The incline is 0.25 m height and has a length of 0.65 m. a) What is...

Question

Question

The incline is 0.25 m height and has a length of 0.65 m. a) What is the initial Gravitational Potential Energy of the Ball at the top of the incline?

Answer 1

Answer #1

Answer 2

Similar Homework Help Questions

If a frictionless incline has a difference in height from one end to the other of...

If a frictionless incline has a difference in height from one end to the other of 15.1 cm and has a length along the incline of 1.12 m, find the time it takes for a block of 1.6 kg, starting from rest, to slide down the ramp from the top to the bottom of this incline.
A track consists of a frictionless incline plane, which is a height of 0.5 m, and...

A track consists of a frictionless incline plane, which is a height of 0.5 m, and a rough horizontal section with a coefficient of kinetic friction 0.02. Block A, whose mass is1.5 kg, is released from the top of the incline plane, slides down and collides instantaneously and inelastically with iden tical block B at the lowest point. The two blocks move to the right through the rough section of the track until they stop. Determine the initial potential energy...
A 0.15 kg ball rolls down an incline. The ball starts at a height of 0.8...

A 0.15 kg ball rolls down an incline. The ball starts at a height of 0.8 m and the length of the path it takes is 2.5 m. What is the speed of the ball at the bottom of the incline if friction and air resistance are not important?

A tire (solid disk) has a mass of 10 kg and a radius of 0.25 m....

A tire (solid disk) has a mass of 10 kg and a radius of 0.25 m. The tire rests at the top of an incline. When released, the tire rolls without slipping down to the bottom of the incline. The top of the incline is 10 m in height above the bottom of the incline. a) What is the angular velocity of the tire at the bottom of the incline? b) What would the angular velocity at the bottom of...
The figure shows a thin rod, of length L = 2.10 m and negligible mass, that...

The figure shows a thin rod, of length L = 2.10 m and negligible mass, that can pivot about one end to rotate in a vertical circle. A heavy ball of mass m = 9.20 kg is attached to the other end. The rod is pulled aside to angle θ0 = 22.0° and released with initial velocity = 0. As the ball descends to its lowest point, (a) how much work does the gravitational force do on it and (b)...
6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of i...

6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of inertia J rolls without slipping down the incline shown. The spring affixed to its axle has rest length h, and is neither extended nor compressed when r 0. The external force F is directed parallel to the direction of rolling. Find the total kinetic energy and potential energy in the system. Assume the gravitational potential energy to be zero when the...

The figure shows a thin rod, of length L = 1.6 m and negligible mass, that...

The figure shows a thin rod, of length L = 1.6 m and negligible mass, that can pivot about one end to rotate in a vertical circle. A heavy ball of mass m = 9.1 kg is attached to the other end. The rod is pulled aside to angle θ0 = 6.4° and released with initial velocity v Overscript right-arrow EndScripts Subscript 0 = 0. As the ball descends to its lowest point, (a) how much work does the gravitational...
Draw a new gravitational potential energy vs. height graph to represent the gravitational...

Draw a new gravitational potential energy vs. height graph to represent the gravitational potential energy if the ball had a mass of 2.00kg. The graph for a 1.00kg ball with an arbitrary initial velocity is provided again as a reference.Take g = 10.0 m/s2 as the acceleration due to gravity.
70kg is sliding up on a hill side at an A mass m incline angle 0...

70kg is sliding up on a hill side at an A mass m incline angle 0 = 30°. The initial velocity of the mass is vi 30m/s, and no external force is applied to the mass on the incline. The height of the structure ish = 25 m Note that the static friction coefficient of snow is i, = 0.5, and kinetic friction coefficient of snow is 0.4. Use the principles of energy and work to find the answen to...

A 0.25 kg ball is suspended from a light 1.1 m string as shown. The string...

A 0.25 kg ball is suspended from a light 1.1 m string as shown. The string makes an angle of 21° with the vertical. Let U = 0 when the ball is at its lowest point (θ = 0). 1. What is the gravitational potential energy, in joules, of the ball before it is released? 2. What will be the speed of the ball, in meters per second, when it reaches the bottom?