A Paradigm Shift
My colleague and I have been talking in an inconclusive back-and-forth way about the subject of certainty, the revisability of scientific claims, the difference between in principle and in reality or in practice or in fact, transcendence, labeling, rhetoric, the difference between what can be imagined and what is a live possibility. We’ll talk about it further in a couple of days (well, three) when we’ll be able to do it with the useful accompaniment and assistance of gestures, grimaces, thrown objects, slaps, pinches, what my brother always called as he administered it to me an ‘Indian rope burn’ but which must be called something else now but I don’t know what, table-thumping, brow slapping, eye rolling, hair tearing, and food throwing. That is our rigorous and aerobic notion of collaboration. It has always been liberally laced with insults, taunts, mockery, and rude suggestions, and physical violence will be a welcome addition and enrichment of this tradition.
It comes up of course because of this book we’re writing, and because of thinking about the claims of people like Bloor and other Strong Programmistas. It’s impossible (naturally enough) to think about such claims without thinking about epistemology, and of course it’s impossible to think about epistemology without immediately getting lost in a bog of Yes but how do we know we know we know? and similar penetrating questions. Which is why people like Pyrrho and Sextus Empiricus made such big names for themselves and why Montaigne inscribed ‘que scais-je?’ into the roofbeam and why Hume woke Kant from his dogmatic slumbers and why Derrida expanded on the point and why Rorty and Fish enjoy irritating everyone and why Douglas Adams thought of the mouse experiment and 42 and whoever thought of The Matrix thought of The Matrix. It’s not as if they’re wrong, it’s not as if there’s nothing problematic about knowledge. What one does with that thought is another matter, but the thought itself is a real thought.
My colleague’s real thought has to do with the fact that science is revisable in principle but, about some things, not in reality. That scientists may say that all scientific knowledge is revisable but there are plenty of things about which they don’t actually believe it. They don’t really believe that the fact that the earth goes around the sun is revisable. I’ve been putting up an argument. I think either that they do believe it, or that the fact that they don’t doesn’t really have any particular force. Or both of those – that they’re the same thing. They do believe it’s revisable, provided there is evidence. The difficulty of imagining what that evidence could be and how it could be reconciled with all the other evidence does make the belief very thin, or formal, or ‘merely’ verbal, I suppose – but then that’s how it is. That particular ‘if’ is a very big if – but some ifs are very big ifs. That’s the nature of ifs, and thought experiments and counter-factuals in general. So we argue about transcendence and certainty. Is it reasonable to say that some of science’s truth claims are in fact transcendent, or certain, because of this difficulty of real belief in revisability? Well, yes, in a sense, I suppose, but it’s also true that such words are used in rhetorical contexts and for rhetorical purposes – to attribute much greater certainty, and smugness and blindness and refusal to question, to science and scientists than they in fact have about a lot of their own work. They know from daily practice, from life at the coal face, how tentative theories can be, so…it seems to me that that’s enough to foster the kind of uncertainty and awareness of revisability that’s required. But then I’m the one writing this Comment, so I’m giving myself the last word. Followed by a few thrown apple cores.
Actually not. Jerry S typed and sent this extract from E O Wilson’s autobiography, Naturalist (pp 319-20) by way of commentary, so I’ll give that the last word.
I picked Hamilton’s paper out of my briefcase somewhere north of New Haven
and riffled through it impatiently. I was anxious to get to the gist of the
argument and move on to something else, something more familiar and
congenial. The prose was convoluted and the full-dress mathematic treatment
difficult, but I understood his main point about haplodiploidy and colonial
life quickly enough. My first response was negative. Impossible, I thought:
this can’t be right. Too simple. He must not know much about social insects.
