Difference between revisions of "2005 JBMO Problems/Problem 4"
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The terms cancel, and thus we get that | The terms cancel, and thus we get that | ||
| − | For some (m, n, t | + | For some (m, n, t) which are respectively factors of (a, b, c) |
100m + 10n + t = mnt(m + n + t)j^3 | 100m + 10n + t = mnt(m + n + t)j^3 | ||
With 0 < m, n, t, j < 10 | With 0 < m, n, t, j < 10 | ||
| + | |||
| + | And (m, n, t) being pairwise relatively prime | ||
The computation is left to the reader | The computation is left to the reader | ||
| + | |||
| + | -igetit | ||
Latest revision as of 22:34, 11 April 2019
Let (a, b, c) = k Then a = pk
b = qk
c = rk
100a + 10b + c = abc(a + b + c)
100p + 10q + r = pqr(p + q + r)k^3
We see that if any of (a, b, c) is 0, all the terms are 0, and such (a, b, c) are nonzero
We will show that we can find (m, n, t) such that m, n, and t are factors of a, b, and c respectively, with (m, n, p) being pairwise relatively prime.
Let (p, q) = c with p = cs and q = cy
Then
c(100s + 10y) + r = (c^2)syr(cs + cu + r)k^3
We see that c is also a factor of r.
We get similar results for (p, r) = c and (q, r) = c
The terms cancel, and thus we get that
For some (m, n, t) which are respectively factors of (a, b, c)
100m + 10n + t = mnt(m + n + t)j^3
With 0 < m, n, t, j < 10
And (m, n, t) being pairwise relatively prime
The computation is left to the reader
-igetit
