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What else can I help you with?
What is the momentum of a resting particle?
Momentum = (mass) x (velocity)If the particle is at rest, velocity = 0, and momentum = 0.
What are Drift velocity and momentum relaxation time?
Drift velocity refers to a particle's average velocity being influenced by its electric field. Momentum relaxation time is the time required for the inertial momentum of a particle to become negligible.
Momentum of the particle?
mass times the velocity of the body.
which quantities define momentum?
The quantities of production in mass of a particle with velocity describe momentum.
What is the calculation of momentum?
Momentum of a particle is the measure of quantity of motion in its and is given by product of its mass and velocity. That is p = mv ,if m and v are known ,momentum can be calculated.
What will happen to the wavelength associated with a moving particle if its velocity is reduced to half?
If the velocity of a moving particle is reduced to half, the wavelength associated with it will remain the same. The wavelength of a particle is determined by its momentum, not its velocity.
Calculate momentum of a particle having mass 28kg and velocity 7.8ms?
The momentum of a particle is given by the formula p = mv, where p is the momentum, m is the mass, and v is the velocity. Substituting the values, we get momentum = 28 kg * 7.8 m/s = 218.4 kg m/s.
Does linear motion have angular momentum?
I believe that any particle in linear motion must also have some angular momentum because all particles have spin. In the case of a photon the spin, wavelength and angular momentum all vary with the relative linear velocity. So in my point of view time itself is the ratio between relative linear and angular momentum.
How is impulse relative to momentum?
impulse (force x time) is equal to momentum (mass x velocity); Ft=mv
What happens to the speed of the particle if the size is increased?
If the size of the particle is increased while keeping its momentum constant, the speed of the particle will decrease. This is because as the size increases, the same momentum is distributed over a larger mass, resulting in a lower velocity.
According to the heisenberg uncertainty principle if the position of a moving particle is known what other cannot be known?
According to the Heisenberg uncertainty principle if the position of a moving particle is known velocity is the other quantity that cannot be known. Heisenberg uncertainty principle states that the impossibility of knowing both velocity and position of a moving particle at the same time.
What will be the total energy of a particle of rest mass m and momentum p moving at velocity close to light?
The total energy of a particle with rest mass m and momentum p moving at a velocity close to the speed of light is given by Einstein's equation: E^2 = (pc)^2 + (mc^2)^2, where c is the speed of light. Since the particle is moving at a velocity close to light, its total energy will be dominated by its momentum term (pc)^2.
