A stationary object has inertia, but not momentum.
Momentum is the product of (mass) times (velocity). If the velocity is zero, then the momentum is zero.
that depends on what brand it was made from but sometimes it is kinetic so yes
Friction does not affect inertia, but it affects momentum. Momentum is the product of the mass of an object and its speed. Friction forces, if present, will always act to decrease the momentum of a moving object.
"Motion" or "Momentum"
False. The momentum of an object is given by the mass times the velocity of the object. Hence, a low-mass object must have a large velocity to have a large momentum.
impulse
When the 0.500kg ball collides with the stationary ball, momentum is conserved. Meaning, initial momentum = final momentum. Momentum of an object is = mass(m) x velocity (v). If two objects are in the system, then you have to add up both initial momentums and set them equal to the final momentums... So... m x v(initial, first object) + m x v(initial, second object) = final momentum. (0.500kg)(4.0m/s) + (1.0kg)(0m/s) = final momentum. So the final momentum equals 2.0kgm/s... D. 2.0 kgm/s
Friction does not affect inertia, but it affects momentum. Momentum is the product of the mass of an object and its speed. Friction forces, if present, will always act to decrease the momentum of a moving object.
"Motion" or "Momentum"
"Motion" or "Momentum"
inertia
motion or momentum Motion for A+
False. The momentum of an object is given by the mass times the velocity of the object. Hence, a low-mass object must have a large velocity to have a large momentum.
impulse
When the 0.500kg ball collides with the stationary ball, momentum is conserved. Meaning, initial momentum = final momentum. Momentum of an object is = mass(m) x velocity (v). If two objects are in the system, then you have to add up both initial momentums and set them equal to the final momentums... So... m x v(initial, first object) + m x v(initial, second object) = final momentum. (0.500kg)(4.0m/s) + (1.0kg)(0m/s) = final momentum. So the final momentum equals 2.0kgm/s... D. 2.0 kgm/s
Momentum, specifically linear momentum, defined as:p = mvwhere p=momentum, m=mass and v=velocityis a vector quantity that describes an objects motion in a given frame.Inertia, or the Principle of Inertia, is an object's resistance to a change in velocity. It is pretty much summed up by Newton's First Law of motion, an object at rest/ in motion will continue at rest/ in motion unless acted upon by an outside force.Momentum and Inertia are related conceptually in the way that any object with mass has momentum, if its velocity is zero than its momentum is zero, and inertia is that objects resistance to a change in its velocity.
WHAT THE SPEED OF STATIONARY OBJECT?
If an object is at rest, it has no momentum because the formula for momentum is p = mv, where p= momentum, m = mass and v = velocity. If the object is at rest, then the velocity is zero, so p = m*0. therefore p = 0.
When an object is still it has no momentum. That is, the momentum is zero.