2018 AIME II Problems/Problem 3
Problem
Find the sum of all positive integers such that the base- integer is a perfect square and the base- integer is a perfect cube.
Solution 1
The first step is to convert and into base-10 numbers. Then, we can write and . It should also be noted that .
Because there are less perfect cubes than perfect squares for the restriction we are given on , it is best to list out all the perfect cubes. Since the maximum can be is 1000 and • , we can list all the perfect cubes less than 2007.
Now, must be one of . However, will always be odd, so we can eliminate the cubes of the even numbers and change our list of potential cubes to , and .
Because is a perfect square and is clearly divisible by 3, it must be divisible by 9, so is divisible by 3. Thus the cube, which is , must also be divisible by 3. Therefore, the only cubes that could potentially be now are and .
We need to test both of these cubes to make sure is a perfect square.
If we set equal to , . If we plug this value of b into , the expression equals , which is indeed a perfect square.
If we set equal to , . If we plug this value of b into , the expression equals , which is .
We have proven that both and are the only solutions, so .
Solution 2
The conditions are: We can see is multiple is 3, so let , then . Substitute into second condition and we get . Now we know is both a multiple of 3 and odd. Also, must be smaller than 13 for to be smaller than 1000. So the only two possible values for are 3 and 9. Test and they both work. The final answer is . -Mathdummy
Solutino 3
As shown above, let such that and
See Also
2018 AIME II (Problems • Answer Key • Resources) | ||
Preceded by Problem 2 |
Followed by Problem 4 | |
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