13th British Mathematical Olympiad 1977 Problems
1. f(n) is a function on the positive integers with non-negative integer values such that: (1) f(mn) = f(m) + f(n) for all m, n; (2) f(n) = 0 if the last digit of n is 3; (3) f(10) = 0. Show that f(n) = 0 for all n.
2. S is either the incircle or one of the excircles of the triangle ABC. It touches the line BC at X. M is the midpoint of BC and N is the midpoint of AX. Show that the center of S lies on the line MN.
3. (1) Show that x(x - y)(x - z) + y(y - z)(y - x) + z(z - x)(z - y) ≥ 0 for any non-negative reals x, y, z.
(2) Hence or otherwise show that x6 + y6 + z6 + 3x2y2z2 ≥ 2(y3z3 + z3x3 + x3y3) for all real x, y, z.
4. x3 + qx + r = 0, where r is non-zero, has roots u, v, w. Find the roots of r2x3 + q3x + q3 = 0 (*) in terms of u, v, w. Show that if u, v, w are all real, then (*) has no real root x satisfying -1 < x < 3.
5. Five spheres radius a all touch externally two spheres S and S' of radius a. We can find five points, one on each of the first five spheres, which form the vertices of a regular pentagon side 2a. Do the spheres S and S' intersect?
6. Find all n > 1 for which we can write 26(x + x2 + x3 + ... + xn) as a sum of polynomials of degree n, each of which has coefficients which are a permutation of 1, 2, 3, ... , n.
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