The Balto/Togo theory of scientific development
acesounderglass.comCool name for the concept, and I think making it about dogs helps take the political angle out of it.
I think of this in terms of the 'great man' theory of history.
https://en.wikipedia.org/wiki/Great_man_theory
And feel that it's obvious that science works the same way, and we should focus on the "science from below" a lot more than we do.
Charles Fort talked about "Steam Engine Time" and it gets referenced in Discworld:
https://fancyclopedia.org/Steam_Engine_Time_(concept)
There's similarly the book that talks about all the 'genius' people that Einstien was surrounded by who we don't generally hear about, but I can't recall the name right now.
There's the concept of 'scenius':
https://www.wired.com/2008/06/scenius-or-comm/
And in music/art there's the concept of "The Secret to Creativity Is Knowing How to Hide Your Sources" which (appositely) is often mis-credited to Einstien.
Also https://en.wikipedia.org/wiki/Stigler%27s_law_of_eponymy
Basically, I don't think you can look seriously into anything and come away with thinking that one individual did it all themselves unless you are very prone to that conclusion. And it seems human's generally are prone to that bias.
Im oppossed to the great man theory. In my mind the better analog is a damn across a river. Knowledge piles up, that goes unexplained, the pressure on the explenation rises, strange "subvertive" theories gain traction bypassing the dogma, but still deformed by the shape of the dogma. Finally one break through is made and the whole of knowledge tears through the old dogma, taking material with it for the next "hold-up".
Inkremental research flourishes again, exploring every nook and crevice of the newly discovered basin.
How to get the personal that does the final break through? Hire exotic characters who are uninfluenced by societys dogmatic powers. Heretics, Insane Prophets and Grifters, force them to be days filled with the material, so it fills the subconcious. Finally add some dogmatic priests to the mix, stand clear of the explosion.
> Hire exotic characters who are uninfluenced by societys dogmatic powers.
Do you by any chance consider yourself one such? I hear this kind of rationalization a lot, almost always from people who feel that they themselves are candidates for the "misunderstood genius" role. It's a bit of cargo cult or selection bias (attributing outcomes to superficial and barely-related behavior), a bit egocentric, a bit misanthropic. What it's not is a formula for progress or innovation. Life is not an Ayn Rand novel, nor should we wish it to be.
A bit of "thinking outside the box" is certainly necessary for progress to occur, but that can be done in a collegial way - e.g. Feynman, most others involved in the Manhattan Project or early computing. Constantly deriding what others believe based on currently available evidence as "dogma" - five times in three short paragraphs, for example - is a huge red flag that something other than genius is at play.
If asked to qualify my own character, i would put myself firmly in the over adapted niche. I think society is no longer capable to integrate "characters" into institutions. A endless process of social justice, persecuting the insufferable and market forces promoting finacial gaming of systems see to that.
If you want to find out what i mean, take some biographs of break through characters and find out, when today there ability to inflict change would actually end.
Would they be kicked out of school, university, the first job. Somebody as charismatic as feynman, would be a scandalous figure in todays scientific community.
What is your explenation for the great stagnation? We have 8 billion people, 3 billion of whom could engage, even if just in there spare time (as many researchers did and started out in the past) in science. Break-Throughs and Future shock should be hammering down on the hour every hour.
Instead we have todays society, with a world in crisis falling back to historic means (coal powered energy) to keep a untenable situation stable a little longer. Its really hard, to see todays institutions & companys not as utter failures in regards to enabling progress, yes even roadblocks to it.
Love your analogy! Very visual. Makes sense, too. "Stand clear of the explosion," lol!
For science specifically, the distinction is also known as the Newton vs. Ortega hypothesis.
I think the Newton - Ortega distinction is slightly different. Maybe it coincides with the Balto-Togo metaphor to some extent, but I think part of why the Balto-Togo metaphor resonates with people here is because it recognizes the role of the citers as well as the cited.
Your mention of the Newton-Ortega distinction is the first I've heard of it by those names, so I'm not entirely familiar with its scope, but in reading the Wikipedia entry it seems to assume the contributions of the scientists in question are somehow known, and it's a matter of "does science progress with lots of little contributions or a few big contributions?"
