How can I calculate the integral of Legendre function P(n,theta) ?

format long
n = 10;
integral(@(x)cos(x).*legendre(n,x),0,0.5,'ArrayValued',1)
ans = 11x1
1.0e+08 *

   0.000000000145441
  -0.000000001206777
  -0.000000017891223
   0.000000175228961
   0.000002390134810
  -0.000029734731041
  -0.000254703600961
   0.004659715709494
   0.007831261641120
  -0.449733569474298
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Or do you mean the Legendre polynomials:

https://uk.mathworks.com/help/symbolic/sym.legendrep.html

?

syms x

n = 10;

int(cos(x)*legendreP(n,x),x,0,sym(pi))

ans =

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Shreen El-Sapa am 6 Mai 2024

Bearbeitet: Shreen El-Sapa am 6 Mai 2024

associate legendreP @Torsten

I wrote it as Maple code, but I did not know how can I call it in Matlab, can you help me?

Torsten am 6 Mai 2024

As a MATLAB function, I can only find this one for ssociated Legendre functions, and it does not accept symbolic input aguments:

https://uk.mathworks.com/help/matlab/ref/legendre.html

Thus you have to use the numerical integration method that I gave you at first.

Melden Sie sich an, um zu kommentieren.

Answer 2

John D'Errico am 6 Mai 2024

1
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Direkter Link zu dieser Antwort

https://de.mathworks.com/matlabcentral/answers/2115351-how-can-i-calculate-the-integral-of-legendre-function-p-n-theta#answer_1453006

Bearbeitet: John D'Errico am 6 Mai 2024

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@Shreen El-Sapa

I think you do not understand that a Legendre polynomial is meaningless over some other interval. It has no special properties when applied over a different interval. For example, we know that on the interval [-1,1], they form an orthogonal family.

syms x
P2 = legendreP(2,x);
P3 = legendreP(3,x);
int(P2*P3,-1,1)
ans = 0

However, over some other interval, you get:

int(P2*P3,0,pi)

ans =

Yes. Random garbage. You need to understand that fact. On some other interval, they have no useful value or meaning. And that means you need to transform them, IF you will try to use thm on some other interval.

Now first, I will point out that LegendreP returns a polynomial with the property that the integral over [-1,1] the integral of P_n*P_n is 1/(n+1/2). (This is stated in the help docs for legendreP.) So personally, I would tend to make them an orthonormal family, by rescaling by the sqrt of that value.

mylegendreP = @(n,x) legendreP(n,x)*sqrt(sym(n)+1/2);

Testing that, we would have

int(mylegendreP(2,x)*mylegendreP(3,x),-1,1)
ans = 0
int(mylegendreP(3,x)*mylegendreP(3,x),-1,1)
ans = 1

And as you see, they now form an orthonormal family.

Next, in order to use them over a different interval, you need to transform them. Over the interval [a,b], we could do that like this:

mytranslegendreP = @(n,x,a,b) mylegendreP(n,(x-(a+b)/2)/((b-a)/2))/sqrt((b-a)/2)
mytranslegendreP = function_handle with value:
    @(n,x,a,b)mylegendreP(n,(x-(a+b)/2)/((b-a)/2))/sqrt((b-a)/2)

I need to use pi in a symbolic form to make sure there are no numerical problems.

mytranslegendreP(2,x,0,sym(pi))

ans =

It looks a little messy, but test it out.

int(mytranslegendreP(2,x,0,sym(pi))*mytranslegendreP(3,x,0,sym(pi)),0,sym(pi))
ans = 0
int(mytranslegendreP(5,x,0,sym(pi))*mytranslegendreP(5,x,0,sym(pi)),0,sym(pi))
ans = 1

You can see the transformed family is now orthonormal on the interval [0,pi].

In your problem, now we can use it properly.

n = 10;

int(cos(x).^2*mytranslegendreP(n,x,0,sym(pi)),0,sym(pi))

ans =

vpa(ans)

ans =

0.000022277912611803161679787506990139

As I said though, just using the default legendre polynomials on some other interval will yield meaningless garbage. Of course, it is entirely your choice to do as you want. But someone needs to tell you that what you want to do is patently silly and useless. Maybe this is homework. Your choice, anyway.