Difference between revisions of "2008 AIME I Problems/Problem 6"
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− | The result above is fairly intuitive if we write out several rows, each time dividing the result through by <math>2</math> (as this doesn't affect divisibility by <math>67</math>). The second row will be <math>2, 4, 6, \cdots , 98</math>, the third row will be <math>3, 5, \cdots, 97</math>, and so forth. Clearly, only the odd-numbered rows can have a term divisible by <math>67</math>. However, | + | The result above is fairly intuitive if we write out several rows, each time dividing the result through by <math>2</math> (as this doesn't affect divisibility by <math>67</math>). The second row will be <math>2, 4, 6, \cdots , 98</math>, the third row will be <math>3, 5, \cdots, 97</math>, and so forth. Clearly, only the odd-numbered rows can have a term divisible by <math>67</math>. However, with each row the row will have one less element, and the <math>100-67 = 33</math>rd row is the last time <math>67</math> will appear. |
== See also == | == See also == |
Revision as of 17:38, 5 September 2008
Problem
A triangular array of numbers has a first row consisting of the odd integers in increasing order. Each row below the first has one fewer entry than the row above it, and the bottom row has a single entry. Each entry in any row after the top row equals the sum of the two entries diagonally above it in the row immediately above it. How many entries in the array are multiples of ?
Solution
Let the th number in the th row be . Writing out some numbers, we find that .[1]
We wish to find all such that . Since and are relatively prime, it follows that . Since every row has one less element than the previous row, (the first row has elements, the second , and so forth; so can range from to in the first row, and so forth). Hence
it follows that implies that itself.
Now, note that we need to be odd, and also that .
We can check that all rows with odd satisfying indeed contains one entry that is a multiple of , and so the answer is .
^ Proof: Indeed, note that , which is the correct formula for the first row. We claim the result by induction on . By definition of the array, , and by our inductive hypothesis,
thereby completing our induction.
The result above is fairly intuitive if we write out several rows, each time dividing the result through by (as this doesn't affect divisibility by ). The second row will be , the third row will be , and so forth. Clearly, only the odd-numbered rows can have a term divisible by . However, with each row the row will have one less element, and the rd row is the last time will appear.
See also
2008 AIME I (Problems • Answer Key • Resources) | ||
Preceded by Problem 5 |
Followed by Problem 7 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |