A 6.25-kg bowling ball moving at 9.55 m/s collides with a 0.725-kg bowling pin, which is...

A 5.5 kg bowling ball moving at 9.55 m/s collides with a 0.875kg bowling pin, which...

A 5.5 kg bowling ball moving at 9.55 m/s collides with a 0.875kg bowling pin, which is scattered at an angle of theta = 84.5 degrees from the initial direction of the bowling ball, with a speed of 17m/s a) calculate the direction, in degrees, of the final velocity of the bowling ball. This angle should be measured in the same way that theta is. b) calculate the magnitude of the final velocity, in meters per second, of the bowling...

A 5.57kg bowling ball moving at 9.55m/s collides with a 0.825kg bowling pin, which is scattered...

A 5.57kg bowling ball moving at 9.55m/s collides with a 0.825kg bowling pin, which is scattered at an angle of 27.5 degrees from the initial direction of the bowling ball, with a speed of 11.5m/s. a) Calculate the direction in degrees of the final velocity of the bowling ball. This angle shold be measured in the same way that theta is. b) Calculate the magnitude of the final velocity, in meters per second, of the bowling pin. Please show all...

A 6.85 kg bowling ball moving at 10.0 m/s collides with a 1.60 kg bowling pin,...

A 6.85 kg bowling ball moving at 10.0 m/s collides with a 1.60 kg bowling pin, scattering it with a speed of 8.00 m/s and at an angle of 32.0° with respect to the initial direction of the bowling ball. ( a) Calculate the final velocity (magnitude in m/s and direction in degrees counterclockwise from the original direction) of the bowling ball. ______magnitude m/s __________direction ° counterclockwise from the original direction of the bowling ball (b) Ignoring rotation, what was...

A 5.0 kg bowling ball traveling 3.0 m/s collides with an 8.0 kg stationary bowling ball....

A 5.0 kg bowling ball traveling 3.0 m/s collides with an 8.0 kg stationary bowling ball. After the collision the 5.0 kg ball is deflected to the left from its original path by 30 degrees, while the 8.0 kg ball is deflected to the right at an angle of 45 degrees. What are the speeds of the two balls after the impact?

A 7.50 kg bowling ball moving at 4.00 m/s makes an elastic head on collision with...

A 7.50 kg bowling ball moving at 4.00 m/s makes an elastic head on collision with a 2.50 kg bowling pin initially at rest. Find the velocity of the bowling pin after the collision.

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides...

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides with another ball with mass m = 2.5 kg which is initially stationary. There is no other force such as gravity acting on the two balls. After the collision, both balls move at angle θ=30 degrees relative to initial direction of motion of the ball with mass M = 5 kg. a) What are the speeds of the two balls after the collision? b)...

A bowling player throws a ball of mass 7 kg with a velocity of 5m/s and...

A bowling player throws a ball of mass 7 kg with a velocity of 5m/s and collides a pin of mass 1.6 kg. The ball and pin move seperately after the collision. a) What is the momentum of the ball before the collision b) Calculate the total momentum of the ball and the pin before the collision c) What is tge velocity of the pin after the collision if the velocity of the ball is 3 m/s.

a)a 7kg bowling ball collides with a 3 kg bowling ball by direct impact and its...

a)a 7kg bowling ball collides with a 3 kg bowling ball by direct impact and its velocity changed form 2 to -3m/s. What is the magnitude of the impulse in 7kg bowling ball and the 3Kg bowling ball(Ns)? b) A 10kg bowling ball collides with an object by direct impact and has a velocity changed from 4m/s to -4m/, wHat is the impulse of 10kg bowling ball(Ns)?

a 7-kg bowling ball strikes a 4.5kg pin. the pin flies forward with a velocity of...

a 7-kg bowling ball strikes a 4.5kg pin. the pin flies forward with a velocity of 2 m/s. the ball continues forward at 4 m/s. what was the original velocity of the ball?

A 1.10-kg ball, moving to the right at a velocity of +1.34 m/s on a frictionless...

A 1.10-kg ball, moving to the right at a velocity of +1.34 m/s on a frictionless table, collides head-on with a stationary 6.90-kg ball. Find the final velocities of (a) the 1.10-kg ball and of (b) the 6.90-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.