splashing down
6:28:40 in the Pacific Ocean on flight day 10.
6:28:58 At this time, the crew is entering an observation break.
6:29:02 We expect this to last about an hour and it's probably
6:29:06 a welcomed break following their very very busy day taking pictures,
6:29:11 uh, making annotations, making audio recordings,
6:29:15 and communicating all of the wonderful things that they are seeing on the moon.
6:29:22 This observation break is also partially due to the fact
6:29:25 that we will be entering an eclipse later.
6:29:28 This will be the first solar eclipse that humans have seen from the moon.
6:29:32 The astronauts will need to wear eclipse glasses
6:29:35 for the first two minutes until the sun is completely covered
6:29:37 by the moon and then they have additional targets
6:29:40 that the science team is hoping that they will photograph.
6:29:43 We will have communications with them during that eclipse time frame.
6:29:51 Because of that eclipse, Orion's attitude must be changed right now so
6:29:55 that its solar arrays are in the sun.
6:29:58 This will help it charge the batteries needed
6:30:00 to power it through that eclipse time frame.
6:30:07 This view on your screen is a visualization.
6:30:10 The spacecraft now 400 4,224 miles away from the moon.
6:30:15 And that number will now continue to grow
6:30:18 while the number of distance from Earth
6:30:20 252,699 mi will continue to shrink all the way until our crew is back Oh, again.
6:31:38 We are ME mission elapse time 5 days
6:31:42 and 58 minutes since the launch of Artemis 2.
6:31:49 We have reestablished communications with the crew and the Orion spacecraft.
6:31:53 now entering a little bit of a break while they are
6:31:56 out of visibility or the moon is out of their visibility.
6:32:00 The spacecraft will be reorient reoriented to view
6:32:03 the moon ahead of an upcoming eclipse.
6:32:08 This current attitude maneuver helps charge the solar arrays
6:32:11 and batteries aboard Orion that will power them through the eclipse.
6:33:10 Integrity Houston in mission control.
6:33:14 All of your flight controllers and your flight
6:33:16 director have flipped their Artemis 2 patches around.
6:33:21 We are Earthbound and ready to bring you home.
6:33:38 Ah, that's great.
6:33:43 See the light of day as we head back
6:33:45 to A very special moment just now in mission control
6:35:58 ahead of the crew's flight to Kennedy Space Center
6:36:01 and during one of their last sims or simulations here.
6:36:04 They visited the mission control team in Artemis mission
6:36:07 control in Houston and brought us each a patch.
6:36:10 Everyone in the flight control room has had
6:36:12 these on their uh their signifiers at their console.
6:36:16 On one side of the patch that you've probably
6:36:18 seen is the moon with the Earth behind it.
6:36:22 Now that we are behind, we've passed behind the moon and we are returning home.
6:36:27 The flight control team has instructed everyone
6:36:30 in the room to switch their patch
6:36:32 around so that the Earth is closer and the moon is behind us.
6:36:36 We are really looking forward to seeing the Artemis 2 crew
6:36:39 and the Capcom Jenny Gibbons did call that update up to the crew
6:36:42 that the uh flight control team here has turned their patches
6:36:46 around as was instructed by the crew during that last sim.
6:36:50 And we are counting down the days until they get home.
6:36:53 They are now 5 days, 1 hour,
6:36:55 and 3 minutes mission elapse time into the Aremis 2 mission.
6:38:45 joining me here in the room, Artemis mission control.
6:38:47 I have Angela Garcia, Artemis 2 science officer.
6:38:51 Thanks for being here, Angela.
6:38:54 It is an honor to be here.
6:38:55 What a day.
6:38:56 Everyone's been buzzing.
6:38:58 I I can't I can't contain myself.
6:39:00 So, it's been a really awesome day.
6:39:02 So, you're sitting on console at the science console now.
6:39:04 Have you been in the su earlier today?
6:39:07 There's a lot going on.
6:39:08 So, I went I went here first and then I'm going to go there after Houston.
6:39:17 All right, Integrity, we hear you.
6:39:18 That was a little clipped, but I think we have a better link now.
6:39:23 We experienced some blockage from a solar array.
6:39:26 Uh, we moved it and we are in bias tail to sun.
6:39:37 Okay, Houston, you're coming in loud and clear and copy.
6:39:40 We're in bias Toyota now.
6:39:47 A firm and integrity, just so you know,
6:39:50 uh we did not hear your response once we uh flipped our patches.
6:39:53 Jeremy, we heard you call down,
6:39:55 but you were clipped and then we briefly lost calm.
6:39:57 Clap for back.
6:40:05 Okay, copy that.
