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| Sum the squares, get factorial (Posted on 2007-04-03) |
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Analytically determine all possible triplets (p, q, r) of positive integers that satisfy q≤r and p≤13 and p!= q²+r².
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Submitted by K Sengupta
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Rating: 3.0000 (1 votes)
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Solution:
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We now that a positive integer can be expressed as sum of two squares if and only if each of its prime factors of the form 4k+3 occurs as an even power. It is given that p is a positive integer. So, p cannot have a prime divisor of the form 4k+3 raised to an odd power.
So, for p = 3, 4, 5 the highest power of 3 dividing p! is 3^1.
For p = 7, 8, 9, 10, 11, 12, 13 the highest power of 7 dividing p! is 7^1.
So in all those cases n! cannot be written as a sum of two squares.
For p=1, we would obtain r^2 + s^1 =1, which does not possess any solution in positive integers.
For p=2; we obtain 1^2 + 1^2 =2, giving (q,r) = (1,1)
For p =6, we obtain 720 =12^2 + 24^2, giving (q,r) = (12, 24)
Thus, (p,q,r) = (2,1,1);(6,12,24) are the only possible solutions to the problem.
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