The product of an object's mass and velocity is the object's momentum.
Yes, that's how momentum is defined. Note that velocity is a vector; therefore, momentum is also a vector. That means that the direction of the movement matters.
The product is the object's momentum.
Momentum.
Because momentum is mass X velocity. Velocity has direction, otherwise it is speed.
That would depend on what you consider "large".The size of an object's momentum = (its mass) x (its speed).So, more mass and more speed result in more momentum.
The product of an object's mass and velocity is the object's momentum.
Momentum
== == Momentum is the product of the mass of an object multiplied by its velocity (or speed). Momentum is conserved so if a moving object hits a staionary object the total momentum of the two objects after the collision is the same as the momentum of the original moving object.
Yes, that's how momentum is defined. Note that velocity is a vector; therefore, momentum is also a vector. That means that the direction of the movement matters.
The product is the object's momentum.
Momentum.
That's the object's "momentum".
That's the object's "momentum".
That's the object's momentum.
momentum (vector)
momentum is caused by inertia. all objects have inertia, which means if they are moving at a certain velocity or are at rest they will continue to move at that velocity or remain at rest unless acted on by a force. Objects of more mass have greater inertia, so the amount of momentum is equal to the product of an objects mass and the magnitude of its velocity.
Product Velocity is the rate of change of the position of thing, equivalent to a specification of its velocity and way of activity.