A cylindrical rod of mass `M`, length `L` and radius `R` has two cords wound around it whose ends are attached to the ceiling. The rod is held horizontally with the two cords vertical. When the rod is released, the cords unwind and the rod rotates the linear acceleration of the cylinder as it falls, is :
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A scylindrical rod of mass M, length L & radius R has cords wound around it , whose ends are attached to the ceioling .The rod is held borizontal and released .The liinear acceleration of the cylinder as it falls and tension in the cords is

A solid cyinder of mass m=4 kg and radius R=10 cm has two ropes wrapped around it. one near each end. The cylinder is held horizontally by fixing the two free ends of the cords to the hooks on the ceiling such that both the cords are exactly vertical. The cylinder is released to fall under gravity. Find the linear acceleration of the cylinder.

A solid cyinder of mass m=4 kg and radius R=10 cm has two ropes wrapped around it. one near each end. The cylinder is held horizontally by fixing the two free ends of the cords to the hooks on the ceiling such that both the cords are exactly vertical. The cylinder is released to fall under gravity. Find the linear acceleration of the cylinder.

A uniform rod of length 2a is held with one end resulting on a smooth horizontal table makin an angle alpha with the vertical. When the rod is released,

A solid cylinder of mass m=4kg and radius R=10cm has two ropes wrapped around it, one near each end. The cylinder is held horizontally by fixing the two free ends of he cords to the hooks on the ceiling such that both the cords are exactly vertical. The cylinder is released to fall under gravity. Find the tension along the strings.

A rod of mass m and length l is himged about one of its ends. The rod is released from horizontal position. When the rod becomes vertical, calculate (i) angular speed of the rod (ii) Hinge reaction.