6:40:06 Um, we were just excited that we got to share
6:40:09 in that that you uh you the MR and mission
6:40:12 control flipped your patches around and that that side
6:40:15 of the patch is getting to see the light of day.
6:40:17 Thanks for sharing that with us.
6:40:21 Our pleasure.
6:40:27 Okay, Angela.
6:40:28 So, can you tell me a little bit about your role
6:40:30 supporting Artemis 2 and the science preparation for the mission?
6:40:34 Yes.
6:40:34 So, I'm one of the three science officers.
6:40:37 Uh, so Kelsey's been on console all day.
6:40:39 I'll take over um kind of closer to the end
6:40:41 of the day and then Trevor Graph is on the planning shift.
6:40:44 And so, it's a threat and NASA have that they're
6:40:47 going to be integrating science and maximizing science throughout Aremis.
6:40:50 So, it's it's really exciting.
6:40:53 Um, and then the science preparation.
6:40:55 Um, yeah.
6:40:55 Yeah.
6:40:56 So, I'm on the operations team, but I'm also on the training team.
6:40:58 So, all the incredible training and shout outs that you've gotten today,
6:41:01 uh, it just it warms it warms my heart.
6:41:04 It warms everybody's heart um in the science evaluation worm.
6:41:07 I I promise you that.
6:41:08 Um, but see, all the classroom training,
6:41:11 the field training, the mission simulations, right?
6:41:14 We were um part of all of it.
6:41:16 And you know, that is what we did to get
6:41:18 the crew to be they are a part of the science team.
6:41:20 They are the the forefront that like that nice edge.
6:41:23 and it they're just been doing such a great job today.
6:41:25 I know.
6:41:25 I imagine that you have to be pretty proud of them.
6:41:28 Their reports have been fantastic.
6:41:30 So, I would like to know a little bit
6:41:32 about how you have developed procedures for this crew.
6:41:35 Um, what kind of science activities are they carrying out inside the spacecraft?
6:41:39 Yeah, so the procedure development has been a unique challenge.
6:41:43 Um, I would say the exploration science that we're doing is
6:41:46 inherently pretty flexible and operations is
6:41:51 I'd say inherently has more structure
6:41:53 and rigidity and so to marry the two and to operationalize
6:41:57 the science that we want to get done has has been a challenge.
6:42:00 Um, but it's I think we've been able to to go through
6:42:03 these processes and create good products at the end and have a good plan.
6:42:07 Um, and yeah, it's been it's it's it's been really great.
6:42:10 What was the second part of your question?
6:42:12 just what kind of these these science activities that they're performing.
6:42:16 Um which of those have you really had a hand in?
6:42:18 Yeah, so a lot of the the procedures help
6:42:21 organize what the crew is doing in the cabin.
6:42:23 Um and I know we've talked a lot about, you know,
6:42:26 what they've been doing and they've been doing
6:42:27 a lot and it's been a little dark,
6:42:28 so I can reexlain um what some of those things that they're they're doing.
6:42:32 Um, so the observation blocks are about an hour long and the crew is organized,
6:42:37 the four crew members are organized into two pairs of two,
6:42:41 the window team and the cabin team.
6:42:43 And your lunar the lunar targeting package that um,
6:42:46 you've been showing up and what we've that the crew have on their um,
6:42:49 handheld tablets is really the instructions for the window team.
6:42:52 So the window team, the two crew members are looking out the window.
6:42:56 One has the camera with the long lens,
6:42:58 one has um they're just looking out the window
6:43:00 with their unaded eye and they're taking these detailed observations.
6:43:03 And then halfway in that observation block,
6:43:05 they do those the window team um position swap.
6:43:09 So that's what you've been what Capcom's
6:43:10 been calling out and they'll switch positions.
6:43:12 So each crew member has a chance to um have that long lens.
6:43:16 And then that's just what the window team is doing.
6:43:18 There's also the cabin team where they also have duties that they're doing.
6:43:22 We we're asking a lot of the crew in this time.
6:43:24 Um, and then the cabin team, they're taking,
6:43:26 they have the interior camera and they're taking images inside the cabin.
6:43:30 They're also supporting the window team where, you know,
6:43:34 you've heard some call outs where looking out at the bright moon and then
6:43:37 looking inside the dark cabin and looking at their LED screen is is a lot.
6:43:41 So, the cabin team is also helping support uh target um and guide
6:43:46 um the window team into specific um into specific targets on their plan.
6:43:51 Um they're also helping call out these science situational reps.
6:43:55 Um so they're looking out a different window
6:43:57 and listening in to what the crew um
6:44:00 who are really down and in in the science on the on the window team are doing
6:44:03 and they're giving us insight and those recordings
6:44:05 that the window team is doing are going to be
6:44:07 up linked or down linked overnight and we're
6:44:09 going to be able to chew on that data.
