Difference between revisions of "2016 AIME I Problems/Problem 14"
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<cmath> (0,0), (1, \frac{3}{7}), (2, \frac{6}{7}), (3, 1 + \frac{2}{7}), (4, 1 + \frac{5}{7}), (5, 2 + \frac{1}{7}), (6, 2 + \frac{4}{7}), (7,3). </cmath> | <cmath> (0,0), (1, \frac{3}{7}), (2, \frac{6}{7}), (3, 1 + \frac{2}{7}), (4, 1 + \frac{5}{7}), (5, 2 + \frac{1}{7}), (6, 2 + \frac{4}{7}), (7,3). </cmath> | ||
| − | We claim that the lower right vertex of the square centered at <math>(2,1)</math> lies on <math>l</math>. Since the square has side length <math>\frac{1}{5}</math>, the lower right vertex of this square has coordinates | + | We claim that the lower right vertex of the square centered at <math>(2,1)</math> lies on <math>l</math>. Since the square has side length <math>\frac{1}{5}</math>, the lower right vertex of this square has coordinates <math>(2 + \frac{1}{10})</math>, |
Revision as of 17:34, 4 March 2016
Problem
Centered at each lattice point in the coordinate plane are a circle radius 
and a square with sides of length 
whose sides are parallel to the coordinate axes. The line segment from 
to 
intersects 
of the squares and 
of the circles. Find 
.
Solution
First note that 
and 
so every point of the form 
is on the line. Then consider the line 
from to 
. Translate the line so that is now the origin. There is one square and one circle that intersect the line around . Then the points on with an integral 
-coordinate are, since has the equation 
:
![\[(0,0), (1, \frac{3}{7}), (2, \frac{6}{7}), (3, 1 + \frac{2}{7}), (4, 1 + \frac{5}{7}), (5, 2 + \frac{1}{7}), (6, 2 + \frac{4}{7}), (7,3).\]](http://latex.artofproblemsolving.com/8/9/1/891edbf0029fe08e770b58312fe80a4e1f1f0371.png)
We claim that the lower right vertex of the square centered at 
lies on . Since the square has side length , the lower right vertex of this square has coordinates 
,
