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An impulse is simply a change of momentum, and momentum is defined as mass x velocity; so you just divide the momentum by the mass to get the velocity. Note about the units: newton x second is the same as kilogram x meter/second2.
initial velocity is the velocity with which a particle starts its journey.
It depends at what time in the throw your talking about. In the beginning it gains momentum, then in the middle it starts to lose momentum then in the end it loses all momentum.
Because momentum is conserved, if the size or mass decreases, its inertia decreases so its angular velocity will increase
It starts to lose momentum the second it comes out of the barrel. It depends on where you shot it when the momentum is totally depleted (if you shoot straight up or parallel to the ground).
An impulse is simply a change of momentum, and momentum is defined as mass x velocity; so you just divide the momentum by the mass to get the velocity. Note about the units: newton x second is the same as kilogram x meter/second2.
initial velocity is the velocity with which a particle starts its journey.
GLIDER
Its velocity becomes negative. That is, it starts moving back towards its starting point.
It depends at what time in the throw your talking about. In the beginning it gains momentum, then in the middle it starts to lose momentum then in the end it loses all momentum.
it starts from zero.....
momentum starts with the letter "M" and has 8 letters, while force starts with the letter "F" and has 5 letters.
· golf cart · glider · gondola
Because momentum is conserved, if the size or mass decreases, its inertia decreases so its angular velocity will increase
It starts to lose momentum the second it comes out of the barrel. It depends on where you shot it when the momentum is totally depleted (if you shoot straight up or parallel to the ground).
Yes. You could have two objects with the same final velocity (momentum, if they have mass), but having each one accelerated differently. Imagine object A starts from 5 m/s, and is accelerated over 1 second with acceleration of 20 m/s2 to attain a final velocity of 25 m/s. Now, imagine object B starts from 15 m/s, and gets an acceleration over 1 second of 10 m/s2 to attain the final velocity of 25 m/s. Both end up with the same velocity, but had different accelerations.
Velocity.