(33S) Legendre Polynomials

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(33S) Legendre Polynomials

05-18-2022, 07:34 PM

Post: #4

Thomas Klemm Offline

Senior Member

Posts: 2,057
Joined: Dec 2013

RE: (33S) Legendre Polynomials

From the aforementioned link:

\(
(n+1)P_{n+1}(x)=(2n+1)xP_{n}(x)-nP_{n-1}(x)
\)

Initial values are:

\(
\begin{align}
P_0(x) &= 1 \\
P_1(x) &= x \\
\end{align}
\)

I knew that we have an expert here: (49g 50g) Gegenbauer and Jacobi Polynomials

From the Wikipedia article Gegenbauer polynomials:

Quote:When α = 1/2, the equation reduces to the Legendre equation, and the Gegenbauer polynomials reduce to the Legendre polynomials.

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Messages In This Thread

(33S) Legendre Polynomials - Eddie W. Shore - 05-18-2022, 02:59 AM

RE: (33S) Legendre Polynomials - Thomas Klemm - 05-18-2022, 04:02 PM

RE: (33S) Legendre Polynomials - John Keith - 05-18-2022, 05:11 PM

RE: (33S) Legendre Polynomials - Albert Chan - 05-18-2022, 08:34 PM

RE: (33S) Legendre Polynomials - Thomas Klemm - 05-18-2022 07:34 PM

RE: (33S) Legendre Polynomials - Thomas Klemm - 05-18-2022, 11:13 PM

RE: (33S) Legendre Polynomials - Thomas Klemm - 05-20-2022, 04:10 PM

RE: (33S) Legendre Polynomials - Albert Chan - 05-20-2022, 05:51 PM

RE: (33S) Legendre Polynomials - Thomas Klemm - 05-20-2022, 08:08 PM

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