A book is on a table 1m high. The book has a mass of 1kg. One...

The ball has a mass 1kg resting at a height 10m from ground find its potential...

The ball has a mass 1kg resting at a height 10m from ground find its potential energy, kinetic energy and velocity of ball? (b) Find potential energy, kinetic energy and velocity of ball when it is half the way to reach ground?

The ball has a mass 1kg resting at a height 10m from ground find its potential...

The ball has a mass 1kg resting at a height 10m from ground find its potential energy, kinetic energy and velocity of ball? (b) Find potential energy, kinetic energy and velocity of ball when it is half the way to reach ground?

An object has a velocity of 10m/s and a mass of 1kg. After traveling some distance,...

An object has a velocity of 10m/s and a mass of 1kg. After traveling some distance, the object now has a velocity of 100m/s and a mass of 1kg. What is the work being done on the object? Can you tell me what force made this? Can you tell me the distance traveled by the object What does it mean, that the object has kinetic energy equal to 5000 joules?

You drop a basketball with a tennis ball on top of it from one meter (1m)....

You drop a basketball with a tennis ball on top of it from one meter (1m). The MASS of the tennis ball is 1/10 that of the Basketball. a) Is this a Conservation of ENERGY or a Conservation of MOMENTUM problem? b) Solve for how high the Spalding Hi-Bounce goes up ASSUMING conservation of momentum. c) Solve for how high the Spalding Hi-Bounce goes up ASSUMING conservation of energy.

(a) One particle has mass m and a second particle has mass 2m. The second particle...

(a) One particle has mass m and a second particle has mass 2m. The second particle is moving with speed v and the first with speed 2v. How do their kinetic energies compare? (b) A person drops a pebble of mass m1 from a height h, and it hits the floor with kinetic energy K. The person drops another pebble of mass m2 from a height of 2h, and it hits the floor with the same kinetic energy K. How...

A 1.9 kg book is lying on a 0.70 m -high table. You pick it up...

A 1.9 kg book is lying on a 0.70 m -high table. You pick it up and place it on a bookshelf 2.2 mm above the floor. During this process, how much work does gravity do on the book? During this process, how much work does your hand do on the book?

A 1.4 kg book is lying on a 0.75 m -high table. You pick it up...

A 1.4 kg book is lying on a 0.75 m -high table. You pick it up and place it on a bookshelf 2.0 m above the floor. Part A During this process, how much work does gravity do on the book? Express your answer with the appropriate units. Part B During this process, how much work does your hand do on the book? Express your answer with the appropriate units.

A barrel of oil contains about 6.1 x109 J of chemical potential energy. How high could...

A barrel of oil contains about 6.1 x109 J of chemical potential energy. How high could this potential energy lift your classmates off the ground? Assume you have 20 classmates that each have a mass of 57 kg.

That box up there on that table has a mass of 10 kg. It is in...

That box up there on that table has a mass of 10 kg. It is in contact with a spring that is compressed 5 cm from its equilibrium position. The spring has a stiffness constant of 1000 kg/s^2. There is no friction between the box and the table and the table is 1 meter high. Once the spring is released it will push the box forward with its full extension at which point, the box will leave the surface of...

A mass of 3.8 is placed on a stiff vertical spring, which has a spring constant...

A mass of 3.8 is placed on a stiff vertical spring, which has a spring constant of 950n/m The object is then pressed against the spring until it has been compressed a distance of 88.7cm. The mass is then released and is allowed to be thrown up into the air. a What will be the elastic potential energy stored on the spring just before the mass is released? b What will be the gravitational potential energy be of this mass...