6:44:11 Um but yeah, they're they're helping uh they're doing they're doing a lot.
6:44:14 Um, and so making sure we have a a plan that's flexible,
6:44:18 but also make sure um that we check off all those boxes was really important.
6:44:22 So tell me a little bit more.
6:44:23 You talked earlier about the analoges that the crew has done.
6:44:26 What kind of analoges or environments were really useful for this?
6:44:30 Yeah, so for procedure development, right,
6:44:32 you have so many different um environments that you can do.
6:44:35 You have classroom, you like we said, we have um you have the Orion mockup,
6:44:40 you have simulations, and for at least for developing the plan,
6:44:44 we kind of did it in a tiered approach because each of those different um analog
6:44:48 environments helps us answer a slightly different question
6:44:50 and has a little bit of a higher fidelity.
6:44:52 Um so we would start with the classroom.
6:44:55 So, we would get um know we would just get into a classroom and we'd put
6:44:59 all the hardware on the table and then
6:45:00 we'd almost roleplay of like you be Victor,
6:45:02 you be Reed, you be Jeremy and I'll be Christina and like
6:45:05 let's just do the plan how we think we should do it.
6:45:09 Uh write that down and then just keep iterating on on that and then
6:45:14 Integrity Houston for a tag up preward link
6:45:19 loss in place of the flight director conference.
6:45:30 Okay, Jenny, we're ready.
6:45:33 All right, crew.
6:45:34 I'm going to roll through a couple of topics here.
6:45:36 The first two are for timeline.
6:45:39 First of all, read for your toilet maintenance.
6:45:42 It is a shortened toilet maintenance where you
6:45:44 do not have to do the oxone change out.
6:45:47 That portion of the procedure is canceled.
6:45:50 Victor, you have an HHP stop activity on your timeline.
6:45:56 We need you to perform that as scheduled for bandwidth reasons.
6:46:03 For your next portion of the flyby, in particular, the eclipse,
6:46:07 we want to remind you that you can take off the eclipse
6:46:10 glasses when the sun sets and you are simply looking at the corona.
6:46:15 And then finally for the D5 with the long
6:46:20 or zoom lens which is set for solar corona.
6:46:24 We want to remind you that when you are capturing
6:46:27 earth shine you will likely have to adjust the exposure.
6:46:32 That's all I have for you.
6:46:33 Let me know if you have anything for us.
6:46:47 Okay.
6:46:45 We copy all.
6:46:46 Thanks for those words.
6:46:47 Sh.
6:47:04 All right, just a quick call up to the crew ahead of a forward link loss,
6:47:07 meaning that we won't be communicating with them,
6:47:10 but we will be receiving their communications and data during that time frame.
6:47:14 So, Angela, we were talking about analog environments.
6:47:17 You were telling me about the classroom and getting
6:47:18 in there and pretending who's Victor, who's Reed.
6:47:21 Tell me more about this.
6:47:23 Yeah, it it works pretty well.
6:47:24 So, you you're going to do the plan how you expect it to be.
6:47:28 And then, uh, you know, once we finalize that plan,
6:47:30 we'll give it to a completely new group of people
6:47:32 and have them practice it because and then they'll be like,
6:47:35 "These steps don't make sense." And we'll reiterate on it over and over.
6:47:38 Then we'll take it to a higher fidelity environment like the Orion mockup.
6:47:42 Um, and we'll do the same thing because that volume is smaller,
6:47:45 the window placement, their seating,
6:47:47 um, what things have we forgotten with this, you know,
6:47:49 addition of this um, this environment.
6:47:52 And then once we um, you know,
6:47:54 reiterate on that, we'll take it then we'll give it
6:47:56 to the crew and have them execute off of it during mission simulations.
6:47:59 That's the highest fidelity that we can do before we send it to space.
6:48:03 So, we've this is the first time we've had
6:48:04 to do this because we're a brand new console.
6:48:06 Um, and I'm just it just sparks so many neurons of like how are we
6:48:10 going to do this for service missions
6:48:11 and integrate this in so many different ways.
6:48:13 So excited to have kicked off this process, but there's so much more to come.
6:48:18 Fascinating.
6:48:18 And I think it was really well thought out, too,
6:48:20 because each crew member gets an opportunity to do each task.
6:48:24 And so you're getting different perspectives
6:48:27 and different insights from each crew member, maybe even about the same target,
6:48:31 but something that one person sees could
6:48:32 be completely different than something another person notices.
6:48:36 So we also know that Artemis 2 is has traveled, they are now on their way home,
6:48:41 but they traveled farther from the moon than the Apollo missions did.
