What Happens When Science Clashes with the Public?: Crash Course Scientific Thinking #7
CrashCourse
0:00 Smoking causes cancer.
0:01 I know that, you know that, and the tobacco industry definitely knows that.
0:05 But not all that long ago,
0:07 you couldn't even watch Saturday morning cartoons without being
0:10 bombarded with messages that cigarettes aren't that bad for you.
0:14 Tobacco companies ran ads in magazines and periodicals
0:17 saying that numerous scientists question smoking's risks,
0:21 that there are many possible causes of lung cancer,
0:24 and that there's no proof cigarette smoking is one of them.
0:26 So, if you had been there, how would you have figured out what was true?
0:31 Hi, I'm Hank Green, and this is Crash Course Scientific Thinking.
0:39 Before scientific knowledge reaches people like you and me,
0:42 it takes a long arduous journey,
0:44 and big stretches of it are dedicated to collecting,
0:47 testing, and scrutinizing empirical evidence.
0:50 Information collected through rigorous scientific methods
0:53 that either support or refute an idea.
0:56 The vast majority of scientific progress hums along quietly,
1:00 its evidence becoming widely accepted without much hullabaloo.
1:03 You won't hear pundits debate whether carbon has six protons,
1:07 and there won't be dramatic headlines about the mating behavior of sea slugs.
1:11 Though I, for one, definitely would and do read those articles.
1:14 But here's the thing,
1:15 sometimes science produces a nugget of knowledge that resists the status quo.
1:21 It challenges an economic system, or a hierarchy,
1:23 or a choice people make in their lives.
1:26 And when it lands with the public, tensions can flare.
1:30 Which is what happened in 1964 with smoking.
1:33 So, in this episode, we're going to do two things.
1:35 First, we'll peel back the curtain on how the scientific
1:38 process pieced together evidence about the risks of smoking,
1:42 and then we'll unpack why that knowledge got so much pushback,
1:46 and what we can learn from the tale
1:48 about the public consumption of science news.
1:54 At the beginning of the 20th century, lung cancer was so rare doctors treated
1:58 cases of it like once-in-a-lifetime learning opportunities.
2:01 But then in the 1920s and 30s, lung cancer rates started to spike
2:06 and scientists began working to figure out why.
2:09 There were a lot of early ideas about the possible cause.
2:12 Maybe it was atmospheric pollution or newly paved roads.
2:15 Maybe it was x-rays,
2:17 poison gas from World War I or the aftereffects of the 1918 flu pandemic.
2:21 Those were all correlations,
2:23 but as we learned in an earlier episode correlation doesn't mean causation.
2:27 So over two decades,
2:28 scientists tested different explanations and shared the results with each other.
2:32 Each study was like a pebble added to a pile of evidence.
2:36 Scientists had to weigh that evidence by examining
2:39 each study skeptically and asking things like, "How well was the study designed?
2:43 Did it find a strong or weak relationship to lung cancer?
2:47 And how directly did the methods actually get
2:50 at the question they were trying to answer?" For some explanations,
2:53 no evidence emerged.
2:55 You're off the hook, flu.
2:56 But eventually, four main lines of evidence pointed to one suspect.
3:01 Exhibit A, observational studies which had
3:03 followed groups of people over a period of time showed that smokers developed
3:08 lung cancer at higher rates than non-smokers.
3:11 But there were other factors in people's
3:13 lives that could be affecting cancer rates,
3:15 so these studies alone weren't enough.
3:17 Enter exhibit B, experimental studies were done on mice because you can
3:21 better control conditions in a lab and mice exposed to tobacco developed tumors.
3:27 But how?
3:28 What actually happens when lungs are exposed to smoke?
3:31 Exhibit C, further studies showed that cigarette smoke destroys cilia,
3:36 the tiny structures in lungs that keep out bad stuff.
3:40 And finally, exhibit D,
3:42 tobacco smoke itself contains a chemical compound that was previously
3:45 shown to cause cancer in people exposed to coal tar.
3:49 All that evidence, when weighed collectively, began to tip the scales.
3:53 By the late 1950s, scientists had reached a consensus,
3:57 widespread agreement given all of the evidence
3:59 that smoking was the leading cause of lung cancer.
4:02 So, in 1964, the US Surgeon General, himself a smoker,
4:07 announced to reporters that cigarettes cause lung cancer.
