Calculating 52 Factorial By Hand 


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Calculating 52 Factorial By Hand  2016/01/04Some time ago I gave a talk in which I showed that something unexpected happened with a deck of playing cards. I had some volunteers try it, and while they did so I talked about just how many orderings there are for 52 cards. I computed (an approximation to) $52!$ (52 factorial) by hand. It's not so hard  you just calculate $54!$ and then divide by 3000. I know that sounds like a joke, but it's not. Here's why. Firstly, I'm going to be really rough and ready here, and we can come back later to refine our calculations. So I'll start with Stirling's approximation to the factorial:
We can use that to compute $52!,$ but suddenly we notice that $e$ is roughly $2.7.$ That means that if we compute $54!$ we get:
And $54/e$ is roughly $20,$ so this simplifies enormously. Taking just the first part:
We can break that down further:
And
Trace that back, reinsert it all, and we have:
Now we return to $\sqrt{2{\pi}54}.$ Using $pi\approx3$ this simplifies to $\sqrt{324}$ which is 18. Pulling it all together, we get:
But now we want to divide by $(53\times54),$ which is close enough to $2880,$ so we get:
And there we are  we've computed (an approximation to) $52!$ by computing $54!$ and dividing by $3000.$ Obvious, really.
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