Difference between revisions of "2005 Alabama ARML TST Problems/Problem 3"
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==Problem== | ==Problem== | ||
− | The difference between the | + | The difference between the [[area]]s of the [[circumcircle]] and [[incircle]] of an [[equilateral triangle]] is <math>\displaystyle 300\pi</math> square units. Find the number of units in the [[length]] of a [[edge | side]] of the [[triangle]]. |
==Solution== | ==Solution== | ||
+ | Let <math>R</math> be the [[radius]] of the circumcircle and let <math>r</math> be the radius of the incircle. Then we have <math>R^2-r^2=300</math>. If the center of these two circles is <math>O</math>, the [[vertex | vertices]] are <math>A, B</math> and <math>C</math>, and <math>M</math> is the [[midpoint]] of side <math>AB</math>, triangle <math>\triangle AMO</math> is a <math>30^\circ-60^\circ-90^\circ</math> [[right triangle]], and its [[hypotenuse]] has length <math>R</math> and its shorter leg has length <math>r</math>. Thus <math>R = 2r</math>. (There are many other arguments to get to this conclusion; for instance, <math>O</math> is also the [[centroid]] of the triangle and <math>COM</math> is a [[median]], so <math>O</math> trisects <math>CO</math> and <math>R = CO = 2OM = 2r</math>.) | ||
− | + | Then <math>4r^2 - r^2 = 300</math> so <math>r = 10</math> and the side length of the triangle is equal to <math>10\sqrt 3</math>. | |
+ | ==See Also== | ||
*[[2005 Alabama ARML TST]] | *[[2005 Alabama ARML TST]] | ||
*[[2005 Alabama ARML TST/Problem 2 | Previous Problem]] | *[[2005 Alabama ARML TST/Problem 2 | Previous Problem]] | ||
*[[2005 Alabama ARML TST/Problem 4 | Next Problem]] | *[[2005 Alabama ARML TST/Problem 4 | Next Problem]] |
Revision as of 17:27, 17 November 2006
Problem
The difference between the areas of the circumcircle and incircle of an equilateral triangle is square units. Find the number of units in the length of a side of the triangle.
Solution
Let be the radius of the circumcircle and let be the radius of the incircle. Then we have . If the center of these two circles is , the vertices are and , and is the midpoint of side , triangle is a right triangle, and its hypotenuse has length and its shorter leg has length . Thus . (There are many other arguments to get to this conclusion; for instance, is also the centroid of the triangle and is a median, so trisects and .)
Then so and the side length of the triangle is equal to .