6:48:45 So what makes that vantage point scientifically interesting?
6:48:49 Yeah.
6:48:50 Um observations are so fundamental in the scientific toolkit.
6:48:54 Um particularly observations from different perspectives,
6:48:58 different scales and with different techniques.
6:49:00 Um and so for this so we really tried to make the plan to optimize those.
6:49:04 There's pros and cons for for all those things for this mission.
6:49:07 So we really just focus the plan to have all those pros.
6:49:10 So in terms of scale, this zoomed out scale, you can learn different things.
6:49:14 This zoomed or this uh different perspective.
6:49:17 So their perspective as Kelsey talked about photometry
6:49:20 um around um when they orbit the moon and then also just um their different
6:49:25 uh the different things they're able to observe.
6:49:27 Um so yeah, let me let me talk a little bit about scale because I
6:49:30 think observations at different scales you can
6:49:33 you can gain a lot of different information.
6:49:35 Um so like for example, if you were an astronaut on the surface looking
6:49:38 at a rock um and you describe at this micro scale.
6:49:42 So in training we kind of talk about observations
6:49:45 from micro to macro or from outcrop to orbit.
6:49:50 Um so looking at you know a rock at this scale you can describe its components.
6:49:54 You can describe what it's made of and its colors and its
6:49:56 minerals and you're like okay and this rock came from this boulder
6:49:59 and it's this part of this boulder and these are the different
6:50:02 things that I'm observing around um gives me context to this sample.
6:50:06 And then you zoom out a little bit more and you're like,
6:50:08 "Okay, well, I can see that this boulder came from, you know,
6:50:10 it rolled from this mountain ridge or this um this high uh this high
6:50:15 ridge feature." And then because I can see the trail that it came from.
6:50:19 Okay, now let me describe this ridge um and you know
6:50:23 different parts in it and maybe other boulders that I'm seeing.
6:50:25 And then you zoom out further of the orbit scale
6:50:27 and you're like this ridge is a part of this larger crater.
6:50:30 Um so all of those different steps give you different information.
6:50:33 And so that's why observations at these different
6:50:35 scales and these different perspectives are are so important.
6:50:38 So this zoomed out um kind of far view is this full lunar disc view.
6:50:43 It's the full lunar um you know on Earth we see the full lunar disc as well,
6:50:47 but now we're able to see it on the far side and we're able to see it um you
6:50:52 know all at the same time which enables the astronauts
6:50:55 to compare very quickly to different parts of the surface.
6:50:59 Um, and the color particularly is very compelling because you can um
6:51:04 you can just be able to very quickly compare from, you know,
6:51:07 three different regions.
6:51:08 Is it this is it in the same family?
6:51:10 Is this actually a little bit different?
6:51:12 You know, compare that to what they see
6:51:14 in their orbital data that they have access
6:51:16 to on their um portable computers and really just be
6:51:19 able to um to tease out that nuance and information.
6:51:22 Yeah, we heard them make a lot
6:51:23 of those connections today and especially the color.
6:51:26 We talked with Kelsey about this a little bit,
6:51:27 just how exciting it was to hear the browns and greens and things like that.
6:51:31 I cannot wait to see those pictures.
6:51:34 So, one last question.
6:51:36 We are coming up on the last lunar flyby observation block
6:51:40 and this is when we are going into a solar eclipse.
6:51:42 So, can you tell me what you're interested
6:51:44 in the crew learning during that time frame?
6:51:47 Yeah.
6:51:47 Um, so the data set.
6:51:49 So, yes, there's there's so many things how how to pick one.
6:51:52 Um, so I would say the thing that I'm most interested
6:51:55 in seeing is some of their annotations um that they're taking.
6:51:59 Um, so in this um opportunity, it's a very dynamic type of um of experience
6:52:05 in that we don't normally see this this activity.
6:52:08 And so being able to have um crew observe um
6:52:12 the solar corona and then also annotate it um in their um
6:52:17 on their portable computing device is is just such
6:52:20 a unique um thing that humans can can give to missions.
6:52:24 Um and also particularly um being able
6:52:27 to annotate um what they're observing while they're
6:52:30 talking about it is also unique to um you know being able to uh have
6:52:34 astronauts in orbit as well because we won't be able to have annotations um
6:52:39 on the lunar surface because the astronauts will
6:52:41 be in suits you know they're going to be
6:52:42 collecting samples they're going to be deploying
6:52:44 instruments and so personally I'm really excited
6:52:46 to see um some of these annotations and to see how that um develops um over
6:52:51 time because it's you've heard a lot
6:52:53 of descript descriptions and I think you know
6:52:55 when people are describing something that's um unique
6:52:58 and different um you can interpret it differently.
