A ball of mass 0.15 kg hits the floor with a speed of 11.0 m/s at...

A ball of mass .80 kg hits a wall with a speed of 6.8 m/s and...

A ball of mass .80 kg hits a wall with a speed of 6.8 m/s and an angle of 37 degrees with respect to the normal. It rebounds with the same angle and vector (see above) a.What impulse acts on the ball? b. The force acts for .0025 seconds. What force (direction and magnitude) acts on the ball?

To make a bounce pass, a player throws a 0.55-kg basketball toward the floor. The ball...

To make a bounce pass, a player throws a 0.55-kg basketball toward the floor. The ball hits the floor with a speed of 5.5 m/s at an angle of 58 ∘ to the vertical. Part A If the ball rebounds with the same speed and angle, what was the magnitude of the impulse delivered to it by the floor? Express your answer using two significant figures. I = ______   kg⋅m/s  

A billiard ball of mass m = 0.250 kg hits the cushion of a billiard table...

A billiard ball of mass m = 0.250 kg hits the cushion of a billiard table and rebounds. The ball’s velocity before it hits the cushion is 20.0 m/s making an angle of 60.0o with respect to the normal. The glancing blow leaves the ball with a velocity of 12.0 m/s at 71.0o to the other side of the normal. (a) What is the magnitude of the change of momentum of the ball? (b) What is the direction of the...

A ball falls from height of 20.0 m, hits the floor, and rebounds vertically upward to...

A ball falls from height of 20.0 m, hits the floor, and rebounds vertically upward to height of 15.5 m. Assume that mball = 0.335 kg. (a) What is the impulse (in kg · m/s) delivered to the ball by the floor? b) If the ball is in contact with the floor for 0.0400 seconds, what is the average force (in N) the floor exerts on the ball?

A ball of mass 2.25 kg is released from rest at height 5.29 m above the...

A ball of mass 2.25 kg is released from rest at height 5.29 m above the floor. It falls, hits the ground, and rebounds to height 3.19 m above the floor. Assume none of the losses are due to air friction. Find the impulse, in N-s, exerted by the floor on the ball. The sign of your answer will give the direction of the impulse.

A 0.270 kg rubber ball strikes a smooth floor moving at 8.70 m/s, 36.87 ∘ below...

A 0.270 kg rubber ball strikes a smooth floor moving at 8.70 m/s, 36.87 ∘ below the horizontal and rebounds at an angle of 22.62 ∘ above the horizontal. If the ball was in contact with the ground for 0.0400 s, then a) ..what was the rebound speed of the ball? b) ...what was the average normal force (magnitude) the floor exerts upwards on the ball, if we neglect gravity during the collision? c) ...what was the average normal force...

A 6kg ball is dropped and hits the floor vertically moving with speed 11m/s  and rebounds with...

A 6kg ball is dropped and hits the floor vertically moving with speed 11m/s  and rebounds with half the speed (moving upwards). The change in momentum of the ball is __________kg m/s. (Answer to nearest ones digit.)

A weight lifter raises a barbell of mass 72 kg to a height of 0.65 m...

A weight lifter raises a barbell of mass 72 kg to a height of 0.65 m above his chest. The potential energy of the barbell increases in raising the barbell by approximately Select one: a. 459 J b. Zero c. –459 J d. None of these Three masses 2.0 kg, 3.0 kg and 6.0 kg are located at positions (3.0, 0), (6.0, 0), and (–4.0, 0), respectively, in meters from the origin (0,0). The location of the center of mass...

1. a tennis ball is dropped from a height of 2 m and it rebounds 95...

1. a tennis ball is dropped from a height of 2 m and it rebounds 95 cm. use g=10 m/s^2, and the tennis ball weights .058 kg. a) find the change of momentum when the ball is at a height of 1.5 m downward and at 0.5 m downward. which i got -3.14 kg m/s for the 1.5 m, and -0.18 kg m/s, and then what is the impulse exerted on the object during that change of momentum? b) compute...

A rubber ball of mass 0.175 kg is released from rest from a height of 1.25...

A rubber ball of mass 0.175 kg is released from rest from a height of 1.25 m. It rebounds from the floor to reach a height of 0.630 m. What impulse was applied to the ball by the floor? (You may safely ignore air resistance. Enter the magnitude in kg · m/s)