yes
The particle stays at rest a= f/m = 0; because force = qvB is zero if v=0.
Momentum = (mass) x (velocity)If the particle is at rest, velocity = 0, and momentum = 0.
rest energy
Yes. A particle of zero rest mass has ONLY its relativistic mass when in motion. There are actually no photons just sitting around.
The answer will depend on its acceleration.
Yes. That's exactly the case with the photon, the particle of electromagnetic energy.
to judge the others.
When a particle is freed from rest, it will start to move due to the absence of any external forces holding it in place. This movement is known as acceleration, which is the change in velocity over time. The particle will continue to move until it encounters another force that acts upon it, causing it to change direction or speed.
Then the police will take you to the courtroom with the judge,and the judge will sentenced you to 99 years in prison for the rest of your life.
Yes, the phase of a vibrating particle can be zero. The phase represents the position of the particle in its oscillation cycle, with zero phase typically corresponding to the starting point of the oscillation.
A photon is a massless elementary particle that does not have rest mass, while an inertial particle typically refers to a particle with mass that obeys Newton's laws of motion. Photons always travel at the speed of light in a vacuum, whereas inertial particles can have a range of velocities depending on their energy.
Atomic Mass units