The momentum is the product of the mass and the velocity.
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The product of mass and velocity of an object is its momentum.
First you have to convert weight into mass. This is dependent on the acceleration the mass is experiencing (either gravitational or centrifugal). If it is gravitational and it is at or near the surface of the Earth then mass=weight/9.81m/s2 If it is centrifugal then a=v2/r and mass=weight*r/v2 Then to find momentum just multiply mass by velocity.
It does. Momentum=mass* velocity. Momentum is kilogram meters per second
Mass and velocity determine momentum, because mass multiplied by velocity equals momentum. in which there r few different cases like i. whether the atom is getting effected by surrondings . ii. or its not getting effected by its. surrondings (ideal case) and accordingly momentum values (momentum in case(i.) will be less comparitive case(ii.) :)
this is a tricky 1 because the mass itself does not affect it, but rather the friction of the plane it is moving on and the momentum (which does factor in mass) if no friction exists, then it is purely the momentum. momentum = mass x velocity
No, it does not have a momentum of zero because the formula for momentum is p = m x v, therefore since the plane has a mass and it is moving, there is momentum.*p = momentum*m = mass (kg)*v = velocity (m/s)
Mass is proportional to momentum. Momentum is the product of mass and velocity. When mass increases, momentum increases.
Assuming that both the stationary car and the flying bug can be analyzed against the same reference point, the bug has the greater momentum. Momentum is defined as the product of mass and velocity. If the car exhibits no motion, then its momentum is zero. Since the bug is flying, it has nonzero velocity and a nonzero momentum, which is greater than the car's momentum.
Yes. Momentum is simply the product of mass x velocity. If the bowling ball happens to be on the shelf, then even a housefly or a falling piece of tissue has more momentum.
momentum = mass x velocity => mass = momentum / velocity
Momentum = (mass) times (velocity)mass = (Momentum) divided by (velocity)
Yes, mass will affect momentum in a collision or in anything else. Any object with mass and non-zero velocity will have momentum. Mass is directly proportional to momentum. Double the mass of an object moving with a given velocity and the momentum doubles.
Momentum is the product of mass and velocity.
Momentum is the product of mass and velocity
A vehicle's momentum depends on its mass and velocity. The momentum of a vehicle is the product of its mass and its velocity. The larger the mass or velocity of a vehicle, the greater its momentum.
That is true because momentum is mass times velocity
Momentum is directly proportional to the mass.