Talk:A Mathematician's Apology
|WikiProject Philosophy||(Rated Start-class, Low-importance)|
The Irrationality of Root-two
The proof of the irrationality of root two does have at least one practical application. In 3D computer graphics, it demonstrates the impossibility of designing finite-precision algorithms for drawing polygons on finite resolution displays without cracks and/or overlaps when the vertex of only polygon lies on the edge of another. SteveBaker 19:27, 7 June 2006 (UTC)
I think this comment understates the case! The fact that numbers like sqrt(2) are irrational is fundamental to the design decisions used in the design of the representation of real numbers for any computational application, not just computer graphics. Thanks to this theorem, anyone designing floating point formats knows immediately not to even try for an exact representation. We take this fact so much for granted that we fail to notice how important this result is. —Preceding unsigned comment added by 184.108.40.206 (talk) 18:15, 21 July 2010 (UTC)
And things like elliptic curve cryptography wouldn't be possible if someone hadn't shown the irrationality of "most" integer roots as these things lead on to the idea of polynomials and the like. Mathematics is very connected. I think this statement should be removed as it is misleading and wrong.
Linking to copyrighted works
I'm not sure, but I believe that Wikipedia's WP:COPY policy wouldn't support the link at the bottom of the article.
If you know that an external Web site is carrying a work in violation of the creator's copyright, please don't link to that copy of the work. Knowingly and intentionally directing others to a site that violates copyright has been considered a form of contributory infringement in the United States (Intellectual Reserve v. Utah Lighthouse Ministry).
I believe the general policy is to act in compliance with the laws of Florida, where Wikipedia's servers are stored, so even though the site is in public domain in Canada, America's bazillion year long copyright laws are still in effect, so this linking might be a form of contributory infringement. I won't do anything about it, because I'm ignorant of these matters. I just thought I'd bring it up. Geuiwogbil 20:13, 20 December 2006 (UTC)
Writing not very good
The article was interesting, but to be brutally honest, the writing is pretty horrendous, not graceful or elegant which it should be given the subject.
- It's a perfectly legitimate word. Not well used here, but it is a word. - DavidWBrooks 01:44, 6 November 2007 (UTC)
- The problem here isn't exactly the writing, I guess, it is much more what's written. Is it reasonable to describe the ones like Euler and Galois as "pure mathematicians", while they lived in a time when there really wasn't made a distinction, between pure and applied mathematics? Back then, there was only mathematics, and nothing else.
- Similarly, this sentence:
- Hardy expounds by commenting about a phrase attributed to Carl Friedrich Gauss that "Mathematics is the queen of the sciences and number theory is the queen of mathematics". Some people believe that it is the extreme non-applicability of number theory that led Gauss to the above statement about number theory;
- C. F. Gauß, as a matter of fact, was not only a mathematician, but at the same time an astronomer and a physicist, as well. Now, astronomy and physics obviously aren't pure mathematics, but mathematics in pure application. So, this doesn't mean Gauß was an applied mathematician, yet by no means was he (solely) what Hardy evidently considers a pure mathematician. Maybe that's the difference between someone like Gauß and someone like Hardy, as Gauß was big enough to simply do both: He could have his cake and eat it too! Meanwhile Hardy's kind of black-and-white/ugly-beautiful/applied-pure view on mathematics seems pretty cheap and absurd.
Being translated into German
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