IMO 1969

Given real numbers x₁, x₂, y₁, y₂, z₁, z₂, satisfying x₁ > 0, x₂ > 0, x₁y₁ > z₁², and x₂y₂ > z₂², prove that:

      8/((x₁ + x₂)(y₁ + y₂) - (z₁ + z₂)²) ≤ 1/(x₁y₁ - z₁²) + 1/(x₂y₂ - z₂²).

Give necessary and sufficient conditions for equality.

Solution

Let a₁ = x₁y₁ - z₁² and a₂ = x₂y₂ - z₂². We apply the arithmetic/geometric mean result 3 times:

(1) to a₁², a₂², giving 2a₁a₂ ≤ a₁² + a₂²;

(2) to a₁, a₂, giving √(a₁a₂) ≤ (a₁ + a₂)/2;

(3) to a₁y₂/y₁, a₂y₁/y₂, giving √(a₁a₂) ≤ (a₁y₂/y₁ + a₂y₁/y₂)/2;

We also use (z₁/y₁ - z₂/y₂)² ≥ 0. Now x₁y₁ > z₁² ≥ 0, and x₁ > 0, so y₁ > 0. Similarly, y₂ > 0. So:

(4) y₁y₂(z₁/y₁ - z₂/y₂)² ≥ 0, and hence z₁²y₂/y₁ + z₂²y₁/y₂ ≥ 2z₁z₂.

Using (3) and (4) gives 2√(a₁a₂) ≤ (x₁y₂ + x₂y₁) - (z₁²y₂/y₁ + z₂²y₁/y₂) ≤ (x₁y₂ + x₂y₁ - 2z₁z₂).

Multiplying by (2) gives: 4a₁a₂ ≤ (a₁ + a₂)(x₁y₂ + x₂y₁ - 2z₁z₂).

Adding (1) and 2a₁a₂ gives: 8a₁a₂ ≤ (a₁ + a₂)² + (a₁ + a₂)(x₁y₂ + x₂y₁ - 2z₁z₂) = a(a₁ + a₂), where a = (x₁ + x₂)(y₁ + y₂) - (z₁ + z₂)². Dividing by a₁a₂a gives the required inequality.

Equality requires a₁ = a₂ from (1), y₁ = y₂ from (2), z₁ = z₂ from (3), and hence x₁ = x₂. Conversely, it is easy to see that these conditions are sufficient for equality.

Solutions are also available in:   Samuel L Greitzer, International Mathematical Olympiads 1959-1977, MAA 1978, and in   István Reiman, International Mathematical Olympiad 1959-1999, ISBN 189-8855-48-X.

11th IMO 1969

© John Scholes
jscholes@kalva.demon.co.uk
5 Oct 1998
Last corrected/updated 5 Oct 1998