Difference between revisions of "1997 AIME Problems/Problem 1"

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== Solution ==
 
== Solution ==
If we let the two squares be <math>a^2 - b^2 = x</math>, then by difference of squares we have <math>(a-b)(a+b) = x</math>. Notice that <math>a-b</math> and <math>a+b</math> have the same [[parity|parities]]. This eliminates all numbers in the form of <math>4n+2</math>: when <math>x=2(2n+1)</math> is factored, one of the factors must be even, but not both, so its factors cannot have the same parity. However, one cannot be represented as the difference of squares.
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Notice that all odd numbers can be obtained by using <math>(a+1)^2-a^2=2a+1,</math> where <math>a</math> is a nonnegative integer. All multiples of <math>4</math> can be obtained by using <math>(b+1)^2-(b-1)^2 = 4b</math>, where <math>b</math> is a positive integer. Numbers congruent to <math>2 \pmod 4</math> cannot be obtained because squares are <math>-1, 0, 1 \pmod 4.</math> Thus, the answer is <math>500+250 = \boxed{750}.</math>
 
 
For the remaining <math>\boxed{749}</math> numbers with the exception of 1, we can describe specific squares which fit the conditions:
 
*For all odd <math>x = 2n+1</math>, <math>(n+1)^2 - (n^2) = x</math>.
 
*For all <math>x = 4n</math>, <math>(n+1)^2 - (n-1)^2 = x</math>.
 
  
 
== See also ==
 
== See also ==

Revision as of 03:01, 10 January 2019

Problem

How many of the integers between 1 and 1000, inclusive, can be expressed as the difference of the squares of two nonnegative integers?

Solution

Notice that all odd numbers can be obtained by using $(a+1)^2-a^2=2a+1,$ where $a$ is a nonnegative integer. All multiples of $4$ can be obtained by using $(b+1)^2-(b-1)^2 = 4b$, where $b$ is a positive integer. Numbers congruent to $2 \pmod 4$ cannot be obtained because squares are $-1, 0, 1 \pmod 4.$ Thus, the answer is $500+250 = \boxed{750}.$

See also

1997 AIME (ProblemsAnswer KeyResources)
Preceded by
First Question
Followed by
Problem 2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
All AIME Problems and Solutions

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