Does a photon have infinite mass?
Quantum mechanics states that a photon is an oscillating wave of energy and matter. This means that the mass of a photon is zero, and photons can travel through a vacuum. This is why they can travel from one end of the universe to the other without any resistance.
Does a photon have zero mass?
We all know that the photon is one of the building blocks of light. It is a particle that carries energy and can be either positive or negative. As we have seen in the previous question, the photon is massless But what do we mean by massless? With the discovery of the Higgs boson, physicists postulated that there is a new particle called the Higgs particle, which gives mass to the other particles. But the photon does not have a mass because it does not interact
Does a photon have infinite mass in special relativity?
This question is not posed in the context of general relativity, so it is not an issue in that theory. In special relativity, when two objects move toward each other at high speeds, they appear to shrink (this is known as length contraction). In other words, if two objects are standing next to each other and you observe one of them from a moving car, you will see that they are both the same length, but the one you are observing is closer to you than the stationary one. This
Does a photon have infinite rest mass?
This is a common misconception. The photon mass is zero at rest and can be thought of as the energy of a single wave. A photon can never be stationary, so its rest mass is not a meaningful concept. However, the photon has energy. Given that energy is a form of matter, you could argue that the photon has a rest mass of some sort.
Does a photon have zero rest mass and infinite velocity?
This is a very common misconception. In the special theory of relativity, mass is the energy of an object divided by the speed of light squared. This means that the mass of an object is dependent on how fast it is traveling. Negative mass is a physical phenomenon that allows for the creation of a gravitational pull. Otherwise, objects would simply fly off into oblivion. Each particle (or photon) has a positive or negative mass, depending on whether it is moving towards or away from the source of the