1. Let α be a real number, not an odd multiple of π. Prove that tan α/2 is rational iff cos α and sin α are rational.
2. Show that the centers of the squares on the outside of the four sides of a rhombus form a square.
3. (a1, a2, ... , an) is a permutation of (1, 2, ... , n). Show that ∏ (ai - i) is even if n is odd.
Solutions
Problem 1
Let α be a real number, not an odd multiple of π. Prove that tan α/2 is rational iff cos α and sin α are rational.
Solution
Put t = tan α/2. Then cos α = (1-t2)/(1+t2), sin α = 2t/(1+t2). So certainly cos α and sin &alphap are rational if t is.
Put k = cos α. Then since α is not an odd multiple of π, k is not -1. Hence t2 = (1-k)/(1+k), which is rational. Hence 2t = (1+t2) sin α is rational, and so also t.
Problem 2
Show that the centers of the squares on the outside of the four sides of a rhombus form a square.
Solution
Take the rhombus as ABCD and the centers as PQRS as shown. Let the center of the rhombus be O. By symmetry about AC, we have OP = OS. Now ∠AOD = ∠ ASD = 90o, so AODS is cyclic. Hence ∠AOS = ∠ADS = 45o. Similarly for all the other angles. So POR and QOS are straight and perpendicular. Hence PQRS is a square.
Problem 3
(a1, a2, ... , an) is a permutation of (1, 2, ... , n). Show that ∏ (ai - i) is even if n is odd.
Solution
Put n = 2m+1. Suppose there are k values of i for which both ai and i are odd. Then since there are m+1 odd values in total, there must be m+1-k values for which ai is odd, but i is not and m+1-k values for which ai is even and i is odd. The remaining k-1 values have both ai and i even. Since ai - i is odd iff ai and i have opposite parity, there are 2(m+1-k) values for which that is true. Since that is even, there must be at least one value for which ai and i have the same parity. Hence the product is even.
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Eötvös Competition Problems
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