A solid cylinder of mass M and radius R rolls down an inclined plane of height h. The angular velocity of the cylinder when it reaches the bottom of the plane will be
A
2R√gh
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B
2R√gh2
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C
2R√gh3
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D
12R√gh
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Solution
The correct option is C2R√gh3
[since there is no relative motion at point of contact, work done by friction Wf=0 in pure rolling]
Applying mechanical energy conservation,
Loss in PE=Gain inKETrans+Gain inKERot
or Mgh=12Mv2+12Iω2 ⇒Mgh=12MR2ω2+12(12MR2)ω2
[∵v=Rω for pure rolling] ⇒Mgh=34MR2ω2 ⇒ω2=4gh3R2 ∴ω=2R√gh3