6:53:01 Um but if you're drawing and you're marking particularly just going back to like
6:53:05 the color provinces for example and those boundaries
6:53:08 you know exactly what they meant.
6:53:10 Um and really I just I'm just very excited about those annotations.
6:53:14 There's been some famous um annotations that the Apollo crew have made
6:53:17 particularly about solar coronas and the structures um that have and lofted
6:53:22 dust um that have given a lot of um you know
6:53:25 debate within the scientific community
6:53:27 of they're observing this phenomenon and now
6:53:30 it's our job to hypothesize of like why are they observing
6:53:34 this like what is um what is going on um so I
6:53:38 think that's just a really cool part of exploration and science
6:53:41 and you know this this beautiful thing that we're about to do.
6:53:44 Well, now you've got me excited about the annotations, too.
6:53:47 I mean, I've been excited about the pictures and the audio,
6:53:49 but now, don't sleep on the annotations.
6:53:52 I am very excited to see these little sketches that they're able to draw out.
6:53:56 Um, and we have pictures that they can just draw right on.
6:53:59 It's like this particular thing is different than what we've seen.
6:54:01 So, I'm I'm excited about that.
6:54:03 I'm excited, too.
6:54:04 Angela Garcia, thank you so much for joining us
6:54:06 today and uh have a great time tonight on Console.
6:54:09 Thank you.
6:54:09 And you've been doing a great job and so excited to see where we go from here.
6:54:12 Thank you so much.
6:55:42 Integrity Houston, you have 3 minutes until we go into a forward link loss.
6:55:49 We will be back up with you in about an hour during the eclipse on Madrid.
6:56:00 Thanks for the heads up.
6:56:01 Look forward to seeing you on the other side.
6:56:07 Likewise.
6:57:53 We're live in Artemis mission control at Johnson Space Center in Houston, Texas.
6:57:58 This a live view from the Orion spacecraft with our Artemis 2 crew inside.
6:58:04 That's Reed Wisman, Victor Glover, Christina Cook, and Jeremy Hansen.
6:58:09 We are still live for our lunar flyby coverage.
6:58:12 The crew is in a short break while the spacecraft is pivoted away from the moon.
6:58:18 We are going to be going into a solar eclipse.
6:58:21 This is the first time anyone has ever seen a solar eclipse from the moon.
6:58:26 So, it's going to be a unique vantage point now 252,523 miles away.
6:58:35 Our closest approach to the moon today
6:58:37 was approximately 4,067 statute miles in altitude.
6:58:42 Our maximum distance from the Earth is suspected to be 252,756 statute miles.
6:58:50 Both of those moments came while Orion was flying
6:58:52 in their loss of signal time frame behind the moon.
6:58:56 The crew also set that new record today, uh,
6:58:58 beating the Apollo 13 record of distance from Earth.
6:59:06 This is an animation or a visualization that you can track anytime,
6:59:09 day or night, by visiting nasa.gov/trackmis.
6:59:14 This shows you how the spacecraft is
6:59:15 positioned as well as their distance and velocity.
6:59:18 Now traveling 930 miles per hour.
6:59:35 During this break in their uh time today,
6:59:39 the crew is working on a couple of other tasks.
6:59:41 Some of those include their National Geographic timelined test.
6:59:45 National Geographic was selected through a competitive process
6:59:48 by NASA to help tell the story of Artemis 2.
6:59:52 So, you've seen the crew with some GoPros inside the cabin
6:59:55 taking videos and pictures and with other cameras as well.
6:59:58 National Geographic plans to leverage its
7:00:00 portfolio of media assets including magazines, social and digital content,
7:00:05 and television programming for engagement opportunities.
7:00:12 Throughout the flight,
7:00:13 the crew has been timelined a little bit each day to film from a shot
7:00:17 a shot list provided by a National
7:00:19 Geographic and that includes their morning routine,
7:00:22 talking with their families, exercising,
7:00:24 and just their overall thoughts about the mission.
7:00:26 And I cannot wait to see that footage.
7:00:42 Teams on the ground reporting that the spacecraft is looking
7:00:45 good and that the power aboard is good as well.
7:00:48 All setting us up in a proper position before eclipse.
7:02:31 crew is in a little break during our flyby coverage for today.
7:02:36 They uh will resume their flyby momentarily in about 30
7:02:40 minutes once they get into their observations during that solar eclipse.
7:02:44 Now, the moon is our nearest celestial neighbor,
7:02:47 orbiting Earth at less than a quarter of a million miles on average.
7:02:51 When our when our astronauts venture there for future Artemis missions,
7:02:54 they'll target landing sites near the lunar south pole.
