You have a cylinder. You don't know what its internal structure looks like, but you plan to roll it down a ramp, as in this week's procedure. The ramp is 1 m long, and is elevated at an angle of 15°. The mass of the cylinder is 450 g and its diameter is 2.1 cm. After you release the cylinder, it rolls down the ramp without slipping, gaining speed. How much total energy (in J) does the block have at the bottom of
You have a cylinder. You don't know what its internal structure looks like, but you plan to roll it down a ramp, as in this week's procedure. The ramp is 1 m long, and is elevated at an angle of 15°. The mass of the cylinder is 450 g and its diameter is 2.1 cm. After you release the cylinder, it rolls down the ramp without slipping, gaining speed. How much total energy (in J) does the block have at the bottom of
Physics for Scientists and Engineers with Modern Physics
10th Edition
ISBN:9781337553292
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter7: Energy Of A System
Section: Chapter Questions
Problem 15P: A small particle of mass m is pulled to the top of a friction less half-cylinder (of radius R) by a...
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You have a cylinder. You don't know what its internal structure looks like, but you plan to roll it down a ramp, as in this week's procedure. The ramp is 1 m long, and is elevated at an angle of 15°. The mass of the cylinder is 450 g and its diameter is 2.1 cm.
After you release the cylinder, it rolls down the ramp without slipping, gaining speed. How much total energy (in J)
does the block have at the bottom of the ramp?
Transcribed Image Text:You have a cylinder. You don't know what its internal structure looks like, but you plan to roll it down a ramp, as in this week's
procedure. The ramp is 1 m long, and is elevated at an angle of 15º. The mass of the cylinder is 450 g and its diameter is 2.1
cm.
After you release the cylinder, it rolls down the ramp without slipping, gaining speed. How much total energy (in J)
does the block have at the bottom of the ramp?
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