Electrical components are converted to electricity to reproduce transmission
The magnetic and electric components are not separate. They are just different descriptions of the same thing. The magnetic component is received together with the electric component, whether the antenna is an electric antenna or a magnetic antenna. It is like (but not the same as) asking what happens to the height of a pendulum if the speed is stopped at the bottom of the swing, or what happens to the speed of the pendulum if it is captured at the top of the swing. The height comes from the speed and the speed comes from the height. When one goes, the other goes. So it is with the electric and magnetic components of a wave.
this article can provide some help in understanding https://en.wikipedia.org/wiki/Riemann%E2%80%93Silberstein_vector
"Electromagnetic waves have both electric and magnetic components that are inseparable. The planes of these fields are at right angles to one another and to the direction of motion of the wave.
The electric field results from the voltage changes occurring in the RF antenna which is radiating the signal, and the magnetic changes result from the current flow. It is also found that the lines of force in the electric field run along the same axis as the RF antenna, but spreading out as they move away from it. This electric field is measured in terms of the change of potential over a given distance, e.g. volts per metre, and this is known as the field strength. Similarly when an RF antenna receives a signal the magnetic changes cause a current flow, and the electric field changes cause the voltage changes on the antenna."...quoted from https://radio-electronics.com/info//antennas/basics/emwaves.php
Dear Satish Narula
I think you need to review the basic concepts of the electromagnetism in reference books. This question is the result of miss understanding of real-world interaction of electrical and magnetic field. The precedent answers is complete but sufficient. I think it is better to start form the scratch.
Best Regards
Ahmad
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