Hey Born2bwire,
Well I was given:
\varphi = [-p(0)\varpi/4\pi\epsilon(0)c] ( cos\theta/r ) sin[\varpi(t- r/c )]
and
A = [-\mu(0)p(0)\varpi/4\pir] sin[ \varpi (t - r/c )] z\widehat{}
From there I used the grad of Psi and curl of A and the unit vector z definition to get the E and B...
Homework Statement
Hey everyone, I need to derive what the E and B fields look like for the electric dipole in the near field region close to the source i.e. lambda>>r.
Homework Equations
The Attempt at a Solution
I managed to derive it for the situation far from the source but...