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Conservation of Energy in Rolling Motion Solutions Library

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Conservation of Energy in Rolling Motion

Q. A size-5 soccer ball of diameter 22.6 cm and mass 426 g rolls up a hill without slipping, reaching a maximum height of 6.50 m above the base of the...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. A basketball (which can be closely modeled as a hollow spherical shell) rolls down a mountainside into a valley and then up the opposite side, star...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. A string is wrapped several times around the rim of a small hoop with radius 8.00 cm and mass 0.180 kg. The free end of the string is held in place...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. Calculate the translational speed of a cylinder when it reaches the foot of an incline 7.30 m high. Assume it starts from rest and rolls without sl...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. A sphere of radius exttip{r_0}{r_0} = 23.0 cm and mass m = 1.20 kg starts from rest and rolls without slipping down a 36.0 degree incline that is 1...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. A hollow sphere is rolling along a horizontal floor at 6.00 m/s when it comes to a 33.0 degree incline. How far up the incline does it roll before ...

Solved • Mar 18, 2019

Conservation of Energy in Rolling Motion

Q. A wheel with a 10 cm radius rolls down an incline with an angular acceleration of 35 rad/s2. If the incline angle is 30°, and the wheel starts at a...

Solved • May 10, 2017

Conservation of Energy in Rolling Motion

Q. A spring is compressed against a 1 kg disk with radius 5 cm such that as the spring expands, its force is applied to the rim of the disk, allowing ...

Solved • Mar 13, 2017

Conservation of Energy in Rolling Motion

Q. A thin-walled hollow sphere with radius R = 0.050 m is released from rest at the top of an incline, a vertical distance of 2.0 m above the bottom o...

Solved • Feb 6, 2017