IMO 1975

IMO 1975 — 6/6 solved, 3 verified.

6 items

IMO 1975

Official IMO 1975 problems  ·  6/6 solved, 3 verified.

# Status Time
1 ✓ verified 5m39s
2 ✓ verified 9m00s
3 solved 11m35s
4 solved 11m31s
5 solved 7m27s
6 ✓ verified 6m58s

Problem 1   ✓ verified · 5m39s · Solution →

Let $x_i, y_i~(i = 1, 2, \ldots, n)$ be real numbers such that $$ x_1 \geq x_2 \geq \cdots \geq x_n \text{ and } y_1 \geq y_2 \geq \cdots \geq y_n. $$ Prove that, if $z_1, z_2, \cdots, z_n$ is any permutation of $y_1, y_2, \cdots, y_n$, then $$ \sum_{i=1}^n (x_i - y_i)^2 \leq \sum_{i=1}^n (x_i - z_i)^2. $$

Problem 2   ✓ verified · 9m00s · Solution →

Let $a_1, a_2, a_3, \cdots$ be an infinite increasing sequence of positive integers. Prove that for every $p \geq 1$ there are infinitely many $a_m$ which can be written in the form $$ a_m = xa_p + ya_q $$ with $x, y$ positive integers and $q > p$.

Problem 3   solved · 11m35s · Solution →

On the sides of an arbitrary triangle $ABC$, triangles $ABR, BCP, CAQ$ are constructed externally with $\angle CBP = \angle CAQ = 45^\circ, \angle BCP = \angle ACQ = 30^\circ, \angle ABR = \angle BAR = 15^\circ$. Prove that $\angle QRP = 90^\circ$ and $QR = RP$.

Problem 4   solved · 11m31s · Solution →

When $4444^{4444}$ is written in decimal notation, the sum of its digits is $A$. Let $B$ be the sum of the digits of $A$. Find the sum of the digits of $B$. ($A$ and $B$ are written in decimal notation.)

Problem 5   solved · 7m27s · Solution →

Determine, with proof, whether or not one can find 1975 points on the circumference of a circle with unit radius such that the distance between any two of them is a rational number.

Problem 6   ✓ verified · 6m58s · Solution →

Find all polynomials $P$, in two variables, with the following properties:

(i) for a positive integer $n$ and all real $t, x, y$ $$ P(tx, ty) = t^n P(x, y) $$ (that is, $P$ is homogeneous of degree $n$),

(ii) for all real $a, b, c,$ $$ P(b+c, a) + P(c+a, b) + P(a+b, c) = 0, $$

(iii) $P(1, 0) = 1.$