Problem #2: A ballistic of mass m = 0.0100 kg is fired into a wooden hanging block of mass M = 1.00 kg and an inelastic collision occurs. The force of impact causes both masses, now stuck together, to swing up a height, h from the vertical position the ballistic was initially fired at. m Problem #3: If the ballistic was initially fired at a horizontal speed of v = 300 m/s, what is the vertical change in height, h, of m + M after the collision, assuming the masses come to rest temporarily at h? M M+m h A force uses a 60.0 kg mass to compress a spring 5.25 meters across a frictionless surface. If the spring constant k is 25.0 N/m, what will be the maximum speed of the mass if it is released from rest and the spring is allowed to accelerate it?

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Problem #2: A ballistic of mass m = 0.0100 kg is fired into a wooden hanging block of mass M = 1.00 kg and an inelastic collision occurs. The force of impact causes both masses, now stuck together, to swing up a height, h from the vertical position the ballistic was initially fired at. If the ballistic was initially fired at a horizontal speed of v = 300 m/s, what is the vertical change in height, h, of m + M after the collision, assuming the masses come to rest temporarily at h? M Problem #3: M+m Page 3 A force uses a 60.0 kg mass to compress a spring 5.25 meters across a frictionless surface. If the spring constant k is 25.0 N/m, what will be the maximum speed of the mass if it is released from rest and the spring is allowed to accelerate it?