2007 Cuba MO

Part of Cuba MO

Subcontests

(9)

1

ABC isosceles wanted, BG > BF = GC 2007 Cuba MO 2.6

Let the triangle

ABC

be acute. Let us take in the segment

BC

F

G

BG > BF = GC

and an interior point

P

to the triangle on the bisector of

\angle BAC

. Then are drawn through

P

PD\parallel AB

PE \parallel AC

D \in AC

E \in AB

\angle FEP = \angle PDG

\vartriangle ABC

1

a_{n+1} = S(a_n) is periodic, where S(n) = sum of digits of n^2 +1

For each positive integer

n

S(n)

be the sum of the digits of

n^2 +1

\{a_n\}

is defined, with

a_0

an arbitrary positive integer and

a_{n+1} = S(a_n)

. Prove that the sequence

\{a_n\}

is eventually periodic with period three.

1

one line passing through 2 of n points

Prove that given

n

points in the plane, not all aligned, there exists a line that passes through exactly two of them.
[hide=original wording]Demostrar que dados n puntos en el plano, no todos alineados, existe una recta que pasa por exactamente dos de ellos.

1

unique integer by digits 2,5 with 2007 digits, divisible by 2^{2007}

Prove that there is a unique positive integer formed only by the digits

2

5

2007

digits and is divisible by

2^{2007}

1

x^2(f(x)+f(y)) = (x+y)f(f(x)y)

Find all functions

f : R_+ \to R_+

x^2(f(x)+f(y)) = (x+y)f(f(x)y)

for all positive real

x, y

2

2n participants in a 4 days tennis competition

A tennis competition takes place over four days, the number of participants is

2n

n \ge 5

. Each participant plays exactly once a day (a couple of participants may be more times). Prove that such competition can end with exactly one winner and exactly three players in second place and such that there are no players with four lost games,

square wanted, cyclic quad. with _|_ diagonals 2007 Cuba MO 2.3

ABCD

be a quadrilateral that can be inscribed in a circle whose diagonals are perpendicular. Denote by

P

Q

the feet of the perpendiculars through

D

C

respectively on the line

AB

X

is the intersection point of the lines

AC

DP

Y

is the intersection point of the lines

BD

CQ

XY CD

2

binary prisms

A prism is called binary if it can be assigned to each of its vertices a number from the set

\{-1, 1\}

, such that the product of the numbers assigned to the vertices of each face is equal to

-1

. a) Prove that the number of vertices of the binary prisms is divisible for

8

. b) Prove that a prism with

2000

vertices is binary.

sum of each pair of them is a perfect square.

Find three different positive integers whose sum is minimum than meet the condition that the sum of each pair of them is a perfect square.

2

pieces placed in 8 x 8 board

Pieces are placed in some squares of an

8 \times 8

board sothat: a) There is at least one token in any rectangle with sides

2 \times 1

1\times 2

. b) There are at least two neighboring pieces in any rectangle with sides

7\times 1

1\times 7

. Find the smallest number of tokens that can be taken to fulfill with both conditions.

x^3 - y^3 = 7(x - y), x^3 + y^3 = 5(x + y)

Find all the real numbers

x, y

x^3 - y^3 = 7(x - y)

x^3 + y^3 = 5(x + y).

1

Cuba National MO

O

be the circumcircle of

\triangle ABC

AC=BC

D=AO\cap BC

BD

CD

are integer numbers and

AO-CD

is prime, determine such three numbers.