7:02:57 There, ancient rocks, minerals,
7:02:59 and trapped water ice will not only provide resources for human explorers,
7:03:03 but they may also contain clues to the formation
7:03:06 and evolution of our planet and the solar system.
7:03:09 Let's learn more about the lunar south pole with this video featuring Dr.
7:03:12 Kelsey Young, Aremis science flight operations lead.
7:03:18 We learned a lot from the Apollo samples,
7:03:20 but we still have a lot left to learn about the moon.
7:03:23 The Apollo missions visited only a pretty narrow swath of the moon.
7:03:28 All the missions were concentrated near the near side equator.
7:03:31 Really interesting and really critical insights
7:03:33 were unlocked with the Apollo samples,
7:03:35 but we have so many questions still to answer
7:03:37 about the moon and the evolution of the moon.
7:03:41 and liftoff of Artemis 1.
7:03:44 We rise together back to the moon and beyond.
7:03:49 NASA's Aremis missions are NASA's plan to send
7:03:52 people to the surface of the moon.
7:03:54 We'll be sending people and roving assets
7:03:57 and scientific equipment to, among other things,
7:04:00 answer a lot of really compelling science questions.
7:04:02 Scientists have a lot to learn about the moon.
7:04:04 It's our nearest celestial neighbor here to Earth.
7:04:07 So, what the moon has experienced, we've experienced.
7:04:09 Except here on Earth, we have things like plate tectonics,
7:04:12 oceans, forests, people that erase the rock record.
7:04:15 Whereas on the moon,
7:04:16 that whole record of our planet's history of the moon's history is
7:04:19 just kind of waiting there at the surface for us to explore.
7:04:22 The south pole, which is where Artemis missions are going to target,
7:04:25 is specifically interesting for a couple key reasons.
7:04:28 We think there are volatiles at the south pole
7:04:30 of the moon that are not present near the equator.
7:04:32 things like water and water ice that are trapped
7:04:35 in the lunar regalith which basically just means lunar soil
7:04:37 that can easily become untrapped from that lunar regalith
7:04:41 and scientists can scoop up and study for return to earth.
7:04:44 The lunar soft pole is a really exciting scientific
7:04:47 target and it also comes with some challenges for operating.
7:04:50 For example, the lighting environment will change drastically within the course
7:04:54 of one mission and even over sometimes the course of one spacew walk.
7:04:58 So preparing the crew members,
7:05:00 preparing the hardware that we're sending to the moon
7:05:02 and preparing the mission control teams is really really important.
7:05:06 The South Pole Aken Basin is particularly exciting.
7:05:08 We think it's one of the oldest and largest impact basins in the solar system.
7:05:12 And if we can get the right rock from the South Pole
7:05:15 Aken Basin and bring it back to our labs here on Earth,
7:05:18 we can use that sample to constrain
7:05:20 the entire evolution of our solar system and really
7:05:22 understand the timing of how the moon
7:05:24 and our planet and the entire solar system evolved.
7:05:42 You're looking at a live view aboard
7:05:44 the Orion spacecraft of the Aremis 2 crew working
7:05:47 in the middle of one of their breaks or really
7:05:51 their only break today during this lunar flyby period.
7:05:55 Coming up next will be that solar eclipse.
7:06:20 Throughout the Artemis 2 mission and of course throughout today,
7:06:33 you've likely heard the crew being called with the name Eclipse or Integrity.
7:06:39 The Aremis 2 crew members named their Orion spacecraft
7:06:42 Integrity uh during a news conference September 24th, 2025.
7:06:48 The name integrity embodies the foundation of trust, respect, cander,
7:06:51 and humility across the crew and the many engineers,
7:06:54 technicians, scientists, planners, and dreamers required for mission success.
7:06:59 They said this name is also a nod
7:07:01 to the extensive integrated effort from the more than 300,000 spacecraft
7:07:06 components to the thousands of people across the world
7:07:10 that must come together to venture to the moon and back,
7:07:12 inspire the world, and set the course for a long-term presence at the moon.
7:07:17 The crew also said that integrity is rooted in a shared core value of NASA,
7:07:22 the AY's astronaut office, and the CSA, the Canadian Space Agency.
7:10:44 We are 5 days, 1 hour and 38 minutes mission elapsed time into Aremis 2.
7:10:52 In this view on the screen, you can see the crew starting to even look
7:10:55 through some photos that they may have captured today.
7:10:58 We really look forward to sharing these photos
7:11:01 with you as soon as we possibly can.
7:11:04 And the best way to uh keep up with those is to follow NASA on social media.
7:11:08 You can do so at NASA and for this mission specifically at NASA Artemis.