You can turn this on its head though, and suggest that "contribution" really means "discussion in the literature" which is a property of the citers and not the cited. So, if say, a Newton comes along and has a brilliant discovery, but no one understands it or it goes into the wrong outlet and isn't read, then there will be no impact. Conversely, though, if something comes along and there's a rush of recognition of a concept, and someone publishes it first, is that because this "big innovation" was associated with that first publisher, or because the readers all had the same collective idea, and they're just citing the first to goal?
The issue is that scientific development is not actually a property of the discoverer -- the discovery is necessary but not sufficient -- and the "size" of a discovery and who makes that discovery aren't really the same thing either.
I think that e.g., (1) finding that science progresses in big leaps rather than small steps, and that (2) there is a "first post" phenomenon doesn't mean that the big leaps are necessarily due to the first poster.
My personal experience is that all of this bibliometric research is a little distorted because so much rapid change in process has happened even in the last 20 years, and much of what actually happens in science and scientific credit is much more complex than bibliometric models allow. It's difficult to study big versus small contributions accurately when political maneuvering and social dynamics is such a big part of what happens.
It's interesting to think about, in any event.
This is true not just for science, but for engineering. The Wright Brothers did some fabulous engineering work and documented their work thoroughly, and none of the other claimants to first flying are nearly as well documented, but let's say that some day conclusive proof turned up that someone else built a heavier than air flying machine that did get into the air and was somewhat controllable before the Wright's did it on December 17th, 1903 at Kittyhawk.
But whomever that was, was necessarily a dead-end- they inspired no one to build and no improvements came from their work. It was the Wright's work in 1905-7 with their demonstration pilots doing their airshow flying in their Model A's- that was what inspired thousands of other people to get into flying, into building airplanes, and into aerodynamic research and led to the rapid improvement (65 years and one day between Kittyhawk and Apollo 8 leaving Earth to orbit the moon). So even though we trace flying to the 1903 Wright Flyer, it is really the Flyer III and the Model A in 1904-6 that we trace all modern airplanes to. Therefore, it was what the Wright's did in 1906 that makes their flight in 1903 matter. But in a lot of cases those two steps were different people- someone makes the very first, another person or team makes the first practical one you can sell. And so who is more important?
Hardly, unless the Wrights also inspired development of the Time Machine that allowed Prandtl to found the first aerodynamics research lab in 1904, or Lilienthal’s studies on the aerodynamics of stork wings, that he used to build and fly his own heavier-than-air gliders with, which the Wrights heavily relied on.
Many countries (UK, Brazil, France, etc) had similar local flying heroes that inspired advances in those countries. Your view is simply US-biased.
While we are definitely back to the core question of "Great Man or inevitable progress of history" that characterizes the entirety of this discipline, I think that there are some key differences between what the Wright's were doing and everyone else. They were very open about how Lilenthal inspired them, but he was moving down a very different direction (trying to apply power through moving the wings, rather than propellers). Octave Chanute, the French-American engineer, was a critical node through which many of these early aerodynamic engineers communicated, serving the role that modern conferences and papers hold in sharing knowledge among all the people interested in a topic- including with the Wrights. But the Wrights still hold an important position in the birth of the airplane.
In particular, the Wrights found that their 1900 and 1901 gliders did not behave the way their math said they should, they spent 1902 recalculating from scratch all of the constant values that they had based their work on. They discovered that one number, Smeaton's Coefficient, a measure of the density of air, was wrong by about 40% (their value is correct to <1%, as best we can tell today). With the correct values, they built their 1902 glider, which behaved exactly as their math said it would, and laid the way for their 1903 Flyer. Again, even the 1903 Wright Flyer was pretty lame, but it took this entire lengthy process to get there, and the Wright's were the largely the ones pushing the envelope through this process. Other people would have, in the course of time, corrected Smeaton's coefficient, and then gone on to build the first airplane and the first one effective enough to be sold. But it is also true that the Wright's did all three of those achievements themselves, in the course of less than a decade.
Then, once their work was published and popularized, lots of people like Santos Dumont were inspired by them- he openly admitted that he built his first heavier-than-air flying machine based on pictures of a Wright plane. The French in particular quickly surpassed the work of the Wright's: Wright Co. was best in the world up to 1908 or so, and then got passed fast, mostly by the French, such that the US aircraft industry was far behind by the middle of World War One. Which is why English uses terms like fuselage and canard and monocoque for key parts of aeronautical engineering. The Wright Brothers were one link in a great chain connecting the first recorded stories of people flying- say, the legend of King Etana of Kish- to the modern commercial airliner. They weren't the only link, and they never claimed to be, but they were incredibly important ones. Were they irreplaceable in that chain? Well probably not. But in our actual history, their link was one of the biggest and most important.
