Difference between revisions of "1985 IMO Problems"

Latest revision as of 02:00, 29 March 2021

Problems of the 26th IMO Finland.

Day I

Problem 1

A circle has center on the side $AB$ of the cyclic quadrilateral $ABCD$ . The other three sides are tangent to the circle. Prove that $AD + BC = AB$ .

Solution

Problem 2

Let $n$ and $k$ be given relatively prime natural numbers, $k < n$ . Each number in the set $M = \{ 1,2, \ldots , n-1 \}$ is colored either blue or white. It is given that

(i) for each $i \in M$ , both $i$ and $n-i$ have the same color;

(ii) for each $i \in M, i \neq k$ , both $i$ and $|i-k|$ have the same color.

Prove that all the numbers in $M$ have the same color.

Solution

Problem 3

For any polynomial $P(x) = a_0 + a_1 x + \cdots + a_k x^k$ with integer coefficients, the number of coefficients which are odd is denoted by $w(P)$ . For $i = 0, 1, \ldots$ , let $Q_i (x) = (1+x)^i$ . Prove that if $i_1, i_2, \ldots , i_n$ are integers such that $0 \leq i_1 < i_2 < \cdots < i_n$ , then

$w(Q_{i_1} + Q_{i_2} + \cdots + Q_{i_n}) \ge w(Q_{i_1})$ .

Solution

Day II

Problem 4

Given a set $M$ of $1985$ distinct positive integers, none of which has a prime divisor greater than $23$ , prove that $M$ contains a subset of $4$ elements whose product is the $4$ th power of an integer.

Solution

Problem 5

A circle with center $O$ passes through the vertices $A$ and $C$ of the triangle $ABC$ and intersects the segments $AB$ and $BC$ again at distinct points $K$ and $N$ respectively. Let $M$ be the point of intersection of the circumcircles of triangles $ABC$ and $KBN$ (apart from $B$ ). Prove that $\angle OMB = 90^{\circ}$ .

Solution

Problem 6

For every real number $x_1$ , construct the sequence $x_1,x_2,\ldots$ by setting:

$x_{n + 1} = x_n(x_n + {1\over n}).$

Prove that there exists exactly one value of $x_1$ which gives $0 < x_n < x_{n + 1} < 1$ for all $n$ .

Solution

Resources

1985 IMO (Problems) • Resources
Preceded by 1984 IMO	1 • 2 • 3 • 4 • 5 • 6	Followed by 1986 IMO
All IMO Problems and Solutions

@@ Line 11: / Line 11: @@
 === Problem 2 ===
-Let <math>n</math> and <math>k</math> be given relatively prime natural numbers, <math>n < k</math>.  Each number in the set <math>M = \{ 1,2, \ldots , n-1 \} </math> is colored either blue or white.  It is given that
+Let <math>n</math> and <math>k</math> be given relatively prime natural numbers, <math>k < n</math>.  Each number in the set <math>M = \{ 1,2, \ldots , n-1 \} </math> is colored either blue or white.  It is given that
 (i) for each <math> i \in M </math>, both <math>i </math> and <math>n-i </math> have the same color;
@@ Line 65: / Line 65: @@
 * [[1985 IMO]]
 * [http://www.artofproblemsolving.com/Forum/resources.php?c=1&cid=16&year=1985 IMO 1985 problems on the Resources page]
+* [[IMO Problems and Solutions, with authors]]
+* [[Mathematics competition resources]] {{IMO box|year=1985|before=[[1984 IMO]]|after=[[1986 IMO]]}}

Page

Toolbox

Search

Difference between revisions of "1985 IMO Problems"

Latest revision as of 02:00, 29 March 2021

Contents

Day I

Problem 1

Problem 2

Problem 3

Day II

Problem 4

Problem 5

Problem 6

Resources