Difference between revisions of "1976 IMO Problems"

Revision as of 16:35, 23 April 2012

Problems of the 18th IMO 1976 in Austria.

Day 1

Problem 1

In a convex quadrilateral (in the plane) with the area of $32 \text{ cm}^{2}$ the sum of two opposite sides and a diagonal is $16 \text{ cm}$ . Determine all the possible values that the other diagonal can have.

Problem 2

Let $P_{1}(x) = x^{2} - 2$ and $P_{j}(x) = P_{1}(P_{j - 1}(x))$ for $j= 2,\ldots$ Prove that for any positive integer n the roots of the equation $P_{n}(x) = x$ are all real and distinct.

Problem 3

A box whose shape is a parallelepiped can be completely filled with cubes of side $1.$ If we put in it the maximum possible number of cubes, each of volume $2$ , with the sides parallel to those of the box, then exactly $40$ percent from the volume of the box is occupied. Determine the possible dimensions of the box.

Day 2

Problem 4

Find the largest number obtainable as the product of positive integers whose sum is $1976$ .

@@ Line 10: / Line 10: @@
 ==Day 2==
 ===Problem 4===
-Determine the greatest number, who is the product of some positive integers, and the sum of these numbers is <math>1976.</math>
+Find the largest number obtainable as the product of positive integers whose sum is <math>1976</math>.
 ===Problem 5===
 ===Problem 6===

Page

Toolbox

Search