But the idea kept gnawing away at me early that afternoon, as I changed over
to the Silver Meteor in New York’s Pennsylvania Station. As we departed
southward across the New Jersey marshes, I went though the article again,
more carefully this time, looking for the fatal flaw I believed must be
there. At intervals I closed my eyes and tried to conceive of alternative,
more convincing explanations of the prevalence of hymenopteran social life
and the all-female worker force. Surely I knew enough to come up with
something. I had done this kind of critique before and succeeded. But
nothing presented itself now. By dinnertime, as the train rumbled on into
Virginia, I was growing frustrated and angry. Hamilton, whoever he was,
could not have cut the Gordian knot. Anyway, there was no Gordian knot in
the first place, was there? I had thought there was probably just a lot of
accidental evolution and wonderful natural history. And because I modestly
thought of myself as the world authority on social insects, I also thought
it unlikely that anyone else could explain their origin, certainly not in
one clean stroke. The next morning, as we rolled on past Waycross and
Jacksonville, I thrashed about some more. By the time we reached Miami in
the early afternoon, I gave up. I was a convert, and put myself in
Hamilton’s hands. I had undergone what historians of science call a paradigm
shift.
“They don’t really believe that the fact that the earth goes around the sun is revisable. “
Pick another example. Ever since general relativity, it’s been a commonplace of physics that frames of reference are interchangeable; a heliocentric one is perfectly conistent, and I think that the correct statement to make would be that there is no fact of the matter as to whether the earth moves around the sun or vice versa; each object moves relative to a frame of reference centred on the other.
If you think about it, it would be pretty weird if physicists *were* to make anything important depend on the proposition that “the earth goes round the sun”; at the very least, this would have to imply the existence of absolute co-ordinates in space.
And for my next lecture in missing the point I’m going to talk about how non-Euclidian geometry means….
Zzzzzzzzzzzzzzz
Charmed, I’m sure.
We aim to please…
I think an important distinction is that it is science as a system of enquiry that makes scientific knowledge revisable. The individual scientist ia as likely to be partisan as is a practitioner in any other field. We all have, or have had, our little golden-haired Hypotheses, which we desparately hope will grow up to be beautiful, full-fledged Theories (only the megalomaniac genius aspires to Laws). Wilson’s principled capitulation in the face of evidence, though narrated in such a way as to imply lengthy resistance, actually takes place in a much shorter time than is typical. Nevertheless, the system works for everyone, and those who will not accept gracefully the demise of a pet idea are doomed to the garbage can, at best.
Have either of you read Charles Peirce? I’ve become a fan in the last year or so, and he has some admirers in the UCI Logic and Philosophy of Science Department.
And dsquared was almost on to something there. Even more than just in the frame of reference thing, in relative motion, everything is traveling in a straight line. The whole earth around the sun thing is how we experience it with our human senses and three dimensionally oriented minds. So, scientists have reconsidered the earth around the sun proposition, but perhaps that is just one of the “meres.”
The earth is still round though? I mean no frame of reference is going to change that surely?
“The earth is still round though?”
Being about 26 miles shorter pole to pole than across the diameter at the equator makes it more of an oblate spheroid.
I think I would like to take that as a pen name. Oblate Spheroid. The Significance of Everything, Oblate Spheroid, OUP 2009.
Have I misread this or is Jerry S dismissing dsquared’s – correct – criticism on the grounds that the innaccuracy misses a broader point? It doesn’t matter whether scientists have an uncomplicated view on whether the earth goes round the sun, since what is being said is good stuff for other reasons?
This is quite surprising, since it was my impression that B&W took a strong position on factual innaccuracies.
My view is that you’re all barking mad!
The phrase “the sun goes around the earth” is a shorthand for the whole pre-Copernican theory of the motions of heavenly bodies. A theory which is definitely wrong in practice and even more importantly wrong in terms of how scientific knowledge should progress. The latter is because the pre-Copernican theory was ad hoc – there was no explanatory mechanism to predict how a heavenly body should move. If you like, the theory went
1) The earth is stationary
2) All the heavenly bodies move around the earth
3) The paths of these bodies are whatever the paths are.
Copernicus’ ideas, followed by Kepler’s and Newton’s laws, allowed the introduction of predictions about the motions of heavenly bodies which if incorrect had consequences for our knowledge of the universe or the laws. In the first instance if the path of a heavenly body was not what the theory predicted another undiscovered heavenly body was looked for. This led to the discovery of more planets such as Neptune. Eventually the laws could not explain everything and General Relativity was required.
Apologies for the prolixity.
On another angle, Asimov had the idea that science progresses more by showing what is wrong with an idea than by proving a theory. Thus we know the earth is not flat rather than that it has a particular shape.