Difference between revisions of "2003 AIME I Problems/Problem 2"
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The sum of the areas of the green regions is | The sum of the areas of the green regions is | ||
− | < | + | <cmath>\left[(2^2-1^2)+(4^2-3^2)+(6^2-5^2)+\cdots+(100^2-99^2)\right]\pi</cmath> |
− | + | <cmath>=\left[(2+1)+(4+3)+(6+5)+\cdots+(100+99)\right]\pi</cmath> | |
− | \left[(2^2-1^2)+(4^2-3^2)+(6^2-5^2)+\cdots+(100^2-99^2)\right]\pi | + | <cmath>={1\over2}\cdot100\cdot101\pi.</cmath> |
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Thus the desired ratio is<cmath>{1\over2}\cdot{{100\cdot101\pi}\over{100^2\pi}}={101\over200},</cmath>and <math>m+n=\boxed{301}</math>. | Thus the desired ratio is<cmath>{1\over2}\cdot{{100\cdot101\pi}\over{100^2\pi}}={101\over200},</cmath>and <math>m+n=\boxed{301}</math>. |
Latest revision as of 14:49, 8 March 2021
Problem
One hundred concentric circles with radii are drawn in a plane. The interior of the circle of radius is colored red, and each region bounded by consecutive circles is colored either red or green, with no two adjacent regions the same color. The ratio of the total area of the green regions to the area of the circle of radius can be expressed as where and are relatively prime positive integers. Find
Solution 1
To get the green area, we can color all the circles of radius or below green, then color all those with radius or below red, then color all those with radius or below green, and so forth. This amounts to adding the area of the circle of radius , but subtracting the circle of radius , then adding the circle of radius , and so forth.
The total green area is thus given by , while the total area is given by , so the ratio is
For any , . We can cancel the factor of pi from the numerator and denominator and simplify the ratio to
Using the formula for the sum of an arithmetic series, we see that this is equal to
so the answer is .
Alternatively, we can determine a pattern through trial-and-error using smaller numbers.
- For circles, the ratio is .
- For circles, the ratio is .
- For circles, the ratio is .
- For circles, the ratio is .
Now the pattern for each ratio is clear. Given circles, the ratio is . For the circle case (which is what this problem is), , and the ratio is .
Also, using the difference of squares, the expression simplifies to . We can easily determine the sum with . Simplifying gives us and the answer is .
Solution 2 (synergy)
We want to find
Solution 3 (Alcumus)
The sum of the areas of the green regions is
Thus the desired ratio isand .
See also
2003 AIME I (Problems • Answer Key • Resources) | ||
Preceded by Problem 1 |
Followed by Problem 3 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.