1

"If people do not believe that mathematics is simple, it is only because they do not realize how complicated life is."

  • John von Neumann

Why can't someone think that both math and life are complicated? I'm so confused by this quote.

1
  • You question doesn't seem to be about terminology, but about what John von Neumann means in the abstract. I will migrate the question to Literature, as they discuss the meaning of quotes from an abstract perspective, where as we would be interested in discussing ambiguities that arise from polysemes or something like that.
    – Matt Ellen
    Jan 12 at 10:38
5

The quote comes from Franz Alt’s recollection of a talk given by von Neumann at the very first meeting of the Association for Computing Machinery in 1947:

Several versions of background wiring and their corresponding source languages were under discussion, each having a vocabulary between 50 and 100 instruction types. Their implementation and testing began in 1948. They were still only on paper at the end of 1947, when the Association for Computing Machinery was founded and held its first national meeting at Aberdeen Proving Ground. The attendance at that meeting was 300; the program consisted of about a dozen papers. We had succeeded in obtaining John yon Neumann as keynote speaker. He discussed the need for, and likely impact of, electronic computing. He mentioned the “new programming method” for ENIAC and explained that its seemingly small vocabulary was in fact ample: that future computers, then in the design stage, would get along on a dozen instruction types, and this was known to be adequate for expressing all of mathematics. (Parenthetically, it is as true today as it was then that “programming” a problem means giving it a mathematical formulation. Source languages which use “plain English” or other appealing vocabularies are only mnemonic disguises for mathematics.) Von Neumann went on to say that one need not be surprised at this small number, since about 1,000 words were known to be adequate for most situations of real life, and mathematics was only a small part of life, and a very simple part at that. This caused some hilarity in the audience, which provoked von Neumann to say: “If people do not believe that mathematics is simple, it is only because they do not realize how complicated life is.”

Franz Alt (1972). ‘Archaeology of computers: reminiscences, 1945–1947’. Communications of the ACM 15:7, p. 694.

So von Neumann had been explaining to the audience that a very small number of machine instruction types was sufficient to express any desired mathematical calculation. This is a corollary of the Church–Turing thesis (roughly speaking, that all models of computing have equivalent power), something that every computer science undergraduate learns in their first course on computer architecture today (and moreover, that a single instruction type is sufficiently expressive!). But the concepts were new at the time and perhaps not yet fully intuitive to his audience.

Von Neumann then made an analogy between computer instruction sets and human languages with restricted vocabularies. I guess that he had Basic English in mind: this was a project started in 1925 by philosopher Charles Kay Ogden to create an international auxiliary language based on English but using a small (roughly 1,000-word) vocabulary. Von Neumann said that since “real life” (meaning all human knowledge) can be described in Basic English with only about 1,000 words, and mathematics is only a small part of human knowledge, it should not be surprising that mathematics can be described using an even smaller vocabulary (that is, the “dozen instruction types” that he proposed for future computers). The apparent complexity of mathematics arises from the infinite combinations of the vocabulary, not from its size.

1

Math is considered by many people to be hopelessly complex. enter image description here

Hence, people "do not believe" math is simple, as von Neumann states in your quote. He implies that people do not appreciate the simplicity of mathematics. The only reason people make the mistake of considering math to be 'complicated' is because they consistently underestimate the complexity of the world in general. Math is incredibly simple when compared to what it abstracts and simplifies: the tremendous complexity of 'life', as JVN calls it, which I take to mean 'nature' or 'existence'.

1

The crux of this quotation basically hinges on two premises: that mathematics is simple, and that life is complicated.

Next thing to know here is that Neumann sorta tries to establish a Cause-Effect relationship between the complexity of life and the simplicity of mathematics.

He basically says that people fail to see and appreciate the complexity of life, and are always looking for facile solutions to life's problems (when there ain't any.) If people started taking life's problems objectively, they would find there are solutions to life's problems, after all. The key is the right approach.

Math, on the other hand, isn't as complicated as life. So, if one could solve the problems of life adjusting one's perspective to the problem at hand, of course math problems would be solved just as easily (or perhaps more easily.)

Please note that I attempted an answer assuming no prior knowledge of the circumstances that led Neumann to quote thus. As such, this is as literal a breakdown of the quotation as possible. Of course, Neumann being the genius that he was, might have had something more philosophical to say here than meets the eye. But like I said, it's just my puny attempt at understanding Neumann's philosophical insight.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.