Checking Qn(x) is a solution to legendre eq. (n=3)

linda300 · Apr 19, 2012

Hey,

I have a question which ends by asking to verify that Q₃(x) is a solution to the legendre equation,

I took the first and second derivatives of it and before I continue with this messy verification I wanted to know if there was a simpler way to check.

Q₃(x) = (1/4)x(5x^2 - 3)log((1+x)/(1-x)),

Is there some quick way to verify its a solution to the n=3 legendre equation? Rather then substituting it straight into the equation?

vela · Apr 21, 2012

Your expression for Q₃(x) seems to be missing a few terms.

Note that ##P_3(x) = \frac{1}{2}(5x^3-3x)## is a factor in the last term. Instead of multiplying everything out and grinding it out, use the fact that P₃(x) satisfies the differential equation.

Checking Qn(x) is a solution to legendre eq. (n=3)

Related to Checking Qn(x) is a solution to legendre eq. (n=3)

1. How do I check if Qn(x) is a solution to the Legendre equation for n=3?

2. What is the Legendre equation and why is it important to check the solutions?

3. Can I use any method to check if Qn(x) is a solution to the Legendre equation?

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5. Are there any other equations that Qn(x) must satisfy to be a valid solution to the Legendre equation?

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