Photon have rest mass?
It is not easy to measure the mass of subatomic particles. One of the most reliable ways to determine this property is the atomic mass spectrometry. The method is based on the fact that each chemical element has a unique mass. This value is called the atomic mass and can be determined in a mass spectrometer. This instrument identifies the mass of atoms on the basis of how they respond to electric or magnetic fields, and photons are not an exception. The mass of a photon is the equivalent
Does a photon have rest mass?
It is important to understand that the photon is not a particle at all. It is an elementary particle, which only has two properties: it has a spin (or angular momentum) of zero, and it has an electric charge. It is commonly called a particle of light because it carries energy (light) and can be used to produce images using a camera.
Does photon have rest mass in relativity?
The following article is a very exhaustive answer to this question: Can mass be created or destroyed?, and it provides an excellent summary of the pros and cons of the competing proposals for “photon mass”. If you want to learn more about the idea of photon mass in general, I suggest reading it, as it is very well written.
Will photon have rest mass?
It is a commonly accepted idea that all elementary particles have rest mass. A particle’s rest mass is defined as the total energy of the particle. According to the current standard model, photons are elementary particles, which are massless. So, does photon have mass? The answer is no. If a particle has no rest mass, it means it does not require an infinite amount of energy to create it. It means that the particle can be created out of nothing. This is against the law
Photon have mass?
This is a question that goes back to the very beginning of the photon's history. The photon is an elementary particle, so it should be a massless particle. However, it acts like a particle so physicists tend to describe it as a particle with an energy. Now, if a particle has a mass, it means that it applies a force to other objects. In the case of the photon, its energy applies a force to matter, which means that the photon has mass. It is because of