7:11:12 Yes.
7:11:33 Again, we are in a forward link loss
7:11:48 or forward link loss of signal with the crew,
7:11:50 meaning that we're not able to communicate or send
7:11:53 uh any commands to them right now as they were.
7:11:57 This is a uh tracked event that occurs at times,
7:12:00 but they could still provide communications down here to us.
7:12:04 And we are obviously still receiving their video and their data.
7:14:22 Houston Integrity in the Blind.
7:14:24 High priority pao activities on reads timeline are on PCD1
7:14:29 in a folder imagery for down link and then
7:14:33 high priority uh standby imagery for down link and then
7:14:38 lunar flyby for pao and then high priority pao.
7:14:42 Thank you.
7:16:09 This is Artemis mission control.
7:16:10 You heard Reed Wisman, commander of the Artemis 2 mission aboard Orion,
7:16:14 make a call in the blind.
7:16:16 This means he knows we cannot call back
7:16:19 and that he knows we may not receive his call.
7:16:21 However, we have good communications with the spacecraft.
7:16:24 uh they just cannot hear from us right now due to a forward link loss of signal.
7:16:29 Again, we were tracking that this would
7:16:31 occur and we will regain that momentarily.
7:16:37 But that call that came down from Wiseman mentioned some imagery.
7:16:41 So, we are very much looking forward
7:16:43 to getting pictures taken from the moon today.
7:16:46 Again, to see those images,
7:16:47 make sure you follow NASA on our social media at NASA and NASA Artemis.
7:18:22 The view on your screen right now is an animation.
7:18:25 This is called Arrow or Artemis realtime orbit website.
7:18:29 You can visit this for yourself at nasa.gov/ttrackreemis.
7:18:33 And you can watch as we continue to grow
7:18:36 closer to Earth and farther away from the moon.
7:18:41 It's all seemed to happen so fast so far.
7:18:44 And we're coming home on splashdown now in 3 days,
7:18:47 23 minutes, and 30 23 hours and 31 minutes.
7:23:10 This is Artemis mission control.
7:23:11 We are in a forward link loss with the spacecraft.
7:23:14 We're not able to send commands or communications to them right now.
7:23:17 However, they could send them to us and we do get spacecraft data.
7:23:21 This is tracked as we are on the deep space network.
7:23:25 Uh this is the network that we use to communicate with the spacecraft
7:23:28 now that we are so far from Earth, over 252,000 miles.
7:23:36 We are still in our lunar flyby coverage.
7:23:39 The crew still have a very important and very exciting flyby milestone
7:23:43 coming up when they will see a solar eclipse from the moon.
7:23:46 The first humans to ever do so.
7:23:56 Something we also have to consider when it comes
7:23:58 to our missions and launches um is space weather.
7:24:03 So since the Apollo 16 and 17 missions,
7:24:06 there were some solar eruptions near that time
7:24:08 frame that could have been dangerous to our explorers.
7:24:12 Over those 50 years since those storms, the data,
7:24:15 technology, and resources available to NASA have improved,
7:24:18 enabling advancements towards space weather forecasts and astronaut protection,
7:24:22 which is key to NASA's Aremis program to return astronauts to the moon.
7:24:36 Across our planet, billions of people depend
7:24:39 on the invisible networks that connect us to space.
7:24:44 Every day, those networks are at the mercy of our temperamental
7:24:48 sun and a space weather that it unleashes across our solar system.
7:24:53 That's why NASA's space weather program tracks
7:24:56 solar storms from the moment they erupt,
7:24:59 modeling their paths, anticipating their impacts,
7:25:03 and leading the research that the world's industries rely on.
7:25:08 NASA's space weather research and modeling is driven by the needs of society
7:25:13 and enables critical decisionmaking that equips
7:25:16 pilots to reroute around high radiation areas.
7:25:20 farmers to adjust GPS-based precision planting and harvesting plans
7:25:25 and power grid operators to mitigate the impacts of potential surges.
7:25:30 For those exploring other worlds, NASA provides 24/7 space weather monitoring
7:25:37 for Aremis crews at the moon and future Mars astronauts who may be exposed
7:25:41 to dangerous levels of radiation during solar storms.
7:25:46 Whether you're a pilot or a passenger, a farmer or a consumer,
7:25:51 a power grid operator or energy customer,
7:25:54 a satellite controller or GPS user, space weather impacts us all.
7:26:07 This is a live view from the Orion spacecraft on the Artemis 2 mission.
7:26:11 It's now been 5 days, 1 hour, and 54 minutes since we launched.
7:26:24 We are still in our flyby coverage and the crew is on a short break right
7:26:29 now as we have changed the attitude
7:26:31 of the spacecraft to help charge the batteries aboard.