I just last night watched a mini-documentary on the origins of calculus in the work of Newton and Leibnitz, focusing specifically on how they came to be interested in the idea and their very earliest thoughts on it, often quoting directly from their notebooks.
The doc is on Youtube here: https://youtu.be/ObPg3ki9GOI
It was very clear that Newton in particular was building incrementally on work that other mathematicians had done before him. Leibniz was also making incremental improvements, but was apparently somewhat more visionary in his work. The Youtube comments are also interesting, including anecdotes of ancient Egyptian land surveyors using the same "sum of lines" technique (what Leibniz generalized into our modern antiderivative) in order estimate the areas of unevenly-shaped land plots along waterways for taxation.
Leibniz in particular was fascinating because it shows the incrementality of science continuing after him as well. Apparently Leibniz had built several computing machines, 150 years before Babbage, and was deliberately trying to work towards general and abstract paradigms for solving mathematical problems, 300 years before Hilbert, Church, Gödel, and Turing!
I've been thinking about something similar. Maybe somebody can shoot it down.
For many achievements, most credit belongs to the role, not the person. In other words, the counterfactual of "if we didn't all agree that somebody will do this" would better prevent the achievement than "if one specific person didn't have their talent." We have phrases like "the time is ripe" because we know this. When conditions are in place, things happen.
The person in the role is who society has given the permission and the means to do the thing, whose doing of the thing is accepted and even expected, so it's mostly unremarkable when that specific person is the one who does it. That's who we supported in getting it done.
No one is surprised when every major fire was put out by firefighters, every touchdown pass was thrown by the quarterback, or every US law was passed by Congress and signed by the President.
Maybe Alice is uniquely qualified to be the president, and President Bob is a stooge. He's still the one to sign the law, though, and the law still gets signed. No amount of merit Alice has can change this. Society has still arranged itself to have a person in this role and Bob is just the person.
The arrangement (and the unavoidable path-dependence of history) is what magnifies the tiny contribution of the individual's abilities and makes them seem so necessary to the outcome. Given the prerequisites we've hidden in the role are met, the individual is all that's left.
Newton was a genius who invented calculus—but so did Leibniz. Einstein was a genius who invented relativity, but arguably so did others whose work we lump in with his; it makes a better story. They all had social institutions to support them achieving whatever they could. Their ability to get it done provided that support was clearly not unique.
It's more important that the roles to do the work have people in them, the conditions are in place for someone to do it, than exactly who is in which role.
I agree with you about all of this, but I have one problem:
Does this mean no more awards? Like, will the Nobel prize always go "to the institution" that made the discovery? Should biographies be titled POTUS: Period X-Y?
You see what I mean? Part of why we attach credit to people, is because people are inherently interesting. Institutions are inherently boring, and supposed to be. Storytelling is maybe not as important as the actual achievement, but it's not nothing either. No child will ever want to grow up to be a nameless crank of the system.
I generally agree but one of your examples is in fact a counter-example -- the president and particular congress people tend to matter, as lawmaking is rarely the average of voter preferences. Does a median replacement president to Obama pass healthcare? Does a median LBJ manage to wheel and deal the Civil Rights Act? A Trump that just wanted to pass agendas instead of infighting would've done 5x more for republican priorities.
Certainly those people worked with a groundswell, but it took their extreme individual interests (or lack thereof) to determine those big outcomes.
I think this is generally true across congress too -- stuff that just happens to have a powerful champion goes far, other equally popular issues languish. My wife works in hospice policy and the selection of members who just happen to have had a good (or bad!) experience with a family member in hospice really changes which bills happen.
I think this is one of the least understood elements of technological advancement. We tend to think of it as linear, but often, the major visible breakthroughs are dependent on a whole bunch of less glamorous advancements being brought together.
The game Civilization was really great at representing this. Tech advancement is a DAG, rather than a chain or a tree. Reality is like this, but much, much more granular.
