Difference between revisions of "1989 AIME Problems/Problem 2"
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== Solution == | == Solution == | ||
− | Any [[subset]] of the ten points with three or more members can be made into exactly one such polygon. Thus, we need to count the number of such subsets. There are <math>2^{10} = 1024</math> total subsets of a ten-member [[set]], but of these <math>{10 \choose 0} = 1</math> have 0 members, <math>{10 \choose 1} = 10</math> have 1 member and <math>{10 \choose 2} = 45</math> have 2 members. Thus the answer is <math>1024 - 1 - 10 - 45 = 968</math>. | + | Any [[subset]] of the ten points with three or more members can be made into exactly one such polygon. Thus, we need to count the number of such subsets. There are <math>2^{10} = 1024</math> total subsets of a ten-member [[set]], but of these <math>{10 \choose 0} = 1</math> have 0 members, <math>{10 \choose 1} = 10</math> have 1 member and <math>{10 \choose 2} = 45</math> have 2 members. Thus the answer is <math>1024 - 1 - 10 - 45 = \boxed{968}</math>. |
− | Note <math> | + | Note <math>{n \choose 0}+{n \choose 1} + {n \choose 2} + \dots + {n \choose n}</math> is equivalent to <math>2^n</math> |
== See also == | == See also == |
Latest revision as of 07:30, 27 October 2018
Problem
Ten points are marked on a circle. How many distinct convex polygons of three or more sides can be drawn using some (or all) of the ten points as vertices?
Solution
Any subset of the ten points with three or more members can be made into exactly one such polygon. Thus, we need to count the number of such subsets. There are total subsets of a ten-member set, but of these have 0 members, have 1 member and have 2 members. Thus the answer is .
Note is equivalent to
See also
1989 AIME (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 |
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