raymes_k said:if, say, an electron is stationary on Earth (ignore the probability or possibility of this for now). it, of course, is not emitting any EM radiation. However, an observer in space (stationary with reference to the sun) is looking at the electron. relative to them, the electron is accelerating (circular motion around the earth). is any EM radiation emitted? where have i gone wrong here?
ArmoSkater87 said:Why do charged particles emit light when accelerated anyways??
The purpose of accelerating charged particles is to increase their kinetic energy and speed. This is important in fields such as particle physics and nuclear medicine, where high energy particles are used for experiments and medical treatments.
Acceleration of charged particles can be achieved through various methods such as electric fields, magnetic fields, and radio frequency waves. The particles are placed in these fields and are then driven to move faster and gain energy.
A FOR (Field of Radiofrequency) is a type of electromagnetic field used to accelerate charged particles. It consists of alternating electric and magnetic fields that push and pull the particles, causing them to gain energy and speed.
Accelerating charged particles has many benefits, including enabling the study of particle physics, producing energy for power generation, and aiding in medical treatments such as cancer therapy. It also allows for the creation of new materials and fuels through particle collisions.
One of the main challenges in accelerating charged particles is the cost and complexity of building and maintaining large accelerators. Another challenge is the need for precise control and synchronization of the acceleration process to avoid damaging the particles or the accelerator itself.