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What is the positive integer \(n\)?
(1) For every positive integer \(m\), \((m+n)!/(m-1)!\) is divisible by \(16\)
(2) \(n^2 - 9n + 20 = 0\)
Please explain your answer because I couldn't even understand how to approach this problem.
(1) For every positive integer \(m\), \((m+n)!/(m-1)!\) is divisible by \(16\)
(2) \(n^2 - 9n + 20 = 0\)
Please explain your answer because I couldn't even understand how to approach this problem.
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21 Sep 2008, 09:30
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IMO .... E
1) INSF , m and n can be many different numbers that could be multiple of 16
2) INSF, (n-5)(n-4) - n could be 5 or 4
Together - INSF - Sat m =2, plug 5 or 4 into equation and both yield integers
INSF... answer E
1) INSF , m and n can be many different numbers that could be multiple of 16
2) INSF, (n-5)(n-4) - n could be 5 or 4
Together - INSF - Sat m =2, plug 5 or 4 into equation and both yield integers
INSF... answer E
21 Sep 2008, 10:08
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tarek99
(1) Insufficient
\((m+n)!/(m-1)! = (m+n)*(m+n-1)*(m+n-2)*...*m\)
This expression is divisible by \(2^4\), meaning that when you prime factorize the expression, 2 is a factor at least 4 times.
This is the case for many values of m and n.
(2) Insufficient
\(n^2 - 9n + 20 = 0\)
\((n-5)(n-4) = 0\)
\(n = 5 or 4\)
(1) and (2) Insufficient
For n=5 or n=4, there are values of m that would allow \((m+n)!/(m-1)!\) to be divisible by 16.
