shaun_chou
Oct31-09, 11:36 AM
1. The problem statement, all variables and given/known data
I have problems solving the related Laplace equations in the problem
2. Relevant equations
\frac{1}{\rho}\frac{\partial}{\partial\rho}\rho\fr ac{\partial g_m(\rho,\rho^')}{\partial\rho}-m^2g_m(\rho,\rho^')}=-4\pi\frac{\delta(\rho-\rho^')}{\rho}
3. The attempt at a solution
My questions are as follows:
1. What's the difference between this equation and \frac{1}{\rho}\frac{\partial}{\partial\rho}\rho\fr ac{\partial g_m(\rho)}{\partial\rho}-m^2g_m(\rho)=-4\pi\frac{\delta(\rho)}{\rho}?
2. The solution I found on internet suggests that the solution is different when \rho > \rho^' and \rho < \rho^'. Why?
Thanks a lot for your time.
I have problems solving the related Laplace equations in the problem
2. Relevant equations
\frac{1}{\rho}\frac{\partial}{\partial\rho}\rho\fr ac{\partial g_m(\rho,\rho^')}{\partial\rho}-m^2g_m(\rho,\rho^')}=-4\pi\frac{\delta(\rho-\rho^')}{\rho}
3. The attempt at a solution
My questions are as follows:
1. What's the difference between this equation and \frac{1}{\rho}\frac{\partial}{\partial\rho}\rho\fr ac{\partial g_m(\rho)}{\partial\rho}-m^2g_m(\rho)=-4\pi\frac{\delta(\rho)}{\rho}?
2. The solution I found on internet suggests that the solution is different when \rho > \rho^' and \rho < \rho^'. Why?
Thanks a lot for your time.