1996 AIME Problems/Problem 14
Problem
A rectangular solid is made by gluing together cubes. An internal diagonal of this solid passes through the interiors of how many of the cubes?
Solution
Solution 1
Place one corner of the solid at and let be the general coordinates of the diagonally opposite corner of the rectangle, where .
We consider the vector equation of the diagonal segment represented by: , where .
Consider a point on the diagonal with coordinates . We have 3 key observations as this point moves from towards :
- When exactly one of , , becomes a positive integer, the point crosses one of the faces of a cube from the outside to the inside of the cube.
- When exactly two of , , become positive integers, the point enters a new cube through one of the edges of the cube from the outside to the inside of the cube.
- When all three , , become positive integers, the point enters a cube through one of its vertices from the outside to the inside of the cube.
The number of cubes the diagonal passes is equal to the number of points on the diagonal that has one or more positive integers as coordinates.
If we slice the solid up by the -planes defined by , the diagonal will cut these -planes exactly times (plane of is not considered since ). Similar arguments for slices along -planes and -planes give diagonal cuts of , and times respectively. The total cuts by the diagonal is therefore , if we can ensure that no more than positive integer is present in the x, y, or z coordinate in all points on the diagonal. Note that point is already one such exception.
But for each diagonal point with 2 (or more) positive integers occurring at the same time, counts the number of cube passes as instead of for each such point. There are points in such over-counting. We therefore subtract one time such over-counting from .
And for each diagonal point with exactly integers occurring at the same time, counts the number of cube passes as instead of ; ie over-counts each of such points by . But since already subtracted three times for the case of integers occurring at the same time (since there are of these gcd terms that represent all combinations of 3 edges of a cube meeting at a vertex), we have the final count for each such point as , where is our correction term. That is, we need to add time back to account for the case of 3 simultaneous integers.
Therefore, the total diagonal cube passes is: .
For , we have: , , , .
Therefore .
Solution 2
Consider a point travelling across the internal diagonal, and let the internal diagonal have a length of . The point enters a new unit cube in the dimensions at multiples of respectively. We proceed by using PIE.
The point enters a new cube in the dimension times, in the dimension times and in the dimension, times.
The point enters a new cube in the and dimensions whenever a multiple of equals a multiple of . This occurs times. Similarly, a point enters a new cube in the dimensions times and a point enters a new cube in the dimensions times.
The point enters a new cube in the and dimensions whenever some multiples of are equal. This occurs times.
The total number of unit cubes entered is then
See also
1996 AIME (Problems • Answer Key • Resources) | ||
Preceded by Problem 13 |
Followed by Problem 15 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
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