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[" The pulley shown in figure has a radi...

[" The pulley shown in figure has a radius "10cm" and moment of inertia "0.5kg-m^(2)],[" about its axis.Assuming the inclined planes to be frictionless,calculate the "],[" acceleration of the "4.0kg" block."],[qquad 2.0kg/M],[45^(@)]

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The pulley shown in figure has a radius 10 cm and moment of inertia 0.5 kg-m^2 about its axis. Assuming the inclined planes to be frictionless, calculate the acceleration of the 4.0 kg block.

The pulley shown in figure has a radius 10 cm and moment of inertia 0.5 kg-m^2 about its axis. Assuming the inclined planes to be frictionless, calculate the acceleration of the 4.0 kg block.

The pulley shown in figure has a radius 10 cm and moment of inertia 0.5 kg-m^2 about its axis. Assuming the inclined planes to be frictionless, calculate the acceleration of the 4.0 kg block.

The descending pulley shown in figure has a radius 20 cm and moment of inertia 0.20 kg-m^2. The fixed pulley is light and the horizontal plane frictionless. Find the acceleration of the block if its mass is 1.0 kg.

The descending pulley shown in figure has a radius 20 cm and moment of inertia 0.20 kg-m^2. The fixed pulley is light and the horizontal plane frictionless. Find the acceleration of the block if its mass is 1.0 kg.

The descending pulley shown in figure has a radius 20 cm and moment of inertia 0.20 kg-m^2. The fixed pulley is light and the horizontal plane frictionless. Find the acceleration of the block if its mass is 1.0 kg.

A wheel of mass 10 kg has a moment of inertia of 160 kg-m^(2) about its own axis, the radius of gyration will be