Difference between revisions of "2014 AIME I Problems"
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==Problem 13== | ==Problem 13== | ||
− | On square <math>ABCD</math> | + | On square <math>ABCD,</math> points <math>E,F,G</math>, and <math>H</math> lie on sides <math>\overline{AB},\overline{BC},\overline{CD},</math> and <math>\overline{DA},</math> respectively, so that <math>\overline{EG} \perp \overline{FH}</math> and <math>EG=FH = 34</math>. Segments <math>\overline{EG}</math> and <math>\overline{FH}</math> intersect at a point <math>P</math>, and the areas of the quadrilaterals <math>AEPH, BFPE, CGPF,</math> and <math>DHPG</math> are in the ratio 269:275:405:411. Find the area of square <math>ABCD</math>. |
[[2014 AIME I Problems/Problem 13|Solution]] | [[2014 AIME I Problems/Problem 13|Solution]] |
Revision as of 12:28, 14 March 2014
2014 AIME I (Answer Key) | AoPS Contest Collections • PDF | ||
Instructions
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1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 |
Contents
Problem 1
The 8 eyelets for the lace of a sneaker all lie on a rectangle, four equally spaced on each of the longer sides. The rectangle has a width of 50 mm and a length of 80 mm. There is one eyelet at each vertex of the rectangle. The lace itself must pass between the vertex eyelets along a width side of the rectangle and then crisscross between successive eyelets until it reaches the two eyelets at the other width side of the rectrangle as shown. After passing through these final eyelets, each of the ends of the lace must extend at least 200 mm farther to allow a knot to be tied. Find the minimum length of the lace in millimeters.
Problem 2
An urn contains green balls and blue balls. A second urn contains green balls and blue balls. A single ball is drawn at random from each urn. The probability that both balls are of the same color is 0.58. Find .
Problem 3
Find the number of rational numbers such that when is written as a fraction in lowest terms, the numerator and the denominator have a sum of 1000.
Problem 4
Jon and Steve ride their bicycles along a path that parallels two side-by-side train tracks running the east/west direction. Jon rides east as 20 miles per hour, and Steve rides west at 20 miles per hour. Two trains of equal length, traveling in opposite directions at constant but different speeds each pass the two riders. Each train takes exactly 1 minute to go past Jon. The westbound train takes 10 times as long as the eastbound train to go past Steve. The length of each train is , where and are relatively prime positive integers. Find .
Problem 5
Let the set consist of the twelve vertices of a regular 12-gon. A subset of is called communal if there is a circle such that all points of are inside the circle, and all points of not in are outside of the circle. How many communal subsets are there? (Note that the empty set is a communal subset.)
Problem 6
The graphs and have y-intercepts of 2013 and 2014, respectively, and each graph has two positive integer x-intercepts. Find .
Problem 7
Let and be complex numbers such that and . Let . The maximum possible value of can be written as , where and are relatively prime positive integers. Find . (Note that , for w , denotes the measure of the angle that the ray from 0 to makes with the positive real axis in the complex plane.
Problem 8
The positive integers and both end in the same sequence of four digits when written in base 10, where digit a is not zero. Find the three-digit number .
Problem 9
Let be the three real roots of the equation . Find .
Problem 10
A disk with radius 1 is externally tangent to a disk with radius 5. Let be the point where the disks are tangent, be the center of the smaller disk, and be the center of the larger disk. While the larger disk remains fixed, the smaller disk is allowed to roll along the outside of the larger disk until the smaller disk has turned through an angle of . That is, if the center of the smaller disk has moved to the point , and the point on the smaller disk that began at has now moved to point , then is parallel to . Then , where and are relatively prime positive integers. Find .
Problem 11
A token starts at the point of an -coordinate grid and them makes a sequence of six moves. Each move is 1 unit in a direction parallel to one of the coordinate axes. Each move is selected randomly from the four possible directions and independently of the other moves. The probability the token ends at a point on the graph of is , where and are relatively prime positive integers. Find .
Problem 12
Let , and and be randomly chosen (not necessarily distinct) functions from to . The probability that the range of and the range of are disjoint is , where and are relatively prime positive integers. Find .
Problem 13
On square points , and lie on sides and respectively, so that and . Segments and intersect at a point , and the areas of the quadrilaterals and are in the ratio 269:275:405:411. Find the area of square .
Problem 14
Let be the largest real solution to the equation
There are positive integers and such that . Find .
Problem 15
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.