yasirlatif
Newbie level 1
I want you to calculate the far fields also: E_teta(teta,phi), E_phi(teta,phi), H_teta(teta,phi), H_phi(teta,phi),
these magnitudes should be calculated at a given distance (input) r>2*D^2/landa
landa=c/f, c=3e8, f=frequency.
The program has to be able to calculate for several currentes in any direction: Superposition, however
you can do with three, the extension to 10...n currents is straightforward.
The current of the last lecture was a infinitesimal dipole, therefore there is no integration because everything is
constant. However you have to consider the posibility of some dependence of the current with the dimension
of the antena, that is Iy=Iy, the current along "y axis" is dependent on the y coordinate along the wire. If you
do that you need to make numerical integration can any one send me example in matlab
these magnitudes should be calculated at a given distance (input) r>2*D^2/landa
landa=c/f, c=3e8, f=frequency.
The program has to be able to calculate for several currentes in any direction: Superposition, however
you can do with three, the extension to 10...n currents is straightforward.
The current of the last lecture was a infinitesimal dipole, therefore there is no integration because everything is
constant. However you have to consider the posibility of some dependence of the current with the dimension
of the antena, that is Iy=Iy, the current along "y axis" is dependent on the y coordinate along the wire. If you
do that you need to make numerical integration can any one send me example in matlab