\(N = \dfrac{a!\cdot b!\cdot c!\cdot d!}{e!}\) where \(a, b, c,\) and \(d,\) are four distinct positive integers, which

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VJesus12: Legendary Member; Posts: 2276; Joined: Sat Oct 14, 2017 6:10 am; Followed by:3 members

\(N = \dfrac{a!\cdot b!\cdot c!\cdot d!}{e!}\) where \(a, b, c,\) and \(d,\) are four distinct positive integers, which

by VJesus12 » Tue Jan 05, 2021 11:36 am

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\(N = \dfrac{a!\cdot b!\cdot c!\cdot d!}{e!}\) where \(a, b, c,\) and \(d,\) are four distinct positive integers, which are greater than \(1,\) and \(a, e\) are two consecutive numbers, which are prime. What is the least possible value of \(\dfrac{a+b+c+d}{e},\) if \(N\) is divisible by cube of product of the three smallest odd prime numbers?

A. \(\dfrac{26}3\)
B. \(9\)
C. \(\dfrac{21}2\)
D. \(13\)
E. \(\dfrac{27}2\)

Answer: A

Source: e-GMAT

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Source: Beat The GMAT — Problem Solving | Tue Jan 05, 2021 11:36 am

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\(N = \dfrac{a!\cdot b!\cdot c!\cdot d!}{e!}\) where \(a, b, c,\) and \(d,\) are four distinct positive integers, which

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\(N = \dfrac{a!\cdot b!\cdot c!\cdot d!}{e!}\) where \(a, b, c,\) and \(d,\) are four distinct positive integers, which

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