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(FRA 5) Let \alpha(n) be the number of pairs (x, y) of integers such that x+y = n, 0 \le y \le x, and let \beta(n) be the number of triples (x, y, z) such thatx + y + z = n and 0 \le z \le y \le x. Find a simple relation between \alpha(n) and the integer part of the number \frac{n+2}{2} and the relation among \beta(n), \beta(n -3) and \alpha(n). Then evaluate \beta(n) as a function of the residue of n modulo 6. What can be said about \beta(n) and 1+\frac{n(n+6)}{12}? And what about \frac{(n+3)^2}{6}?
Find the number of triples (x, y, z) with the property x+ y+ z \le n, 0 \le z \le y \le x as a function of the residue of n modulo 6.What can be said about the relation between this number and the number \frac{(n+6)(2n^2+9n+12)}{72}?

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