For instance, I'm acquainted with the inventor of the electret microphone. I'm sure that mic brought together a whole bunch of advancements, and once I was aware that miniaturizing microphones was nontrivial, it became clear that, for example, pocketable cell phones would not exist if not for tiny microphones.
I see this disconnect all the time in how we think about technology, and which innovations actually lead to major cultural changes. We get wowed by impressive inventions, like blockchain, but to date, it is largely not penetrating society outside of its own expanding hype bubbles. It's pretty clear to me that blockchain is not, of itself, transformative. Nor is it the final link in enabling a society-changing breakthrough. The question I'd ask is whether that's because other boring adjacent developments are missing? Or is it a relative dead end? I'm picking on blockchain, but a lot of other innovations could be chosen here.
In trying to predict the socio-technological future, it is important to become attuned to the boring, enabling technologies. And if I were an investor, I would also have to understand whether the economics of a potential enabling technology are attractive for achieving returns. I think of all the fiber that was laid in the 90s. Investors were right that it would eventually become really important, but they wrong that it would be lucrative for them to invest in.
A great example of this is the Sagnac Effect. In 1913, French Physicist Georges Sagnac built a circular interferomter and found interference bands. He thought that this disproved Relativity and showed that an aether existed, but it turned out that German Physicist Max von Laue had predicted the existence of those interference bands under relativity two years earlier, so 10 points for Einstein. (Note that the named credit for the effect went to the experimental physicist who found it, even with a wrong theory, rather than the theoretical physicist who worked earlier and correctly predicted it.)
For the next 50 years Sagnac interferometery was a dead end, a minor curiosity in the history of physics. Then in 1963, Macek and Davis at the Sperry Gyroscope Co. figured out how to build this in a laboratory environment with the recently invented lasers. The coherent beam of a laser unlocked the usefulness of the Sagnac effect. Meaning that just another 30-odd years of work by hundreds of people around the world got to a situation where fiber-optic gyros are superior to mechanical gyroscopes and capable of things that mechanical gyros could never do. But all sorts of things with scary names like "anti-Shupe winding" had to be invented and then perfected to get these fiber-optic gyros to be so good, and that was the result of many people, who probably all knew each other through the conference circuit and in meetings, sharing ideas and then improving on each other's ideas. So who gets the credit for the Fiber-Optic gyros? Sagnac? Laue? Macek and Davis? Shupe? What about Ring-Laser, which is different in engineering but also based on Sagnac interferometry?
So, the Sagnac effect itself was worth nothing, and for a long time afterwards was just something that a few scientists even knew about. But a century later- and with the hard work of hundreds to thousands more people- the world depends on it.
In an alternate dimension, I got a Ph.D in this sort of stuff- I am truly fascinated by it. But I decided to try and be one of the engineers today rather than documenting what the engineers of the past did.
> I was pretty sure Alfred Wegener (...) is a Balto.
> Jasen would go so far as to argue that [some difficult achievements] makes [Wegener] the Togo
The more apt conclusion from the article is probably that the Balto/Togo theory simply isn't as good a model for the scientific discovery process as the author was hoping.
I think you have to read it more as a story than a theory, and also that the conclusion is more subtle.
My takeway is not that Togo is a better choice for the hero than Balto, it's that there is no correct choice. Balto, Togo, and a lot of other dogs were part of a group effort. Balto became the mascot. But humans need a simple story, so they confuse a mascot with a hero.
America is named like that because someone named Amerigo claimed columbus was wrong in thinking he was in India. People had to name it something, so they shortened 'Amerigo's continent' to America. Was he worthy to name a whole continent? Probably not, but still he has a continent named after him.
Ok, but that should just make us further question whether the Balto/Togo story really has anything in common with the history of tectonics. There isn't a clear obvious hero and a hidden hero (both of whom somewhat undeservedly singled out from the group effort), there's just one well-known name, and it's not even clear which of the two characters he'd correspond to.
I agree that the Balto/Togo story doesn't fit quite so neatly into the Wegener story, but I also think the article brings up a good broader point that credit is often given to people/dogs that seem undeserving when you dig a little deeper.
It is, and the phenomenon has a name already: c7b's law "every scientific discovery is named after the wrong person" (yes, that is the correct way to name it: https://en.wikipedia.org/wiki/Stigler%27s_law_of_eponymy)
Annoying as it may be, this situation is somewhat ubiquitous in the history of human knowledge.
