MathDB
Problems
Contests
National and Regional Contests
Czech Republic Contests
Czech and Slovak Olympiad III A
2023 Czech and Slovak Olympiad III A.
2023 Czech and Slovak Olympiad III A.
Part of
Czech and Slovak Olympiad III A
Subcontests
(6)
6
1
Hide problems
SKMO 2023 P6
Let
n
n
n
be a positive integer such that
n
≥
3
n \geq 3
n
≥
3
. Consider a grid with size
n
×
n
n \times n
n
×
n
where each square can be white or black, in the beginning they are all white. In every step we can change the colors of cells forming a shape like below https://imgtr.ee/images/2023/04/04/k0i9m.png or any of its rotations. Determine all
n
n
n
such that the whole grid can be black after a finite number of steps.
5
1
Hide problems
SKMO 2023 P5
In triangle
A
B
C
ABC
A
BC
let
N
,
M
,
P
N, M, P
N
,
M
,
P
be the midpoints of the sides
B
C
,
C
A
,
A
B
BC, CA, AB
BC
,
C
A
,
A
B
and
G
G
G
be the centroid of this triangle. Let the circle circumscribed to
B
G
P
BGP
BGP
intersect the line
M
P
MP
MP
in point
K
K
K
,
P
≠
K
P \neq K
P
=
K
, and the circle circumscribed to
C
G
N
CGN
CGN
intersect the line
M
N
MN
MN
in point
L
L
L
,
N
≠
L
N \neq L
N
=
L
. Prove that
∠
B
A
K
=
∠
C
A
L
\angle BAK = \angle CAL
∠
B
A
K
=
∠
C
A
L
.
4
1
Hide problems
SKMO 2023 P4
Let
(
a
n
)
n
=
0
∞
(a_n)_{n = 0}^{\infty}
(
a
n
)
n
=
0
∞
be a sequence of positive integers such that for every
n
≥
0
n \geq 0
n
≥
0
it is true that
a
n
+
2
=
a
0
a
1
+
a
1
a
2
+
.
.
.
+
a
n
a
n
+
1
−
1
a_{n+2} = a_0 a_1 + a_1 a_2 + ... + a_n a_{n+1} - 1
a
n
+
2
=
a
0
a
1
+
a
1
a
2
+
...
+
a
n
a
n
+
1
−
1
a) Prove that there exist a prime number which divides infinitely many
a
n
a_n
a
n
b) Prove that there exist infinitely many such prime numbers
3
1
Hide problems
SKMO 2023 P3
In acute triangle
A
B
C
ABC
A
BC
let
H
H
H
be its orthocenter and
I
I
I
be its incenter. Let
D
D
D
be the projection of point
I
I
I
onto the line
B
C
BC
BC
and
E
E
E
be the reflection of point
A
A
A
in point
I
I
I
. Further, let
F
F
F
be the projection of point
H
H
H
onto the line
E
D
ED
E
D
. Prove that points
B
,
H
,
F
B, H, F
B
,
H
,
F
and
C
C
C
lie on circle.
2
1
Hide problems
SKMO 2023 P2
Let
n
n
n
be a positive integer, where
n
≥
3
n \geq 3
n
≥
3
and let
a
1
,
a
2
,
.
.
.
,
a
n
a_1, a_2, ..., a_n
a
1
,
a
2
,
...
,
a
n
be the lengths of sides of some
n
n
n
-gon. Prove that
a
1
+
a
2
+
.
.
.
+
a
n
≥
2
⋅
(
a
1
2
+
a
2
2
+
.
.
.
+
a
n
2
)
a_1 + a_2 + ... + a_n \geq \sqrt{2 \cdot (a_1^2 + a_2^2 + ... + a_n^2)}
a
1
+
a
2
+
...
+
a
n
≥
2
⋅
(
a
1
2
+
a
2
2
+
...
+
a
n
2
)
1
1
Hide problems
SKMO 2023 P1
Alice and Bob are playing a game on a plane consisting of
72
72
72
cells arranged in circle. At the beginning of the game, Bob places a stone on some of the cells. Then, in every round first Alice picks one empty cell and then Bob must move a stone from one of the two neighboring cells on this cell. If he is unable to do that, game ends. Determine the smallest number of stones he has to place in the beginning so he has a strategy to make the game last for at least
2023
2023
2023
rounds.