7:26:34 We use the solar arrays to gather energy
7:26:36 from the sun and store it in the batteries.
7:26:38 That way when we are not in the sunlight,
7:26:40 we have those batteries to continue powering Orion.
7:26:44 Now, we're doing so because the Aremis astronauts are
7:26:47 about to experience a solar eclipse from their capsule.
7:26:50 And this is a solar eclipse that no one else on Earth will experience.
7:26:56 This eclipse is about 54 minutes.
7:26:59 And to the astronauts, it'll look a lot like a total solar eclipse on Earth,
7:27:02 except the moon is going to be huge compared to the sun,
7:27:06 unlike when you watch one on Earth.
7:27:07 Earth and the moon and the sun appear about the same size in the sky.
7:27:14 We're interested to learn if they see the outer
7:27:17 corona when the sun is fully obscured by the moon.
7:27:20 And because of how big the moon will be from their perspective,
7:27:23 the total phase of the eclipse will last nearly an hour.
7:27:27 The astronauts will see a partial solar eclipse.
7:27:30 As the moon covers and uncovers the sun, which is before and after totality.
7:27:34 So much like us on Earth,
7:27:36 they will have eclipse glasses so they can safely view that portion.
7:27:41 The astronauts will also be using cameras
7:27:42 to capture images of the corona during the eclipse.
7:27:52 There also may be some other planets visible during the eclipse,
7:27:55 including Venus, Saturn, Mars, and Mercury.
7:27:59 If they can identify what part of the sky they're looking at, this can
7:28:02 help train future Artemis astronauts on what part of the sky they're seeing.
7:28:06 This provides useful knowledge in challenging situations when they may need
7:28:09 to rely on that information instead
7:28:11 of instruments for navigation and orientation.
7:28:53 Confirmation from teams here in the ground
7:28:55 that we have reached the eclipse attitude,
7:28:58 meaning Orion is in the proper position to observe it.
7:29:11 The astronauts break during this observation period is now
7:29:14 over and we are resuming their lunar flyby observations.
7:29:18 The first of these is sunset.
7:29:21 This is the solar corona that we'll be looking for.
7:29:23 It's the outer atmosphere of the sun.
7:29:27 The science team is also interested in if the astronauts can see polar plumes.
7:29:31 These are thin streamers that project from the sun's north and south poles.
7:29:36 Additionally, they're interested in seeing if
7:29:38 the if the crew can witness coronal loops.
7:29:41 These are arcs close to the sun's surface.
7:29:44 And something else that we've previously mentioned is lunar dust.
7:29:47 This is dust from the moon that is lofted
7:29:50 above the lunar surface and illuminated by the sun.
7:29:53 It was reported visible by Apollo astronauts.
7:31:40 You're getting a live look from Orion
7:31:43 as the crew observes a solar eclipse from the moon.
7:31:47 Again, this solar eclipse is only visible to the crew on the spacecraft.
7:31:59 It's not visible to anybody on Earth.
7:32:02 The science team is interested in several
7:32:04 different targets for them during this time frame,
7:32:08 and we're personally looking forward to getting those images as well.
7:32:15 Again, during the beginning portion of this eclipse,
7:32:18 the astronauts will need to use eclipse glasses just
7:32:21 like we do from Earth to safely view it.
7:32:24 Once the moon has completely covered the sun,
7:32:27 they'll be able to take off those glasses for almost an hour.
7:32:31 Totality on Earth during a solar eclipse lasts only a couple of minutes.
7:32:35 So, this opportunity gives them a chance to look out into deep
7:32:38 space and to look into see if there are other planets nearby.
7:33:44 What you're seeing right now is the solar corona.
7:33:47 That's the outer atmosphere of the sun.
7:33:49 And the science team is very interested in any
7:33:52 images that the crew can capture of this.
7:33:56 They're hoping that they'll take pictures and describe the visibility, color,
7:34:00 and shape of the solar corona as a whole and its substructures,
7:34:03 those plumes and streamers.
7:34:45 science integrity in the blind.
7:34:47 Um, this is uh continues to be unreal.
7:34:52 the sun has gone behind the moon and the corona
7:34:57 is still visible and it's bright and it creates a halo
7:35:01 almost around the entire moon but when you get to the earth
7:35:03 side the earth shine is already shown I mean almost
7:35:06 you know seconds after uh the sun set behind the moon
7:35:11 uh you could see earth shine the earth is so bright
7:35:13 out there and the moon is just hanging in front
7:35:16 of us uh this uh black orb out in front of us,
7:35:22 in front of now, not the blackness,
7:35:23 but the gray that uh blends and drifts into the blackness.