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stunner5000pt
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[SOLVED] Potential of a sphere
The potential at the surface of a sphere of a radius R is given by V_{0} = k\cos 3\theta. Find the potential inside and outside the sphere.
Solution to Laplace's equation in spherical coords is given by
V(r,\theta)=\sum_{l=1}^{\infty}\left(A_{l}r^l + \frac{B_{l}}{r^{l+1}}\right)P_{l}(\cos\theta)
\cos 3\theta = 4\cos^3\theta-3\cos\theta
The only problem really is finding the coefficient A. B is related to A like
B_{l}=-A_{l}R^{2l+1}
I used the expansion of the cosine and found a linear combination of the Legendre Polynomials such that
V_{0} = \frac{8}{5}kP_{3}(\cos\theta)-\frac{3}{5}kP_{1}(\cos\theta)
From here can i just say that
A_{3} = \frac{8k}{5R^3} and
A_{1} = \frac{-3k}{5R}
or do i have to solve for A using
A_{l} = \frac{2l+1}{2R^l} \int_{0}^{\pi} V_{0}(\theta) P_{l}(\cos\theta)\sin\theta d\theta
Thanks for your help!
Homework Statement
The potential at the surface of a sphere of a radius R is given by V_{0} = k\cos 3\theta. Find the potential inside and outside the sphere.
Homework Equations
Solution to Laplace's equation in spherical coords is given by
V(r,\theta)=\sum_{l=1}^{\infty}\left(A_{l}r^l + \frac{B_{l}}{r^{l+1}}\right)P_{l}(\cos\theta)
\cos 3\theta = 4\cos^3\theta-3\cos\theta
The Attempt at a Solution
The only problem really is finding the coefficient A. B is related to A like
B_{l}=-A_{l}R^{2l+1}
I used the expansion of the cosine and found a linear combination of the Legendre Polynomials such that
V_{0} = \frac{8}{5}kP_{3}(\cos\theta)-\frac{3}{5}kP_{1}(\cos\theta)
From here can i just say that
A_{3} = \frac{8k}{5R^3} and
A_{1} = \frac{-3k}{5R}
or do i have to solve for A using
A_{l} = \frac{2l+1}{2R^l} \int_{0}^{\pi} V_{0}(\theta) P_{l}(\cos\theta)\sin\theta d\theta
Thanks for your help!