2018 AIME I Problems
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[hide]Problem 1
Let be the number of ordered pairs of integers
with
and
such that the polynomial
can be factored into the product of two (not necessarily distinct) linear factors with integer coefficients. Find the remainder when
is divided by
.
Problem 2
The number can be written in base
as
, can be written in base
as
, and can be written in base
as
, where
. Find the base-
representation of
.
Problem 3
Kathy has
Problem 4
In
Problem 5
For each ordered pair of real numbers satisfying
there is a real number
such that
Find the product of all possible values of
.
Problem 6
Let be the number of complex numbers
with the properties that
and
is a real number. Find the remainder when
is divided by
.
Problem 7
A right hexagonal prism has height . The bases are regular hexagons with side length
. Any
of the
vertices determine a triangle. Find the number of these triangles that are isosceles (including equilateral triangles).
Problem 8
Let be an equiangular hexagon such that
, and
. Denote
the diameter of the largest circle that fits inside the hexagon. Find
.
Problem 9
Find the number of four-element subsets of with the property that two distinct elements of a subset have a sum of
, and two distinct elements of a subset have a sum of
. For example,
and
are two such subsets.
Problem 10
The wheel shown below consists of two circles and five spokes, with a label at each point where a spoke meets a circle. A bug walks along the wheel, starting at point
Problem 11
Find the least positive integer such that when
is written in base
, its two right-most digits in base
are
.
Problem 12
For every subset of
, let
be the sum of the elements of
, with
defined to be
. If
is chosen at random among all subsets of
, the probability that
is divisible by
is
, where
and
are relatively prime positive integers. Find
.
Problem 13
Let
Problem 14
Let be a heptagon. A frog starts jumping at vertex
. From any vertex of the heptagon except
, the frog may jump to either fo the two adjacent vertices. When it reaches vertex
, the frog stops and stays there. Find the number of distinct sequences of jumps of no more than
jumps that end at
.
Problem 15
David found four sticks of different lengths that can be used to form three non-congruent convex cyclic quadrilaterals,
2018 AIME I (Problems • Answer Key • Resources) | ||
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Followed by 2018 AIME II | |
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The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.