conway said:Well, it's circularly polarized only if you look at it directly along the axis of the loop. The radiation in the plane of the loop is of course linearly polarized.
Electron emitting EM waves are electromagnetic waves that are produced when electrons are accelerated or decelerated. This acceleration or deceleration causes changes in the electric and magnetic fields, resulting in the emission of electromagnetic radiation.
Electron emitting EM waves work by transferring energy from one point to another through oscillating electric and magnetic fields. The electrons emit the waves as they accelerate or decelerate, and the waves travel through space at the speed of light.
The movement of electrons creates the electric and magnetic fields that make up EM waves. Without the presence of electrons, EM waves would not exist. Additionally, the properties of EM waves, such as wavelength and frequency, are determined by the speed and direction of the electrons emitting them.
Electron emitting EM waves have a wide range of practical applications, including communication technologies such as radio, television, and cell phones. They are also used in medical imaging, microwave ovens, and satellite communication.
Some types of EM waves, such as X-rays and gamma rays, can be harmful to humans in high doses. However, the low energy EM waves emitted by electrons, such as radio waves and visible light, are generally considered safe. The effects of EM waves on humans also depend on factors such as duration and frequency of exposure.