4:10 But for the public, that message got drowned out by a lot of noise.
4:15 So, let's rewind the tape and this time,
4:17 let's look at what was going on in the public view.
4:20 Even in the 1930s, people suspected smoking wasn't exactly great for you,
4:25 but tobacco companies worked to stay ahead of the narrative,
4:28 boasting that their cigarettes were healthier,
4:31 safer, gentler, fresh as mountain air.
4:37 The RJ Reynolds Tobacco Company ran ads citing studies
4:41 that claimed more doctors smoke Camels than any other cigarette.
4:44 And you want to know how they got that statistic?
4:46 By giving doctors free Camel cigarettes and then
4:50 asking them what kind of cigarettes they smoked.
4:52 I mean, come on.
4:54 By the 1950s, tobacco companies knew about the mounting scientific evidence,
4:58 but they were still invested in selling their product,
5:01 so they changed the message.
5:03 Instead of our cigarettes are better for you,
5:05 the ads became we don't know yet if cigarettes are bad for you.
5:09 And by doing so, they manufactured a controversy that didn't actually exist.
5:14 This is where things get wild.
5:16 In 1954, a committee called the Tobacco Industry Research Committee,
5:19 which was formed by the tobacco companies,
5:22 released a statement claiming the link between smoking and lung
5:25 cancer wasn't settled and they would be researching the issue themselves.
5:29 These people would have thrived on social media.
5:32 This went on for decades, long after the scientific consensus had been settled.
5:36 The tobacco industry distracted from smoking's harms by funding
5:40 and publicizing research looking into alternative explanations for lung cancer.
5:45 They suppressed and criticized studies that found smoking was bad for you,
5:49 and all the while they publicly denied that smoking was risky or addictive,
5:53 and blasted ads that made cigarettes seem as enticing as possible.
5:57 They did all of this knowingly and strategically to keep making money.
6:01 A 1969 internal memo at the tobacco company Brown& Williamson stated,
6:06 "Doubt is our product, since it is the best means of competing with the body
6:10 of fact that exists in the mind of the general public.
6:13 It is also the means of establishing a controversy." Wow, they just said it.
6:18 And selling that doubt worked.
6:20 The tobacco industry preyed upon people's cognitive biases,
6:24 those predictable patterns our brains tend to take
6:27 that can sway us away from accepting valid information,
6:29 especially when it challenges something we already do or think.
6:33 The news that smoking causes cancer just didn't
6:36 vibe with a world where smoking was common,
6:38 widely accepted, and everybody did it.
6:41 Doctors, astronauts, movie stars.
6:43 Plus, cigarettes are highly addictive.
6:45 When you're addicted to something,
6:47 you pay more attention to reasons to keep doing that thing,
6:50 and the tobacco industry was willing to give smokers those reasons,
6:54 even though the reasons were made up.
6:56 They systematically attacked the widely accepted scientific explanation
7:00 in order to sow doubt among the public.
7:02 But here's what finally turned the tide against smoking.
7:05 In the 1990s, scientists uncovered evidence of exactly how cigarette
7:09 smoke can trigger a normal cell to become a cancerous cell.
7:13 Then, in 1998, a major settlement required the tobacco industry
7:17 to pay up billions of dollars for the damage they had caused.
7:20 The writing was on the wall,
7:22 but the tobacco industry still tried to spin the narrative.
7:25 The message this time,
7:26 they claimed they'd always been transparent about the risks of smoking,
7:31 and said that it had always been an individual's choice to take those risks,
7:35 which brings me to another common point
7:37 of tension that can make scientific knowledge seem controversial.
7:41 Sometimes, scientific knowledge clashes with people's values.
7:45 There's stuff science can tell us,
7:47 like the precise mechanism that causes a cell to become cancerous,
7:51 or how much smoking increases your individual risk of developing cancer.
7:55 But, science can't tell us what to do with that knowledge.
7:59 It's on us, as individuals and as societies,
8:02 to decide what to do now that we know what we know.
8:05 For example, in the early 2000s,
8:07 as the dangers of secondhand smoke became more widely smoking in public places.
8:14 Not everybody agreed with the move,
8:16 but the disagreement wasn't over the science,
8:18 it was about how that knowledge should mesh with the values.
