The Physics of Wall Street: a brief History of Predicting the Unpredictable
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Epilogue: Send Physics, Math, and Money!
• 209 using methodological insights that are commonplace in physics (and engineering) and that are useful in studying virtually anything. the stories in this book show the methodology in action: one uses simpli- fying assumptions to make a problem tractable and solve it. then, once you see how your solution works, you can double back and begin ask- ing what happens when you play with your assumptions. Sometimes you realize that your original solution is no good, because it depends too heavily on assumptions that never really apply; other times, you discover that the solution is pretty good but can be improved in simple ways; and other times still, you realize that your solution is great under certain circumstances, but you need to think about what to do when those circumstances don’t apply. obviously, physicists aren’t the only people who have thought about understanding the world in this way. this kind of model building is ubiquitous in economics and in other sciences. Unsurprisingly, most advances in economics have been made by economists. But physicists are very good — perhaps especially good — at thinking like this. And they are usually trained in a way that helps them solve certain kinds of problems in economics, without the political or intellectual baggage that sometimes hampers economists. Plus, physicists have often come to these problems with different knowledge and backgrounds from people who are trained as economists, which has meant that in some cases, physicists have been able to look at problems in a fresh way. However, when I say that science is a process, and particularly that financial modeling should be understood as an example of that pro- cess, I do not mean to say that financial modelers are somehow march- ing along the path of scientific progress, inexorably approaching some “final theory” of finance. the goal isn’t to find the final theory that will give the right answer in every market setting. It’s much more modest. You’re trying to find some equations that give you the right answer some of the time, and to understand when they can be relied on. derman and Wilmott, in their Manifesto, make this point quite clearly. We should never mistake a good model for the “truth” about financial markets. the most important reason for this is that markets are themselves evolving, in response to changing economic realities, new regulations, and, perhaps most importantly, innovation. for in- 210 • t h e p h y s i c s o f wa l l s t r e e t stance, the Black-Scholes model forever changed how options markets operate — which meant that the markets the model was designed to describe were revolutionized by the increasing use of the model. this led to a feedback loop that wasn’t fully recognized until after the 1987 crash. As sociologist donald MacKenzie has observed, financial mod- els are as much the engine behind markets as they are a camera capable of describing them. this means that the markets financial models are trying to capture are a moving target. far from undermining the usefulness of models in understanding markets, the fact that markets are constantly evolving only makes the iterative process I have emphasized more important. Suppose that Sor- nette’s model of market crashes is perfect for current markets. even then, we have to remain ever vigilant. What would happen if investors around the world started using his methods to predict crashes? Would this prevent crashes from occurring? or would it simply make them bigger, or harder to predict? I don’t think anyone knows the answer to this question, which means that it is just the kind of thing we should be studying. the biggest danger facing mathematical modelers is the belief that today’s models are the last word on markets. Weinstein and Malaney’s proposal is different from the other ideas dis- cussed in this book. every other chapter concerns, in one way or an- other, finance and financial modeling. the other physicists I discussed were looking at a bunch of statistics — stock prices, market moves, an- nual returns — and trying to make predictions about how the num- bers would change in the future. the details of how markets work is of course relevant to such predictions, but it is not so hard to see how, as osborne observed, a person trained as a physicist is well suited to interpret statistical data. Weinstein and Malaney, however, have pro- posed a new theory of welfare economics, inspired by ideas developed in physics. this is a far more ambitious project, and one that is more difficult to wrap one’s head around. nonetheless, if one understands the connection between physics and finance in the right way, there is nothing weird about using phys- ics as a way of making progress in economics more broadly. It isn’t that financial markets bear some special connection to the subject matter |
