in the opposite direction of
The final momentum of object B after the collision depends on the masses and velocities of both objects A and B, as well as the coefficients of restitution and angles of collision. It can be calculated using the principle of conservation of momentum.
in the opposite direction of
This statement is consistent with the law of conservation of momentum. When object A collides with object B and bounces back, the total momentum of the system before the collision is equal to the total momentum of the system after the collision, assuming no external forces are involved. This means that the final momentum of object A after the collision is equal to its initial momentum.
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
A change in momentum refers to the difference in an object's momentum before and after a force is applied to it. This change can be caused by a change in the object's mass, velocity, or direction. It is measured by calculating the final momentum minus the initial momentum.
let the initial mass be M mass is increased by m final mass= M+m initial velocity=u final velocity=v Mu=(M+m)v (by conservation of momentum) initial K.E.=1/2 Mu2 final K.E.=1/2 (M+m)v2 =1/2(M+m)[Mu/(M+m)]2 =1/2M2u2/(M+m) from this equation if m is not 0 then kinetic energy will decrease.
in the opposite direction of
in the opposite direction of
This statement is consistent with the law of conservation of momentum. When object A collides with object B and bounces back, the total momentum of the system before the collision is equal to the total momentum of the system after the collision, assuming no external forces are involved. This means that the final momentum of object A after the collision is equal to its initial momentum.
Impulse equals change in momentum. "Apex" The final momentum of any object (or collection of objects) must equal to its initial momentum plus any impulse imparted to the object (or collection of objects).
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
A change in momentum refers to the difference in an object's momentum before and after a force is applied to it. This change can be caused by a change in the object's mass, velocity, or direction. It is measured by calculating the final momentum minus the initial momentum.
let the initial mass be M mass is increased by m final mass= M+m initial velocity=u final velocity=v Mu=(M+m)v (by conservation of momentum) initial K.E.=1/2 Mu2 final K.E.=1/2 (M+m)v2 =1/2(M+m)[Mu/(M+m)]2 =1/2M2u2/(M+m) from this equation if m is not 0 then kinetic energy will decrease.
IN general change is defined as the difference of initial from the final. So change = Final - Initial. Hence change in momentum = Final momentum - initial momentum
When momentum is conserved, the initial momentum is equal to the final momentum.
Momentum of a body is the product of its mass and velocity. It is a vector quantity that indicates the quantity of motion an object has and is conserved in a closed system where no external forces are acting. Momentum can be transferred between objects during collisions or interactions.
Use this formula:Final momentum = (initial momentum) + (change in momentum)
law of conservation of momentum