Military rifles have a mechanism for reducing the recoil forces of the gun on the person firing it. An internal part recoils over a relatively large distance and is stopped by damping mechanisms in the gun. The larger distance reduces the average force needed to stop the internal part. 1) Calculate the recoil velocity in the horizontal direction, in meters per second, of a 0.75-kg plunger that directly interacts with a 0.0215-kg bullet fired at 575 m/s from the gun. Take the firing direction to be the positive direction.vp,f = 2) If this part is stopped over a distance of 19.5 cm, what average force, in newtons, is exerted upon it by the gun? Fgp = 3) To see how effective this is at reducing the force on the gun, find the ratio of the force that the plunger exerts on the gun to the force that the bullet would exert on the gun without this mechanism, if the bullet is accelerated to its final velocity in 9.5 ms. Fpg / Fbg =

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Military rifles have a mechanism for reducing the recoil forces of the gun on the person firing it. An internal part recoils over a relatively large distance and is stopped by damping mechanisms in the gun. The larger distance reduces the average force needed to stop the internal part.

1) Calculate the recoil velocity in the horizontal direction, in meters per second, of a 0.75-kg plunger that directly interacts with a 0.0215-kg bullet fired at 575 m/s from the gun. Take the firing direction to be the positive direction.vp,f =

2) If this part is stopped over a distance of 19.5 cm, what average force, in newtons, is exerted upon it by the gun? Fgp =

3) To see how effective this is at reducing the force on the gun, find the ratio of the force that the plunger exerts on the gun to the force that the bullet would exert on the gun without this mechanism, if the bullet is accelerated to its final velocity in 9.5 ms. Fpg / Fbg =  

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