In the arrangement shown, the string doe...

In the arrangement shown, the string does not slip over pulley Consider pulley as a solid cylinder of mass 4m and radius R. The acceleration of block. A is

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A uniform solid cylinder of mass m and radius 2R rests on a horizontal table. A string attached to it passes over a pulley (disc) of mass m and radius R that is mounted on a fricitonaless axle through its centre . A block of mass m is suspended from the free end of the spring . The string does not slip over the pulley surface and the cylinder rolls without slipping on the table. Acceleration of the block is

A uniform solid cylinder of mass m and radius 2R rests on a horizontal table. A string attached to it passes over a pulley (disc) of mass m and radius R that is mounted on a fricitonaless axle through its centre . A block of mass m is suspended from the free end of the spring . The string does not slip over the pulley surface and the cylinder rolls without slipping on the table. Angular acceleration of the cylinder is

In the arrangement shown, the pulleys and strings are massless. The acceleration of block B is :

For the following system shown assume that pulley is frictionless, string is massless (m remains on M), Q. The acceleration of the block A is

For the following system shown assume that pulley is frictionless, string is massless (m remains on M), Q. The acceleration of the block A is

In the arrangement shown in the figure, the acceleration of the pulley is, (Ignore friction)

In the arrangement shown, the mass m will ascend with an acceleration ( Pulley and rope are massless)

In the arrangement shown, the mass m will ascend with an acceleration ( Pulley and rope are massless)

A uniform solid cylinder of mass m and radius 2R rests on a horizontal table. A string attached to it passes over a pulley (disc) of mass m and radius R that is mounted on a fricitonaless axle through its centre . A block of mass m is suspended from the free end of the spring . The string does not slip over the pulley surface and the cylinder rolls without slipping on the table. Force of friction acting on the cylinder is

If the string & all the pulleys are ideal, acceleration of mass m is :-

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