A disk with a c value of 1/2, a mass of 6 kg, and radius of...

A disk with a c value of 1/2, a mass of 9 kg, and radius of...

A disk with a c value of 1/2, a mass of 9 kg, and radius of 0.26 meters, rolls without slipping down an incline with has a length of 9 meters and angle of 30 degrees. At the top of the incline the disk is spinning at 37 rad/s. What is the rotational kinetic energy of the disk at the bottom of the incline in Joules?

A disk with a c value of 1/2, a mass of 4 kg, and radius of...

A disk with a c value of 1/2, a mass of 4 kg, and radius of 0.26 meters, rolls without slipping down an incline with has a length of 10 meters and angle of 30 degrees. At the top of the incline the disk is spinning at 36 rad/s. How fast is the disk spinning (the center of mass) at the bottom of the incline in rad/s?

A disk with a c value of ½, a mass of 2 kg, and radius of...

A disk with a c value of ½, a mass of 2 kg, and radius of 0.36 meters, rolls without slipping down an incline which has a length of 9 meters and angle of 30 degrees. At the top of the incline, the disk is spinning at 21 rad/s. How fast is the disk moving (center of mass) at the bottom of the incline in m/s?

A disk with a c value of ½, a mass of 3 kg, and radius of...

A disk with a c value of ½, a mass of 3 kg, and radius of 0.34 meters, rolls without slipping down an incline which has a length of 7 meters and angle of 30 degrees. At the top of the incline, the disk is spinning at 29 rad/s. How fast is the disk moving (center of mass) at the top of the incline in m/s?

1. A disk with a radius of 0.8 meters, a mass of 5 kg and c...

1. A disk with a radius of 0.8 meters, a mass of 5 kg and c value of 1/2 is rolling without slipping at down an incline with a height (not length) of 6 meters. At the top of the incline, it is spinning at 16 rad/s. How fast is it moving in m/s (center of mass moving) at the bottom of the incline? Hint: first find how fast it's moving at the top of the incline as was done...

QUESTION 27 A uniform disk of radius 0.40 m and mass 31.0 kg rolls on a...

QUESTION 27 A uniform disk of radius 0.40 m and mass 31.0 kg rolls on a plane without slipping with angular speed 3.0 rad/s. The rotational kinetic energy of the disk is __________. The moment of inertia of the disk is given by 0.5MR2.

Problem 4 A hoop and a solid disk both with Mass (M=0.5 kg) and radius (R=...

Problem 4 A hoop and a solid disk both with Mass (M=0.5 kg) and radius (R= 0.5 m) are placed at the top of an incline at height (h= 10.0 m). The objects are released from rest and rolls down without slipping. a) The solid disk reaches to the bottom of the inclined plane before the hoop. explain why? b) Calculate the rotational inertia (moment of inertia) for the hoop. c) Calculate the rotational inertia (moment of inertia) for the...

A 1.6 m radius cylinder with a mass of 8.6 kg rolls without slipping down a...

A 1.6 m radius cylinder with a mass of 8.6 kg rolls without slipping down a hill which is 5.6 meters high. At the bottom of the hill, what percentage of its total kinetic energy is invested in rotational kinetic energy?

A uniform disc of mass M=2.0 kg and radius R=0.45 m rolls without slipping down an...

A uniform disc of mass M=2.0 kg and radius R=0.45 m rolls without slipping down an inclined plane of length L=40 m and slope of 30°. The disk starts from rest at the top of the incline. Find the angular velocity at the bottom of the incline.

A solid disk with a radius of 33.3 cm is moving so that its center of...

A solid disk with a radius of 33.3 cm is moving so that its center of mass is initially moving at 4 m/s while also rolling without slipping at 12rad/s along a horizontal surface. It rolls up an incline, coming to rest as shown before rolling back down (drawing is not to scale). Consider the disk at the bottom of the hill. What is the ratio of the rotational kinetic energy to the total kinetic energy of the disk, Krot/Ktotal?A....