Figure shows a composite pulley of that ...

Figure shows a composite pulley of that consist of two cylinders of ‘R’ '2 R' stacked coaxially. Moment of inertia of composite pulley is `(MR^(2))/(4) .A` light string is wound over pulley and another pulley 'A' of mass 'M' is hanged through the string as shown in figure
If there were no friction between string and pulley ‘A’, then the acceleration of pulley ‘A’ will be -

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Figure shows a composite pulley of that consist of two cylinders of ‘R’ '2 R' stacked coaxially. Moment of inertia of composite pulley is (MR^(2))/(4) .A light string is wound over pulley and another pulley 'A' of mass 'M' is hanged through the string as shown in figure The composite pulley is rotated with angular velocity omega in the direction shown. The pulley ‘A’ will -

pulley in the diagram is mass less but there is friction between pulley and string then the acceleration of system is

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In the adjacent figure, pulley 'A' is fixed and 'B' is movable. The strings are massless, masses of pulleys can be neglected and friction between the strings and pulley also can be neglected, The acceleration of mass '2m' is

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