Suppose that we are in the **near zone**. Then by definition

and

This makes the integral equation into the ``static'' form already
considered in chapter 5 (cf. equation (5.32)). We see that
is just the Green's function for the good old
Poisson equation in this approximation and can be expanded in harmonic
functions just like in the good old days:

(11.74) |

**Note Well:** I will use
freely and without
warning in this course. The sum is over all . Hopefully, by
now you know what they run over. If not, read the chapter in Wyld on
spherical harmonics and review Jackson as well. **This is
important!**

This means that (if you like)

(11.75) |

Since (for fixed r outside the source)

we see that this limit is reached (among other times) when

(relative to the size of the source and point of measurement)! But then the IHE turns back into the Poisson equation (or inhomogeneous Laplace equation, ILE) as it should, come to think about it. The near fields oscillate harmonically in time, but are