Difference between revisions of "2006 AIME I Problems"
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== Problem 8 == | == Problem 8 == | ||
− | Hexagon <math> ABCDEF </math> is divided into five rhombuses, <math> \mathcal{P, Q, R, S,} </math> and <math> \mathcal{T,} </math> as shown. Rhombuses <math> \mathcal{P, Q, R,} </math> and <math> \mathcal{S} </math> are congruent, and | + | Hexagon <math> ABCDEF </math> is divided into five rhombuses, <math> \mathcal{P, Q, R, S,} </math> and <math> \mathcal{T,} </math> as shown. Rhombuses <math> \mathcal{P, Q, R,} </math> and <math> \mathcal{S} </math> are congruent, and www.artofproblemsolving.comt <math> K </math> be the area of rhombus <math> \mathcal{T}. </math> Given that <math> K </math> is a positive integer, find the number of possible values for <math> K. </math> |
[[Image:2006AimeA8.PNG]] | [[Image:2006AimeA8.PNG]] |
Revision as of 14:12, 14 May 2011
2006 AIME I (Answer Key) | AoPS Contest Collections | ||
Instructions
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1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 |
Contents
Problem 1
In quadrilateral is a right angle, diagonal is perpendicular to and Find the perimeter of
Problem 2
Let set be a 90-element subset of and let be the sum of the elements of Find the number of possible values of
Problem 3
Find the least positive integer such that when its leftmost digit is deleted, the resulting integer is of the original integer.
Problem 4
Let be the number of consecutive 0's at the right end of the decimal representation of the product Find the remainder when is divided by 1000.
Problem 5
The number can be written as where and are positive integers. Find
Problem 6
Let be the set of real numbers that can be represented as repeating decimals of the form where are distinct digits. Find the sum of the elements of
Problem 7
An angle is drawn on a set of equally spaced parallel lines as shown. The ratio of the area of shaded region to the area of shaded region is 11/5. Find the ratio of shaded region to the area of shaded region
Problem 8
Hexagon is divided into five rhombuses, and as shown. Rhombuses and are congruent, and www.artofproblemsolving.comt be the area of rhombus Given that is a positive integer, find the number of possible values for
Problem 9
The sequence is geometric with and common ratio where and are positive integers. Given that find the number of possible ordered pairs Solution
Problem 10
Eight circles of diameter 1 are packed in the first quadrant of the coordinte plane as shown. Let region be the union of the eight circular regions. Line with slope 3, divides into two regions of equal area. Line 's equation can be expressed in the form where and are positive integers whose greatest common divisor is 1. Find
Problem 11
A collection of 8 cubes consists of one cube with edge-length for each integer A tower is to be built using all 8 cubes according to the rules:
- Any cube may be the bottom cube in the tower.
- The cube immediately on top of a cube with edge-length must have edge-length at most
Let be the number of different towers than can be constructed. What is the remainder when is divided by 1000?
Problem 12
Find the sum of the values of such that where is measured in degrees and
Problem 13
For each even positive integer let denote the greatest power of 2 that divides For example, and For each positive integer let Find the greatest integer less than 1000 such that is a perfect square.
Problem 14
A tripod has three legs each of length 5 feet. When the tripod is set up, the angle between any pair of legs is equal to the angle between any other pair, and the top of the tripod is 4 feet from the ground In setting up the tripod, the lower 1 foot of one leg breaks off. Let be the height in feet of the top of the tripod from the ground when the broken tripod is set up. Then can be written in the form where and are positive integers and is not divisible by the square of any prime. Find (The notation denotes the greatest integer that is less than or equal to )
Problem 15
Given that a sequence satisfies and for all integers find the minimum possible value of