A solid sphere of weight 37.0 N rolls up an incline at an angle of 23.0°....

A solid sphere of weight 42.0 N rolls up an incline at an angle of 38.0

A solid sphere of weight 42.0 N rolls up an incline at an angle of 38.0

A solid sphere of weight 35.5 N rolls up an incline with an inclination angle of...

A solid sphere of weight 35.5 N rolls up an incline with an inclination angle of 25.0

A solid sphere of ice and a solid sphere of plastic are placed at the top...

A solid sphere of ice and a solid sphere of plastic are placed at the top of an inclined plane of length L and simultaneously released from rest, as shown in (Figure 1). Each has mass m and radius R. Assume that the coefficient of friction between the ice sphere and the incline is zero and that the plastic sphere rolls down the incline without slipping. Derive expressions for the following quantities in terms of L, θ, m, and R:...

A solid sphere of uniform density starts from rest and rolls without slipping a distance of...

A solid sphere of uniform density starts from rest and rolls without slipping a distance of d = 4.4 m down a θ = 22°incline. The sphere has a mass  M = 4.3 kg and a radius R = 0.28 m. 1)Of the total kinetic energy of the sphere, what fraction is translational? KE tran/KEtotal = 2)What is the translational kinetic energy of the sphere when it reaches the bottom of the incline? KE tran = 3)What is the translational speed...

A solid sphere of ice and a solid sphere of plastic are placed at the top...

A solid sphere of ice and a solid sphere of plastic are placed at the top of an inclined plane of length L and simultaneously released from rest, as shown in (Figure 1). Each has mass m and radius R. Assume that the coefficient of friction between the ice sphere and the incline is zero and that the plastic sphere rolls down the incline without slipping. Derive expressions for the following quantities in terms of L, θ, m, and R:...

A sphere of radius r0 = 23.0 cm and mass m = 1.20kg starts from rest...

A sphere of radius r0 = 23.0 cm and mass m = 1.20kg starts from rest and rolls without slipping down a 35.0 ∘ incline that is 13.0 m long. A. Calculate its translational speed when it reaches the bottom. B. Calculate its rotational speed when it reaches the bottom. C. What is the ratio of translational to rotational kinetic energy at the bottom?

A uniform, solid sphere of radius 3.00 cm and mass 2.00 kg starts with a purely...

A uniform, solid sphere of radius 3.00 cm and mass 2.00 kg starts with a purely translational speed of 1.25 m/s at the top of an inclined plane. The surface of the incline is 1.00 m long, and is tilted at an angle of 25.0 ∘ with respect to the horizontal. Assuming the sphere rolls without slipping down the incline, calculate the sphere's final translational speed v 2 at the bottom of the ramp.

A solid sphere of mass 0.6010 kg rolls without slipping along a horizontal surface with a...

A solid sphere of mass 0.6010 kg rolls without slipping along a horizontal surface with a translational speed of 5.420 m/s. It comes to an incline that makes an angle of 31.00° with the horizontal surface. To what vertical height above the horizontal surface does the sphere rise on the incline?

1. A solid sphere of mass 50 kg rolls without slipping. If the center-of-mass of the...

1. A solid sphere of mass 50 kg rolls without slipping. If the center-of-mass of the sphere has a translational speed of 4.0 m/s, the total kinetic energy of the sphere is 2. A solid sphere (I = 0.4MR2) of radius 0.0600 m and mass 0.500 kg rolls without slipping down an inclined plane of height 1.60 m . At the bottom of the plane, the linear velocity of the center of mass of the sphere is approximately _______ m/s.

A uniform, solid sphere of radius 4.50 cm and mass 2.25 kg starts with a purely...

A uniform, solid sphere of radius 4.50 cm and mass 2.25 kg starts with a purely translational speed of 1.25 m/s at the top of an inclined plane. The surface of the incline is 2.75 m long, and is tilted at an angle of 22.0∘ with respect to the horizontal. Assuming the sphere rolls without slipping down the incline, calculate the sphere's final translational speed ?2 at the bottom of the ramp. ?2=__________ m/s