Does a photon have relativistic mass?
This is a great question, because it gets right down to the heart of the debate. While most physicists today say that a photon does not have mass, there are a few who disagree. Maybe these physicists don’t understand the basics of the photon’s behavior. Or maybe they have not taken into account the latest findings in the field.
Does a photon have rest mass?
This is a very important question, as it has major implications for the nature of reality. The answer is no, the photon has no rest mass. This has been shown in many experiments, such as the Hafele-keating experiment. But to see how this is possible, it is necessary to understand what the word mass means.
Does a photon have relativistic rest mass equivalent?
If the photon is its own particle, it would have no mass at all in this sense. This is because the photon has no rest frame. You can be moving at any velocity relative to the photon, and the photon will still have the same energy. This means the photon’s energy must be equivalent to its momentum multiplied by the speed of light.
Does a photon have relativistic mass equivalent?
If you have studied special relativity, you will know that the concept of mass is a little complicated. There is the rest mass, which is the constant amount of energy required to create a particle in the vacuum. Now, for charged particles, there is also the relativistic mass, which is the mass-energy equivalent of the particle. It is equal to the mass multiplied by the speed of light. It is also called the proper mass. So, how does the photon get its mass? A
Does a photon have relativistic mass or more?
It’s a question that’s been asked ever since special relativity was first proposed, but the answer is a resounding ‘no’. A photon is massless, so when you add the relativistic mass equation, multiplying the rest mass by the speed of light squared, you get infinity. This means that if a photon has a mass, its speed would have to be equal to the speed of light, which is impossible. A photon does not have relativistic