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To prove by induction that n! > 2n for n > 3, n  N

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Presentation on theme: "To prove by induction that n! > 2n for n > 3, n  N"— Presentation transcript:

1 To prove by induction that n! > 2n for n > 3, n  N
Next (c) Project Maths Development Team 2011

2 (c) Project Maths Development Team 2011
To prove by induction that n! > 2n for n > 3, n  N Prove : n! > 2n for n = 4 n! = 4! = 24 24 = 16 24 > 16 True for n = 4 Next (c) Project Maths Development Team 2011

3 (c) Project Maths Development Team 2011
To prove by induction that n! > 2n for n > 3, n  N Assume true for n = k Therefore k! > 2k Prove true for n=k+1 Multiply each side by k + 1 (As k>3 hence (k+1) must be positive) (k + 1)k! > (k + 1)2k (k + 1)! >(k + 1)2k (Because (k+1)k!=(k+1)!) (k + 1)! > 2k (k + 1 > 2 since k > 3) If true for n = k this implies it is true for n = k+1. It is true for n = 4. Hence k! > 2k for n > 3, n  N (c) Project Maths Development Team 2011

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