A ball starts from rest and rolls 6.5 m down a short ramp so that it...

A ball rolls down a ramp without slipping. It starts from rest. (a) Specify the mass...

A ball rolls down a ramp without slipping. It starts from rest. (a) Specify the mass and radius of the ball, and the height and length of the ramp. (b) Calculate the moment of inertia of the ball . (c) Calculate the potential energy of the ball at the top of the ramp. (d) Calculate the linear kinetic energy and rotational kinetic energy of the ball. (e) Determine the angular acceleration of the ball. (f) Determine how long the ball...

A solid sphere 0.16 m in diameter is released from rest, rolls down a ramp, and...

A solid sphere 0.16 m in diameter is released from rest, rolls down a ramp, and drops through a vertical height of h1 = 0.57 m. The ball leaves the bottom of the ramp, which is h2 = 1.08 m above the floor, moving horizontally. (a) What distanced does the ball move in the horizontal direction before landing? m (b) How many revolutions do it completely during its fall (i.e., after it rolls off and before it lands)? rev

A ball of mass M and radius R rolls smoothly from rest down a ramp and...

A ball of mass M and radius R rolls smoothly from rest down a ramp and onto a circular loop of radius 0.47 m. The initial height of the ball is h = 0.35 m. At the loop bottom, the magnitude of the normal force on the ball is 2.0 Mg. The ball consists of an outer spherical shell (of a certain uniform density) that is glued to a central sphere (of a different uniform density). The rotational inertia of...

A ball starts from rest and rolls down a hill with uniform acceleration, traveling 160 m...

A ball starts from rest and rolls down a hill with uniform acceleration, traveling 160 m during the second 5.1 s of its motion. How far did it roll during the first 5.1 s of motion? Express your answer to two significant figures and include the appropriate units.

A solid metal ball starts from rest and rolls without slipping a distance of d =...

A solid metal ball starts from rest and rolls without slipping a distance of d = 4.2 m down a θ = 38° ramp. The ball has uniform density, a mass M = 4.7 kg and a radius R = 0.33 m. What is the magnitude of the frictional force on the sphere?

A solid metal ball starts from rest and rolls without slipping a distance of d =...

A solid metal ball starts from rest and rolls without slipping a distance of d = 4.2 m down a θ = 38° ramp. The ball has uniform density, a mass M = 4.7 kg and a radius R = 0.33 m. What is the magnitude of the frictional force on the sphere?

A ball rolls without slipping down a ramp with a 20 degree slope. If the ball...

A ball rolls without slipping down a ramp with a 20 degree slope. If the ball starts 2.0m higher than the end of the ramp and the ramp is 3.0m above the ground, how far out from the end of the ramp does the ball land? I(ball)= 2/5 mr^2

3) A Solid Ball, of mass M and radius R rolls from rest down a table-top...

3) A Solid Ball, of mass M and radius R rolls from rest down a table-top ramp of height H and then rolls (horizontally) across a table until it gets to the edge and rolls off the edge and drops a distance h to the floor. (a) At what horizontal distance D (from the table edge) does the ball hit the floor? (b) Rank the following objects from least D to greatest D : Solid Ball, Hollow Sphere, Solid Cylinder,...

A Brunswick bowling ball with mass M= 7kg and radius R=0.15m rolls from rest down a...

A Brunswick bowling ball with mass M= 7kg and radius R=0.15m rolls from rest down a ramp without slipping. The initial height of the incline is H= 2m. The moment of inertia of the ball is I=(2/5)MR2 What is the total kinetic energy of the bowling ball at the bottom of the incline? 684J 342J 235J 137J If the speed of the bowling ball at the bottom of the incline is V=5m/s, what is the rotational speed ω at the...

A hoop I = M R2 starts from rest and rolls without slipping down an incline...

A hoop I = M R2 starts from rest and rolls without slipping down an incline with h = 7.0 m above a level floor. The translational center-of-mass speed vcm of the hoop on the level floor is