Transistors were invented by Lilienfeld, yet everyone knows about the work of Bardeen et al. at Bell Labs. Einstein in relativity is the Balto of Lorentz-Poincare, which is why his Nobel prize mentioned the photoelectric effect and not relativity.
Simple formulas of scientific credit tend to stick better; the path of scientific progress is usually anything but. This is ok. The main thing is the knowledge itself, not who came up with it after all.
And yet it is very frustrating!
> Einstein in relativity is the Balto of Lorentz-Poincare, which is why his Nobel prize mentioned the photoelectric effect and not relativity.
That doesn’t add up because there was no Nobel prize at all for relativity to anyone. Searching online the consensus seems to be a mix of things:
* general confusion that his photoelectric Nobel was for relativity.
* the experimental proof of relativity came at a time when anti-semitism was on the rise and so there was enough of a fig leaf of “there’s disagreement / dispute of it being proven”.
* Einstein didn’t attend the ceremony because of a prescheduled lecture tour in Japan (But also possibly because of a fear for personal safety as his name was on a hit list by the perpetrators of a successful assassination). This made it seem like he snubbed the prize committee (which maybe he also did because he probably should have had 3 Nobels for all his contributions and felt like that prize wasn’t handed out on merit).
Certainly by 1945 special relativity was proven as otherwise there wouldn’t be an atomic bomb and yet still no Nobel for anyone.
I was taught (in the 1980s) that the reason didn't win the NP for Relativity was because it was so controversial at the time and it took decades to be fully accepted.
See: Stigler's Law, and Boyer's law.
This reminds me of the "second mover advantage". Time after time, it seems that the first company that comes up with a new idea and/or does the most to educate people about it will not be the same one to benefit most from it. Either bigger companies crush them (sometimes followed by showing up first at the resulting fire sale) or other companies of any size lap them by taking advantage of the related second-system effect. Since transistors have already been mentioned, both Shockley/Fairchild and Fairchild/Intel could be considered examples. Others could cite Edison copying ideas from any of Tesla, Swan, or Volta. The Wright Brothers could be put on either side of the equation, at different times.
Also, this:
> One difficulty is it’s hard to distinguish “ahead of their time beacon shining” from “lucky idiot”
The world is full of lucky idiots who are continually attaching themselves to one "contrarian" idea after another, in hopes that they can claim primacy after somebody else does the hard work of developing or popularizing it. No shortage of them here, for example. It's a gamble, betting that others will ignore or forget the more numerous (and sometimes even harmful) misses accumulated in the process. The world could do with a lot less of that, TBH. There are already more credible theories than people with the knowledge and patience to explore them properly.
Since I was completely unaware of the incident:
This part seemed a little more significant than maybe the author recognized:
"Jasen would go so far as to argue that shining a beacon in unknown territory that inspires explorers to look for treasure in the right place makes you the Togo, racing through fractured ice rapids social ridicule and self-doubt to do the real work of getting an idea considered at all."
It was in the discussion of Wegener, which muddies the waters a bit, but that "explorer" role leads to a lot of selection bias in science. That is, that "social ridicule" can be extended pretty far to "career ends" or "ostracism" so you end up in a situation where it's not just that people doing that work get less credit, it's that they might be driven out even when they were on the right path.
There's lots of examples of this with the pandemic. E.g.:
https://www.nbcnews.com/health/health-care/scientists-were-c...
Ah, the disrespect of my great-great-uncle's dog Balto! Though to be fair Togo was great, but Balto did amazing as well.
https://en.wikipedia.org/wiki/Gunnar_Kaasen#Last_leg_of_the_...
> The worldwide publicity the event received helped spur widespread diphtheria inoculations, which greatly reduced [yearly deaths].
Seems we messed up by not getting dogs involved in covid vaccine delivery.
In the interest of pedantry, wasn't Balto made by Amblin Entertainment, not Disney?
So confused, did the author watch a different movie maybe?
> Disney later made a movie about him that makes no mention of Balto for the first 90%
The character appears at the 5 minute mark!
Maybe it's one of those things that they saw 20+ years ago and barely remembers it, and didn't bother looking anything up?
I'm certainly guilty of doing that, so I can't judge.