An 80 kg object is dropped from rest from a height of 25 meters above the...

An object is dropped from a height of 50 meters starting at rest. Using the principle...

An object is dropped from a height of 50 meters starting at rest. Using the principle of conservation of energy, What is its final velocity just before it hits the ground? What is the time it takes to fall?

If a object of mass m is dropped from rest from a height h in free...

If a object of mass m is dropped from rest from a height h in free fall motion, what is the kinetic energy when it is a height h/4 above the ground?

A 4.0 kg mass starting at rest is dropped from a height of 120 m above...

A 4.0 kg mass starting at rest is dropped from a height of 120 m above the surface of the Earth. As it falls it experiences an air resistance of 13 N. Just before it strikes the ground, determine the change in potential energy ΔU, the work done by the air W, the final kinetic energy Kf, and its final speed vf

A 4.0 kg mass starting at rest is dropped from a height of 120 m above...

A 4.0 kg mass starting at rest is dropped from a height of 120 m above the surface of the Earth.  As it falls it experiences an air resistance of 13 N.  Just before it strikes the ground, determine the change in potential energy ΔU, the work done by the air W, the final kinetic energy Kf, and its final speed vf.

(a) A superball of mass 0.1kg is dropped from a height of 3 meters above the...

(a) A superball of mass 0.1kg is dropped from a height of 3 meters above the floor. It then bounces up to a height of 2.6 meters. Find the velocity of the ball the instant before it reaches ground level. (Hint: use energy equations) (b) Calculate the velocity the ball must have after the bounce at the instant it leaves the ground the reach the height of 2.6 meters. (c) Use these velocities to calculate the change i. momentum of...

An object has a mass of 16 kg. It is 18 meters high, from the ground....

An object has a mass of 16 kg. It is 18 meters high, from the ground. It begins to fall, from rest, with kinetic friction due to air resistance. The heat generated by kinetic friction is 12 percent (12%) of its initial mechanical energy. Determine the speed of the object when its height is 11 meters.

A rock is dropped, from rest, from a height of 8.9 m above the ground at...

A rock is dropped, from rest, from a height of 8.9 m above the ground at t = 0 s. At the same time that the rock is dropped a stone is thrown upward from a height of 1.1 m above the ground at a speed of 7.1 m/s. The stone travels straight upward toward the rock. There is no air resistance. a. Determine the height above the ground where the rock hits with the stone. Blank 1. Calculate the...

A ball is dropped from rest from the top of a building with height 50 meters....

A ball is dropped from rest from the top of a building with height 50 meters. At the same instant, you throw a ball upward from ground level carefully aimed to hit the falling ball. If the initial speed of your throw is 19 m/s, then the two balls collide at a height above the ground equal to: a) 4.50 m b) 7.61 m c) 12.2 m d) 16.1 m e) 2.15 m

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 stone 0.44 kg mass is released from rest from a height of 29.4 m above...

A stone 0.44 kg mass is released from rest from a height of 29.4 m above the ground. Ignoring air resistance and letting the ground be the zero potential energy level, Determine the final kinetic energy of the stone using energy conservation principle only, not as a free fall. Determine the work done on the stone by gravity.