The Volokh Conspiracy blog has finally made the move behind the Washington Post paywall, and that led to an interesting comment on Twitter by conspirator Orin Kerr about the change in audience from being an independent blog to being part of a major media outlet:
I think we’ve gained some and lost some. I’m worried we lost the law nerds and gained general interest readers.
As Roger Ford adds,
Skimming down the site now, it sort of reads like “Eugene Volokh explains the legal news for lay readers.”
The original Volokh Conspiracy site had long been a source of intelligent discussions about legal theory, but with its new larger and more varied readership, it has apparently become less focused. Scott Greenfield at Simple Justice explained the change in more detail:
Forgive me for digressing, but my thoughts are best expressed with some context. While VC historically highlighted legal scholarship from a somewhat conservative libertarian perspective, it did so with a touch of realism, in connection to real world events, that made it relevant to what practicing lawyers do, as well as judges who decide such matters. VC was the nexus between theory and practice.
SJ is written from the criminal defense lawyer perspective, which meant that it tended to be too rough and vulgar for academics. From my perspective, the critical audience was fellow CDLs; that others, from lawprofs to civil lawyers to non-lawyers, didn’t really matter. To the extent I was concerned about other people’s views, it was the views of my colleagues, my brethren.
That VC has abandoned its effort to connect academic theory, even with its libertarian tilt, with real world practice, and instead sees its future as persuading the groundlings to embrace its theories, makes no sense to me at all.
Does that mean the ridiculous drivel dished out by Paul Cassell will be the norm? Does that mean Eugene will no longer offer First Amendment analysis of any depth? Does that mean Orin will only use small words and abandon trying to explain the mosaic theory?
That’s a common area of tension that shows up in many fields, including the sciences: There are people who are important in their field, and there are people who are experts at explaining their field. There’s not much overlap.
Some of the explainers achieve a degree of fame, but when you look at their scientific contributions, they haven’t usually made major contributions to their field. Carl Sagan was not one of the world’s greatest astronomers, and Neil deGrasse Tyson is not one of the great astrophysicists. Much the same can be said of Richard Dawkins and Steven Pinker in their fields, and Bill Nye The Science Guy is more of an engineer and inventor than a scientist.
I’m not saying these people are idiots or fakes. I’m sure they all did their jobs very well, and they’ve usually contributed something original to their fields, and all of them by definition are good at science education of some kind. Nevertheless, they usually aren’t among the top experts in their fields in the opinions of other experts in their fields.
The real experts are rarely well known to the public. Except for major historic figures like Isaac Newton or Charles Darwin, most of us wouldn’t recognize the names of important research scientists unless they have stuff named after them like Heinrich Hertz and Alessandro Volta or because they have entered popular culture, such as Erwin Schrödinger, known for his cat, and Werner Heisenberg, known for his uncertainty principle (and now for also cooking crystal meth). In their time, however, they weren’t well known to the public.
(Because the major contributors to scientific fields are generally not known to the public, I’m pretty much guaranteed to have characterized someone as an explainer rather than a major contributor because I am unaware of their important contributions to a field other than my own. Sorry.)
By way of example, my background is in computer science, and I think I can come up with a few very important contributors to computer science that you probably never heard of, such as Edsger Dijkstra, Donald Knuth, C.A.R. Hoare, Fred Brooks, Grace Hopper, and Niklaus Wirth. You probably know Noam Chomsky, but for his politics rather than for his influence on computer science, and everyone seems to have heard of the Turing Test for artificial intelligence, but that was not Alan Turing’s most important contribution to computer science.
The division between contributors and explainers often occurs within academia, in the split between teaching and research. Economist Steven Landsburg illustrated the difference between these groups by analogy to a cocktail party involving two groups of people: The researchers are like a group of people in the center who are talking to each other about all the interesting things they do, whereas the educators are are all standing around the edges, talking about what the group in the center has been up to. (I may have mangled this a bit.)
Landsburg asked readers which group they’d rather talk to: The interesting people in the center or the people at the edges who talk about what the folks in the center are doing. To him, the answer obvious answer was that you’ll want to talk to the people in the center, and that’s why students are better off joining academic departments that do research.
I think that misses an important point: Talking to the group in the center is only the best choice if you can understand what the people in the center are talking about. A student new to the field is unlikely to benefit from discussions that assume half a decade of education in the field. More to the point, there’s a difference between understanding complicated subjects, and knowing how to break down complicated subjects into simplified component bits of knowledge that can be taught to students.
One of my introductory calculus classes was taught by a professor who was one of the most important researchers in the math department. It was a terrible class. I have no doubt he understood the subject, but he had no idea of what it was like to not understand calculus, and he was consequently incapable of explaining it to us. Rather than using carefully crafted examples to illustrate how calculus works, he would make up ad hoc problems that required us to spend a lot of time thinking about ancillary issues. The homework problems would be straight out of the lesson plan, which was not always what he had been teaching us. The disconnect was especially bad on the test questions — I’m convinced that some of them required us to know things he didn’t realize he hadn’t taught us yet.