8:22 What's more important?
8:23 A person's freedom to make their own choices with their own body,
8:26 or a person's freedom to protect their body
8:29 from the choices someone else is making?
8:31 Science can't answer those questions,
8:33 and I can't answer these questions for you.
8:35 So, you might be wondering, why did I even tell you all this?
8:38 You can think of the war over smoking as a kind of fable.
8:41 It's a story that can teach us something, like the tortoise and the hare,
8:44 or the boy who cried wolf, except it really happened.
8:47 And there are three lessons we can take away from this story
8:50 that can help us navigate the wilderness where science and public opinion meet.
8:54 First, follow the scientific consensus.
8:57 When a certain idea is backed by broad agreement among experts,
9:00 it is already cleared an extraordinarily high bar of skepticism.
9:03 I trust the experts for a reason.
9:05 Like, when I notice an electrical outlet is broken,
9:07 I could try to fix it myself, but I will at best spend much more time
9:11 and do a much shabbier job than an electrician would.
9:14 At worst, I'll look like this.
9:16 The same is true with science.
9:17 You'll have better information and get better
9:19 outcomes when you trust the process of science.
9:22 So, when there is scientific consensus, pay attention to it.
9:25 Second, when there isn't yet consensus,
9:28 we should be skeptical of science-related claims we encounter
9:31 and keep in mind that a single study doesn't settle anything.
9:35 The studies we do hear about, the ones that make headlines,
9:38 are the ones that have a surprising or attention-grabbing angle.
9:42 But a single study is just one pebble of evidence on the pile.
9:45 You should look to what other experts say about it
9:48 to understand how that study compares to the rest of the evidence,
9:52 and how much it actually changes what we know.
9:55 Third, in science, challenging or debating an idea has
9:58 a very different meaning than it often has in everyday life.
10:01 Even with a strong consensus,
10:02 not every scientist agrees on every detail of an issue.
10:06 But scientists don't hold evidence back or try to keep
10:10 other scientists from finding the flaws in their argument.
10:13 They put it all on the table.
10:15 They share everything they know, all of the evidence in good faith,
10:19 so that their ideas can be challenged well.
10:22 That's the whole point.
10:25 See, kids, you like arguing.
10:26 You can make a whole career of it.
10:28 Sage, I don't think you were scheduled for today.
10:30 I just had to say goodbye to the people, eh?
10:32 It's been a pleasure to have you along, Sage.
10:34 Oh, I'll be back.
10:37 Oh, is that a teaser?
10:38 Yeah, it might be.
10:39 Bye, people.
10:39 Hope you enjoyed your Sage advice.
10:42 Thanks, Sage.
10:43 There are times when scientific knowledge seems controversial to the public eye,
10:47 but actually isn't controversial among the experts who know it best.
10:50 That's why the argument that smoking causes
10:53 cancer wasn't just an opinion among other opinions.
10:56 Often, when a scientific idea sparks controversy among the public,
11:00 it's because it challenges our biases, our values, or powerful interests.
11:05 Scientific consensus is so impactful because
11:08 it happens independent of those external considerations.
11:12 And it's why science, the process,
11:14 is so powerful at helping us become less wrong over time.
11:19 As we wrap up this series, I'll leave you with this.
11:22 When we recognize how science really works, the world makes so much more sense.
11:27 We can be skeptical of individual studies,
11:29 yet place trust in the collective process.
11:32 We can appreciate the long journey an idea
11:34 takes before it becomes widely accepted knowledge,
11:37 yet be open to ideas changing with new evidence.
11:40 And we can know that if an idea is wrong,
11:43 there's a good chance scientists will find out.
11:47 From all of us here at CrashCourse, thanks for watching.
11:51 This episode of CrashCourse Scientific Thinking
11:52 was produced in partnership with HHMI BioInteractive,
11:56 bringing real science stories to thousands
11:58 of high school and undergraduate life science classrooms.
12:01 If you're a teacher, visit their website for resources that explore
12:04 the topics we discussed in the video today.
12:06 Thanks for watching this episode of CrashCourse Scientific Thinking,
12:09 which was filmed in Missoula,
12:10 Montana, and made with the help of all of these nice people.
12:12 If you'd like to help keep CrashCourse free for everyone forever,
12:15 you can join our community on Patreon.