In a gravity free space, a hollow cylinder of radius `4R` and mass `M` is being rotated by a constant angular velocity `omega` clockwise w.r.t. an inertial frame of reference. Another hollow cylinder of radius `R` and mass `m` is rotating inside this cylinder, such that it touches the inner surface of larger cylinder without slipping and its centre of mass appears stationery from inertial frame Dynamic friction coefficient between cylinders is `mu`. If the normal reaction between cylinders is denoted by `N`, answer the following questions.
What is the value of `N`

In a gravity free space, a hollow cylinder of radius 4R and mass M is being rotated by a constant angular velocity omega clockwise w.r.t. an inertial frame of reference. Another hollow cylinder of radius R and mass m is rotating inside this cylinder, such that it touches the inner surface of larger cylinder without slipping and its centre of mass appears stationery from inertial frame Dynamic friction coefficient between cylinders is mu . If the normal reaction between cylinders is denoted by N , answer the following questions. What is the angular velocity of smaller cylinder.

A ring of radius 'r' and mass per unit length 'm' rotates with an angular velocity 'omega' in free space then tension will be :

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