in the opposite direction of
in the opposite direction of
in the opposite direction of
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
the momentum and energy is transferred and someone gets hurt, for an example watch Clay Matthews.
If the forces are in the same direction, add them and if they're in opposite directions, subtract them. I'm not sure what to do if they're in directions other than that.
in the opposite direction of
in the opposite direction of
in the opposite direction of
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
the momentum and energy is transferred and someone gets hurt, for an example watch Clay Matthews.
it's when one object collides with another and the force gets passed on
If the forces are in the same direction, add them and if they're in opposite directions, subtract them. I'm not sure what to do if they're in directions other than that.
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).
INITIAL MOMENTUM = FINAL MOMENTUM ∑M1V1 + M2V2 +… + MnVn = ∑ M1V1 + M1V1 +… + MnVn + or momentum=mass x acceleration unit for momentum=kg x m/sec its confusing...
Classically momentum is the product of the mass and velocity of an object. In relativistic mechanics, in order to be conserved, the momentum of an object must be defined as p=γm0v where m0 is the invariant mass of the object and γ is the Lorentz factor, given by γ=1/(Sqrt(1-(v/c)2) where v is the speed of the object and c is the speed of light.
The law of conservation of momentum states that the energy lost initially by the first object is equal to that gained by the last object in an isolated system. This is the principle behind perpetual motion. The only difficulty is that it is difficult to find a truly isolated system.Ê
When an object is still it has no momentum. That is, the momentum is zero.