1st APMO 1989

a_i are positive reals. s = a₁ + ... + a_n. Prove that for any integer n > 1 we have (1 + a₁) ... (1 + a_n) < 1 + s + s²/2! + ... + sⁿ/n! .

Solution

We use induction on n. For n = 2 the rhs is 1 + a₁ + a₂ + a₁a₂ + (a₁² + a₂²)/2 > lhs. Assume the result is true for n. We note that, by the binomial theorem, for s and t positive we have s^m+1 + (m+1) t s^m < (s + t)^m+1, and hence s^m+1/(m+1)! + t s^m/m! < (s + t)^m+1/(m+1)! . Summing from m = 1 to n+1 we get (s + t) + (s²/2! + t s/1!) + (s³/3! + t s²/2!) + ... + (sⁿ⁺¹/(n+1)! + t sⁿ/n!) < (s + t) + (s + t)²/2! + ... + (s + t)ⁿ⁺¹/(n+1)! . Adding 1 to each side gives that (1 + t)(1 + s + s²/2! + ... + sⁿ/n!) < (1 + (s+t) + ... + (s+t)ⁿ⁺¹/(n+1)! . Finally putting t = a_n+1 and using the the result for n gives the result for n+1.

1st APMO 1989

© John Scholes
jscholes@kalva.demon.co.uk
11 Apr 2002