You both are right. Thank you for the comments.
I don't agree with the way he normalizes the radius in the last 2 methods. I think it should be a square root, not a cubic one. This is because the volume diferential r^2•sin(phi)•d_phi•d_theta•dr is proportional to the…
You both are right. Thank you for the comments.
I don't agree with the way he normalizes the radius in the last 2 methods. I think it should be a square root, not a cubic one. This is because the volume diferential r^2•sin(phi)•d_phi•d_theta•dr is proportional to the…