A 0.15 kg baseball collides with a 1.0 kg bat. The ball has a velocity of...

A cricket ball (mass=160g) is struck by a bat (mass=1.2kg). the balls velocity immediately prior to...

A cricket ball (mass=160g) is struck by a bat (mass=1.2kg). the balls velocity immediately prior to contact with the bat is 27m/s. The velocity of the impact point of the bat immediately before impact is 15m/s towards the ball. If the coefficient of restituition before the bat and the ball is 0.31, how fast and it what direction is the ball moving immediately after impact?

The pitcher throws a 0.1 kg baseball towards you at 80 m/s. You swing at the...

The pitcher throws a 0.1 kg baseball towards you at 80 m/s. You swing at the ball with you 1.0 kg bat, at a velocity of 40 m/s towards the ball. a) Find the total momentum of ball-bat system, before you hit the ball. b)The ball collides with the bat and flies into the outfield. What is the total momentum of the ball-bat system after the collision? c) Assume that the bat comes to a complete stop during the collision....

A 2.2 kg ball moves to the right with a speed of 6.5 m/s and collides...

A 2.2 kg ball moves to the right with a speed of 6.5 m/s and collides with a 1.8 kg ball moving at 1.8 m/s in the opposite direction. If this is a completely elastic collision determine the velocity of each ball.

A pitcher throws a 0.19-kg baseball ball with a velocity of 42 m/s. It is struck...

A pitcher throws a 0.19-kg baseball ball with a velocity of 42 m/s. It is struck by the bat with an average force of 700 N, which results in a velocity of 28 m/s in the opposite direction from the original velocity. How long were the bat and ball were in contact?

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the right at 45.0 m/s , and it leaves the bat traveling to the left at an angle of 35 ∘ above horizontal with a speed of 65.0 m/s . The ball and bat are in contact for 1.65 ms . A. Find the horizontal component of the average force on the ball. Take the x-direction to be positive to the right (two sig figs)...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the right at 49.0 m/s ; when it leaves the bat, the ball is traveling to the left at an angle of 31.0 ∘ above horizontal with a speed of 54.0 m/s . The ball and bat are in contact for 1.61 ms . Find the horizontal and vertical componenets of the average force on the ball

A hard ball (1.0 kg) is moving 5 m/s and collides with an identical ball at...

A hard ball (1.0 kg) is moving 5 m/s and collides with an identical ball at rest. The collision istotally elastic, and in the center‐of‐mass frame the balls each deflect by 45 degrees. Find the velocities after the collision in the lab frame.

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the right at 55.0 m/s , and it leaves the bat traveling to the left at an angle of 35 ? above horizontal with a speed of 60.0 m/s . The ball and bat are in contact for 1.85 ms . A. Find the horizontal component of the average force on the ball. Take the x-direction to be positive to the right Express your answer...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the...

A bat strikes a 0.145-kg baseball. Just before impact, the ball is traveling horizontally to the right at 35.0 m/s ; when it leaves the bat, the ball is traveling to the left at an angle of 31.0 ∘ above horizontal with a speed of 58.0 m/s . The ball and bat are in contact for 1.71 ms . Find the horizontal and vertical components of the average force on the ball. Let +x be to the right and +y...

a 1.2 kg ball moving with a velocity of 8.0m/s collides head on with a stationary...

a 1.2 kg ball moving with a velocity of 8.0m/s collides head on with a stationary ball and bounces back at a velocity or 4.0 m/s. If the collision is perfectly elastic, calculate (a) the mass of the other ball (b) the velocity of the other ball after the collision (c) the momentum of each ball before and after the collision (d) the kinetic energy of each ball before and after the collision