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Momentum is the product of mass and velocity. When an object slows down, the object reduces in velocity. Since Mass is constant, when velocity reduces momentum reduces. thus momentum can be what stops a rolling object. However, a resistive force the reason for the reduction of velocity and subsequently halting.
Yes, a boulder rolling down a hill has mass and velocity. Therefore, it has momentum because p = mv (momentum = mass x velocity).
The green ball has more mass than the orange ball. r=mv Momentum = mass x velocity.
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
Momentum is P = mv or Momentum = mass x velocity so the momentum of that ball would be 6 x 4.5 = 27kg m/s
Momentum is the product of mass and velocity. When an object slows down, the object reduces in velocity. Since Mass is constant, when velocity reduces momentum reduces. thus momentum can be what stops a rolling object. However, a resistive force the reason for the reduction of velocity and subsequently halting.
Yes, a boulder rolling down a hill has mass and velocity. Therefore, it has momentum because p = mv (momentum = mass x velocity).
This is an example of momentum, which is a product of the object's mass and its velocity. It is also harder to start a bowling ball rolling than a ping-pong ball due to inertia, which is related only to the object's mass.
It is an example of momentum (sometimes called "inertia"). Velocity x mass. The bowling ball is much, much heavier. With both rolling at the same speed, the bowling ball is harder to stop because it has much more mass.
Momentum is mass x velocity, so it would also depend on each ball's velocity.
The green ball has more mass than the orange ball. r=mv Momentum = mass x velocity.
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
momentum = mass x velocity 16 = 8 x velocity velocity = 2 m/s
Momentum is P = mv or Momentum = mass x velocity so the momentum of that ball would be 6 x 4.5 = 27kg m/s
Momentum = (mass) times (velocity)mass = (Momentum) divided by (velocity)
momentum = mass x velocity => mass = momentum / velocity
That is true because momentum is mass times velocity