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| Multiply In Pairs, Get Product (Posted on 2007-07-26) |
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Determine all possible positive real quadruplets (p, q, r, s) satisfying the following system of equations:
pqrs = 27 + pq+ pr + ps + qr + qs + rs
p+q+r+s = 12
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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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In terms of AM- GM inequality, we obtain:
(pq+ pr + ps + qr + qs + rs)/6 ≥ ((pqrs)3)1/6 = V(pqrs)
or, (27+ pq+ pr + ps + qr + qs + rs)≥ 27 + 6*V(pqrs)
Thus:
pqrs ≥ 27 + 6*V(pqrs)
Or, (Vpqrs + 3)*(Vpqrs - 9) ≥ 0
Or, Vpqrs ≥ 9, ignoring the other inequality since each of p, q, r and s are positive.......(i)
Again, 12 = p+q+r+s ≥ 4*(pqrs)1/4
Or, V(pqrs)≤ 3^2 = 9........(ii)
From (i) and (ii), we obtain V(pqrs) = 9, so that from AM- GM inequality, it follows that each of the four numbers must be equal.
This is possible iff p=q=r=s=3, which is the only possible solution to the given problem.
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Subject |
Author |
Date |
 | Solution | Praneeth | 2007-07-26 11:23:25 |
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