Difference between revisions of "2020 IMO Problems"
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Latest revision as of 12:15, 21 May 2021
Problem 1
Consider the convex quadrilateral . The point is in the interior of . The following ratio equalities hold: Prove that the following three lines meet in a point: the internal bisectors of angles and and the perpendicular bisector of segment .
Problem 2
The real numbers , , , are such that and . Prove that
Problem 3
There are pebbles of weights . Each pebble is colored in one of colors and there are four pebbles of each color. Show that we can arrange the pebbles into two piles so that the following two conditions are both satisfied:
- The total weights of both piles are the same.
- Each pile contains two pebbles of each color.
Problem 4
There is an integer . There are stations on a slope of a mountain, all at different altitudes. Each of two cable car companies, and , operates cable cars; each cable car provides a transfer from one of the stations to a higher one (with no intermediate stops). The cable cars of have different starting points and different finishing points, and a cable car that starts higher also finishes higher. The same conditions hold for . We say that two stations are linked by a company if one can start from the lower station and reach the higher one by using one or more cars of that company (no other movements between stations are allowed).
Determine the smallest positive integer k for which one can guarantee that there are two stations that are linked by both companies.
Problem 5
A deck of cards is given. A positive integer is written on each card. The deck has the property that the arithmetic mean of the numbers on each pair of cards is also the geometric mean of the numbers on some collection of one or more cards.
For which does it follow that the numbers on the cards are all equal?
Problem 6
Prove that there exists a positive constant such that the following statement is true:
Consider an integer , and a set of n points in the plane such that the distance between any two different points in is at least . It follows that there is a line separating such that the distance from any point of to is at least .
(A line separates a set of points if some segment joining two points in crosses .)
Note. Weaker results with replaced by may be awarded points depending on the value of the constant .
2020 IMO (Problems) • Resources | ||
Preceded by 2019 IMO Problems |
1 • 2 • 3 • 4 • 5 • 6 | Followed by 2021 IMO Problems |
All IMO Problems and Solutions |