juantheron
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Proving the result 
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Exponential and factorial inequality (1 Viewer)
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juantheron
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Last edited:
juantheron
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It is also true for n=6.
Induction proof.
.
Hence by the principal of mathematical induction, it is true for all integers
Thanks Tywebb.
I have tried like this way
I am assuming
So we have
synthesisFR
afterhscivemostlybeentrollingdonttakeitsrsly
U need to stop pulling out the uni stuff for mx2Thanks Tywebb.
I am assuming
So we have^n}=2\prod^{\frac{n}{2}-1}_{r=1}\frac{\bigg(\frac{n}{2}-r\bigg)\bigg(\frac{n}{2}+r\bigg)}{\frac{n}{2}\cdot \frac{n}{2}}=2\prod^{\frac{n}{2}-1}_{r=1}\bigg[1-\frac{r^2}{\bigg(\frac{n}{2}\bigg)^2}\bigg]<1)
or thisUsing your hint , We use Stirling approximation
So we have^{\frac{1}{n}}}\approx e>2\Longrightarrow n!<\bigg(\frac{n}{2}\bigg)^n)