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Wallis' product exploration
02-09-2020, 03:08 PM (This post was last modified: 02-09-2020 03:59 PM by Allen.)
Post: #12
Allen Offline
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RE: Wallis' product exploration
Nice, Thank you for checking in CAS!

of course at infinite limits the extra +1/2 is irrelevant, and since \( \binom{n-\frac{1}{2}} {n}^{2} = \binom{-1/2} {n}^{2} \), we can remove some more symbols.


as we can see on a discrete limit Wolfram alpha (or with continuous n)

\( \pi = \lim\limits_{n\to\infty} \frac {1} {n \binom{-\frac{1}{2}} {n}^{2}} \)

or circumference \(c \) is

\( c = \lim\limits_{n\to\infty} 2 \binom{-\frac{1}{2}} {n}^{-2} \)
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Messages In This Thread
Wallis' product exploration - pinkman - 02-07-2020, 10:55 PM
RE: Wallis' product exploration - pinkman - 02-08-2020, 02:42 PM
RE: Wallis' product exploration - Allen - 02-08-2020, 07:13 PM
RE: Wallis' product exploration - Allen - 02-08-2020, 08:58 PM
RE: Wallis' product exploration - pinkman - 02-09-2020, 05:44 AM
RE: Wallis' product exploration - Allen - 02-08-2020, 08:13 PM
RE: Wallis' product exploration - Allen - 02-09-2020, 01:08 PM
RE: Wallis' product exploration - Allen - 02-09-2020, 01:57 PM
RE: Wallis' product exploration - Allen - 02-09-2020 03:08 PM
RE: Wallis' product exploration - pinkman - 02-09-2020, 02:14 PM
RE: Wallis' product exploration - EdS2 - 02-10-2020, 10:35 AM
RE: Wallis' product exploration - pinkman - 02-11-2020, 10:02 AM
RE: Wallis' product exploration - pinkman - 02-12-2020, 10:01 PM



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