61st Putnam 2000


A1. k is a positive constant. The sequence x_i of positive reals has sum k. What are the possible values for the sum of x_i² ?
A2. Show that we can find infinitely many triples N, N + 1, N + 2 such that each member of the triple is a sum of one or two squares.
A3. An octagon is incribed in a circle. One set of alternate vertices forms a square area 5. The other set forms a rectangle area 4. What is the maximum possible area for the octagon?
A4. Show that lim_k→∞ &inf;₀^k sin x sin x² dx converges.
A5. A, B, C each have integral coordinates and lie on a circle radius R. Show that at least one of the distances AB, BC, CA exceeds R^1/3.
A6. p(x) is a polynomial with integer coefficients. A sequence x₀, x₁, x₂, ... is defined by x₀ = 0, x_n+1 = p(x_n). Prove that if x_n = 0 for some n > 0, then x₁ = 0 or x₂ = 0.
B1. We are given N triples of integers (a₁, b₁, c₁), (a₂, b₂, c₂), ... (a_N, b_N, c_N). At least one member of each triple is odd. Show that we can find integers A, B, C such that at least 4N/7 of the N values A a_i + B b_i + C c_i are odd.
B2. m and n are positive integers with m ≤ n. d is their greatest common divisor. nCm is the binomial coefficient. Show that d/n nCm is integral.
B3. a₁, a₂, ... , a_N are real and a_N is non-zero. f(x) = a₁ sin 2πx + a₂ sin 4πx + a₃ sin 6πx + ... + a_N sin 2Nπx. Show that the number of zeros of f⁽ⁱ⁾(x) = 0 in the interval [0, 1) is a non-decreasing function of i and tends to 2N (as i tends to infinity).
B4. f(x) is a continuous real function satisfying f(2x² - 1) = 2 x f(x). Show that f(x) is zero on the interval [-1, 1].
B5. S₀ is an arbitrary finite set of positive integers. Define S_n+1 as the set of integers k such that just one of k - 1, k is in S_n. Show that for infinitely many n, S_n is the union of S₀ and a translate of S₀.
B6. Let X be the set of 2ⁿ points (±1, ±1, ... , ±1) in Euclidean n-space. Show that any subset of X with at least 2ⁿ⁺¹/n points contains an equilateral triangle.

To avoid possible copyright problems, I have changed the wording, but not the substance, of the problems.