A ball falls from a height H and hits the ground in a few seconds. This...

A ball of mass m falls from rest from a height of y1, collides with the...

A ball of mass m falls from rest from a height of y1, collides with the ground and bounces back up to y2. The collision time with the ground is ?t. A) Determine the momentum of the ball immediately before the collision with the ground. B) Determine the momentum of the ball immediately after the collision with the ground. C) Determine the average force exerted on the ball during the collision. Now let: m = 0.080 kg y1 = 3.0...

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 drops from a height of 2 meters. Each time it hits the ground, it...

A ball drops from a height of 2 meters. Each time it hits the ground, it bounces up 68 percent of the height it fall. Calculate the coefficient of restitution.

3) A ball is thrown leftward from the left edge of a roof at height “h”...

3) A ball is thrown leftward from the left edge of a roof at height “h” above the ground. The ball hits the ground 1.5 sec later at a distance d = 25 m from the building and at an angle θ = 60° with the horizontal.             a) What is the value of “h”?             b) What is the magnitude of the initial velocity?             c) What is the angle of the initial velocity?

A ball of mass 5.93 kg is released from rest at height 7.62 m above the...

A ball of mass 5.93 kg is released from rest at height 7.62 m above the floor. It falls, hits the ground, and rebounds to height 3.2 m above the floor. Assume none of the losses are due to air friction. Find the work done against friction, in J, on the ball during the contact with the ground

A 0.6 kg ball is dropped from a height, h, of 2 meters (at point A)....

A 0.6 kg ball is dropped from a height, h, of 2 meters (at point A). It hits the ground and bounces back up to a height of 1 meter (at point B) on its first bounce. (3 pts each) a. What is the total energy of the ball at A? b. What is the total energy of the ball at B? c. Why did the ball not bounce back up to its starting height?

A 2.0-kg ball is dropped from a height of 5.0 meters. It hits the ground and...

A 2.0-kg ball is dropped from a height of 5.0 meters. It hits the ground and bounces upward. If it reaches a height of only 3.2 m, determine the magnitude of the work done by non-conservative forces in this situation.

A ball is thrown from a height of 12.8m above the ground. The initial velocity of...

A ball is thrown from a height of 12.8m above the ground. The initial velocity of the ball is 21.3m/s at an angle of 25o below the horizontal. What is the magnitude of the velocity (in m/sec) just before the ball hits the ground?

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 ball is thrown across a playing field from a height of h = 5 ft...

A ball is thrown across a playing field from a height of h = 5 ft above the ground at an angle of 45° to the horizontal at the speed of 20 ft/s. It can be deduced from physical principles that the path of the ball is modeled by the function y= -(32/400)x^2+x+5 where x is the distance in feet that the ball has traveled horizontally. 1) Find the maximum height attained by the ball. (Round your answer to three...