There’s also the question of whether the people in the center will be willing to talk to people who know very little about the subject. After all, they also want to learn the cool new stuff, and that means they have little time for newcomers who can teach them nothing interesting. Serious research professors are known for having crappy office hours.
Switching back to my own field, software development, as an experienced software engineer, I would probably have trouble figuring out how to teach an introductory course in computer programming. For example, when I approach a programming problem, I might think about many aspects of it at once — algorithmic correctness, efficiency, resource consumption, parallel processing, network traffic, database architecture, interface design, scalability, generalizability, separation of concerns, layering, composability, opportunities for refactoring, testability, and so on. I’m not trying to brag. Those are all things that pretty much any experienced software engineer will keep in mind, and they are things that all developers should learn about.
However, it would be a mistake to try to teach someone computer programming from the ground up by teaching them about all those things at the same time. A good teacher would probably start with some foundational skills such as expressions, control structures, and basic class design before moving on to details of the language and the runtime library and then some of the bigger-picture organizational concepts.
Every field needs both kinds of members — those who do it well, and those who explain it well. Those who do it well sometimes look down on those who teach it, especially since the teachers often lack the detailed knowledge of the practitioners, and they often make mistakes. These errors and omissions are a problem, and they should be corrected, but when it comes to teaching a field of knowledge, a skilled teacher who gets some parts wrong can still impart more information to an audience than a skilled practitioner who knows everything but doesn’t know how to explain it.
For example, in discussing the weather, we refer to the relative humidity of the air. The basic idea is that air has a temperature-dependent maximum capacity for moisture — the higher the temperature, the more water the air can hold — and relative humidity expresses how much water is in the air as a percentage of the maximum theoretical capacity.
This concept explains thinks like why items in the refrigerator frost over when you leave the door open — the warm room air cools down, which reduces the water carrying capacity below the amount of water already in the air, forcing the excess water vapor to be deposited as “sweat.” This is also why air conditioners always have to drain off water: The suddenly cooled air can’t hold the water and deposits it on the evaporator coils.
This model also explains why we run humidifiers in winter — your furnace warms the air, which increases it’s water vapor carrying capacity, but your furnace doesn’t actually add water to the air. Since relative humidity is the amount of water vapor in the air divided by the maximum capacity, and only the capacity is increased, your furnace reduces the relative humidity of the air, and it feels too dry. A humidifier adds water vapor to bring the relative humidity back up to comfortable levels.
Further, the human body’s cooling system relies on sweat evaporating from the skin to carry off heat, but if the air is already near its carrying capacity, there’s no “room” for the sweat to evaporate, so your body doesn’t cool enough. This is why dry heat is more comfortable than hot and humid weather. It’s also why we set out thermostats warmer in winter than in summer: The heated air is drier, so evaporative cooling makes us feel chilly unless we bump the temperature up a bit.
This “carrying capacity” model of humidity is widely known, it makes sense of a lot of things we observe about the world, and it is routinely taught by school teachers. And yet it is almost completely wrong. The real explanation of what’s going on is considerably more complex and harder to understand, unless you are used to thinking about systems in equilibrium and know some basic physics of gases.
To be sure, the correct explanation is much better. It can be expressed analytically, and you can use it to solve real-world engineering problems, where it will give accurate answers across a broad range of scenarios. And yet most people can get by with the simple but wrong explanation, because it’s good enough. And in this case, good enough is easier to teach.
Understand, I’m not defending teaching people things that are wrong. That’s always a bad outcome, and in fields like medicine or law, it can be dangerous. What I’m saying is that often someone who’s good at explaining things can be a better educator, even if they make some mistakes, than someone who gets everything right, but can’t get it across to anyone else.
And sometimes it’s not so much that they can’t explain it as that they won’t explain it or they don’t have the time to explain it. We can complain about some of the questionable neuroscience in Carl Sagan’s Dragons of Eden, but most real neuroscientists are busy doing real neuroscience, and they don’t have time to answer your questions or write a popular science book. We can poke fun at law professors who reveal their lack of practical knowledge when they go on talk shows, but most experienced trial lawyers are too busy practicing law to answer questions about the latest trial in the news. In both cases, as long as they don’t actively make people stupider, we’re better off with them than without them.
As for the Volokh Conspiracy, I don’t read enough there to follow what’s going on, but if they are changing their target audience from “law nerds” to general interest readers, that’s going to disappoint the nerds, but maybe it will bring a smarter, more rigorous explanation of the law to lay readers.
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