Asked by Waves - AEC
A small dipole of length l with an input current Io radiates an electromagnetic wave that is TEM respect r with an electric field given by:
E = j*w*μ*(1/2)*(Io*l/(4*pi))*e^(-jkr)/r * sinθ
Find the expression of the magnetic field, the Poynting vector, the radiated power and the input resistance of the dipole.
E = j*w*μ*(1/2)*(Io*l/(4*pi))*e^(-jkr)/r * sinθ
Find the expression of the magnetic field, the Poynting vector, the radiated power and the input resistance of the dipole.
Answers
Answered by
bobpursley
TEM? would the expression for H be identical? (except for direction?)
Answered by
Waves - AEC
I think so, but the thing that blows my mind is, if it were x direction, then I would change it to y (from theory). But if it goes to the θ direction, how can I change it to direction? I mean which direction will it be?
And the Poynting vector, would be a half of it, but to what direction? I don't know how it works with non cartesian coordinates.
Thank you.
And the Poynting vector, would be a half of it, but to what direction? I don't know how it works with non cartesian coordinates.
Thank you.
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