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The Legendre polynomials are implemented in MATLAB as vectors, where you also get all the associated Legendre polynomials evaluated at a particular point x. Thus, I don't know how I can use these functions inside an integral. My question is:

How can I evaluate the (NUMERICALLY CALCUALTED(!)) integral from -1 to 1 over the n-th Legendre polynomial in Matlab?

EDIT: As I received an answer that is really not what I want: I want to use the implementation of the Legendre polynomials in MATLAB cause other suggestions may be highly unstable.

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    Matlab functions for numerical integration are trapz and cumtrapz. – thewaywewalk Sep 22 '14 at 12:55
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    @thewaywewalk yes, but I don't understand how I make him integrating over the Legendre polynomial. – Tokoyo Sep 22 '14 at 13:00
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n=3 % degree of Legendre polynomial
step=0.1 % integration step
trapz(legendre(n,-1:step:1)')*step

this should do what you want

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As @thewaywewalk mentionned, you can use trapz to numerically integrate.

Legendre polynomials of degree n are defined as:

enter image description here

Therefore you can define them in Matlab like so:

sym x % You probably have to define x as being symbolic since you integrate as a function of x.
x = -1:0.1:1;

n = 1; Change according to the degree of the polynomial.

F = (x.^2)-1).^n;

Pol_n = (1./((2.^n).*factorial(n))).*diff(F,x,n) % n is the degree of the polynomial

Then using trapz :

Output = trapz(x,Pol_n)

That should get you going.

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