Difference between revisions of "1962 AHSME Problems/Problem 27"
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The third rule is a little more complex. To see if it works, let’s split the possibilities into three cases. a < b < c, b < a < c, and b < c < a. For the first case, the equation simplifies to a = a, which is correct. In the second case, the equation simplifies to a = a, which is correct. For the last case, the equation simplifies to c = c, which is also correct. Since all three cases work, this rule also works. | The third rule is a little more complex. To see if it works, let’s split the possibilities into three cases. a < b < c, b < a < c, and b < c < a. For the first case, the equation simplifies to a = a, which is correct. In the second case, the equation simplifies to a = a, which is correct. For the last case, the equation simplifies to c = c, which is also correct. Since all three cases work, this rule also works. | ||
− | Thus, our answer is <math>\boxed{\bold{E}}</math> | + | Thus, our answer is <math>\boxed{\bold{E) All three}}</math> |
Revision as of 21:33, 19 November 2019
Problem
Let represent the operation on two numbers, and , which selects the larger of the two numbers, with . Let represent the operator which selects the smaller of the two numbers, with . Which of the following three rules is (are) correct?
Solution
The first rule must be correct as both sides of the equation pick the larger out of a and b.
The second rule must also be correct as both sides would end up picking the largest out of a, b, and c.
WLOG, lets assume b < c.
The third rule is a little more complex. To see if it works, let’s split the possibilities into three cases. a < b < c, b < a < c, and b < c < a. For the first case, the equation simplifies to a = a, which is correct. In the second case, the equation simplifies to a = a, which is correct. For the last case, the equation simplifies to c = c, which is also correct. Since all three cases work, this rule also works.
Thus, our answer is