Messaggi di Rogue Scholar

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MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

“Tonight’s the Night” A large volume of research goes into the psychological and behavioral analysis of criminals. In particular, serial criminals hold a special place in the imagination and nightmares of the general public (at least, American public). Those criminals with the opportunity to become serial criminals are logical, cool-tempered, methodical, and, of course, dangerous.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

It seems that false proofs are quickly becoming some of the most popular posts on Math ∩ Programming. I have been preparing exciting posts on applications of graph coloring, deck stacking, and serial killers. Unfortunately, each requires resources which exist solely on my home desktop, which is currently dismantled in California while I am on vacation in Costa Rica.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

Problem: Show that all horses are of the same color. “Solution”: We will show, by induction, that for any set of $ n$ horses, every horse in that set has the same color. Suppose $ n=1$, this is obviously true. Now suppose for all sets of $ n$ horses, every horse in the set has the same color. Consider any set $ H$ of $ n+1$ horses. We may pick a horse at random, $ h_1 \in H$, and remove it from the set, getting a set of $ n$ horses.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

How many colors are required to color the provinces of Costa Rica? A common visual aid for maps is to color the regions of the map differently, so that no two regions which share a border also share a color. For example, to the right is a map of the provinces of Costa Rica (where the author is presently spending his vacation). It is colored with eight different colors, one for each province.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

Problem: Suppose their are three circles in the plane of distinct radii. For any two of these circles, we may find their center of dilation as the intersection point of their common tangents. For example, in the following picture we mark the three centers of dilation for each pair of circles: We notice that the three centers of dilation are collinear. Show they are always collinear for any three non-intersecting circles of distinct radii.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

It’s often that a student’s first exposure to rigorous mathematics is through set theory, as originally studied by Georg Cantor. This means we will not treat set theory axiomatically (as in ZF set theory), but rather we will take the definition of a set for granted, and allow any operation to be performed on a set. This will be clear when we present examples, and it will be clear why this is a bad idea when we present paradoxes.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

Problem: Show there are finitely many primes. “Solution”: Suppose to the contrary there are infinitely many primes. Let $ P$ be the set of primes, and $ S$ the set of square-free natural numbers (numbers whose prime factorization has no repeated factors). To each square-free number $ n \in S$ there corresponds a subset of primes, specifically the primes which make up $ n$’s prime factorization.

MatematicaInglese
Pubblicato in Math ∩ Programming
Autore Jeremy Kun

“Solution”: Let $ a=b \neq 0$. Then $ a^2 = ab$, and $ a^2 – b^2 = ab – b^2$. Factoring gives us $ (a+b)(a-b) = b(a-b)$. Canceling both sides, we have $ a+b = b$, but remember that $ a = b$, so $ 2b = b$. Since $ b$ is nonzero, we may divide both sides to obtain $ 2=1$, as desired.