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Difference between revisions of "2006 Canadian MO Problems/Problem 1"

m (Solution: box)
Line 8: Line 8:
  
 
{{CanadaMO box|year=2006|before=First question|num-a=2}}
 
{{CanadaMO box|year=2006|before=First question|num-a=2}}
 +
 +
The number of ways of distributing k candies to 2006 children is equal to the number of ways of distributing
 +
0 to a particular child and k to the rest, plus the number of ways of distributing 1 to the particular child and k ¡ 1
 +
to the rest, plus the number of ways of distributing 2 to the particular child and k ¡ 2 to the rest. Thus f(2006; k) =
 +
f(2005; k) + f(2005; k ¡ 1) + f(2005; k ¡ 2), so that the required sum is
 +
1 +
 +
1003 X
 +
k=1
 +
f(2005; k) :
 +
In evaluating f(n; k), suppose that there are r children who receive 2 candies; these r children can be chosen in ¡n
 +
r
 +
¢
 +
ways.
 +
Then there are k ¡ 2r candies from which at most one is given to each of n ¡ r children. Hence
 +
f(n; k) =
 +
b
 +
X
 +
k=2c
 +
r=0
 +
µ
 +
n
 +
r
 +
¶µ n ¡ r
 +
k ¡ 2r
 +
 +
=
 +
X1
 +
r=0
 +
µ
 +
n
 +
r
 +
¶µ n ¡ r
 +
k ¡ 2r
 +
 +
;
 +
with ¡
 +
x
 +
y
 +
¢
 +
= 0 when x < y and when y < 0. The answer is
 +
1003 X
 +
k=0
 +
X1
 +
r=0
 +
µ
 +
2005
 +
r
 +
¶µ2005 ¡ r
 +
k ¡ 2r
 +
 +
=
 +
X1
 +
r=0
 +
µ
 +
2005
 +
r
 +
¶ 1003 X
 +
k=0
 +
µ
 +
2005 ¡ r
 +
k ¡ 2r
 +
 +
:

Revision as of 20:18, 25 September 2013

Problem

Let $f(n,k)$ be the number of ways distributing $k$ candies to $n$ children so that each child receives at most two candies. For example, $f(3,7)=0$, $f(3,6)=1$, and $f(3,4)=6$. Evaluate $f(2006,1)+f(2006,4)+f(2006,7)+\dots+f(2006,1003)$.

Solution

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See also

2006 Canadian MO (Problems)
Preceded by
First question 		1 2 3 4 5 Followed by
Problem 2

The number of ways of distributing k candies to 2006 children is equal to the number of ways of distributing 0 to a particular child and k to the rest, plus the number of ways of distributing 1 to the particular child and k ¡ 1 to the rest, plus the number of ways of distributing 2 to the particular child and k ¡ 2 to the rest. Thus f(2006; k) = f(2005; k) + f(2005; k ¡ 1) + f(2005; k ¡ 2), so that the required sum is 1 + 1003 X k=1 f(2005; k) : In evaluating f(n; k), suppose that there are r children who receive 2 candies; these r children can be chosen in ¡n r ¢ ways. Then there are k ¡ 2r candies from which at most one is given to each of n ¡ r children. Hence f(n; k) = b X k=2c r=0 µ n r ¶µ n ¡ r k ¡ 2r ¶ = X1 r=0 µ n r ¶µ n ¡ r k ¡ 2r ¶

with ¡ x y ¢ = 0 when x < y and when y < 0. The answer is 1003 X k=0 X1 r=0 µ 2005 r ¶µ2005 ¡ r k ¡ 2r ¶ = X1 r=0 µ 2005 r ¶ 1003 X k=0 µ 2005 ¡ r k ¡ 2r ¶

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