A smooth of mass `m_(1)` is lying on a rigid horizontal string A bob of mass `m_(2)` hangs from, the ring by an inextensible light string of length `l`. Find angular frequency of oscillation of the system.

A loop of mass M with two identical rings of mass m at its top hangs from a ceiling by an inextensible string. If the rings gently pushed horizontally in opposite directions, find the angular distance covered by each ring when the tension in the string vanishes for once during their motion.

A block of mass m_(1)=2 kg is kept on a smooth horizontal table. Another block of mass m_(2)=1 kg is connected to m_(1) by a light inextensible string passing over a smooth pulley as shown in the figure. If the blocks are released, what will be the (a) acceleration of each block (b) tension in the string?

Two blocks of masses m and M are connected by an inextensible light string . When a constant horizontal force acts on the block of mass M. The tension in the string is

A block of mass m connected with a smooth prismatic wedge of mass M is released from rest when the spring is relaxed. Find the angular frequency of oscillation.

A very light rod of length l pivoted at O is connected with two springs of stiffness k_1 & k_2 at a distance of a & l from the pivot respectively. A block of mass ma attached with the spring k_(2) is kept on a smooth horizontal surface. Find the angular frequency of small oscillation of the block m .

A block of mass m hangs by means of a string which goes over a pulley of mass m and moment of inertia l, as shown in the diagram. The string does not realtive to the pulley. Find the frequency of small oscillations.

A ring of mass m free to slide on a fixed smooth horizontal rod is attached to a particle of mass M kg by a inextensible string of length l. Initially, both M and m are at rest and the string is vertical. A horizontal velocity v_(0) is imparted to the particle. The maximum height up to which block will rise w.r.t its initial position is (M = 2m)

A pendulum bob of mass 50 gm is hanging from the ceiling of a lift by a light , inextensible string. Choose the correct options ( g = 9.8 m//s^(2) )

A block of mass M is placed on a rough horizontal surface. It is connected by means of a light inextensible string passing over a smooth pulley . The other end of string passing over a smooth pulley. The other end of string is connected to a block of mass m. There is no friction between vertical surface and block m If the whole system ( horizontal surface + blocks ) accelerates towards right the value of maximum on the horizontal surface is

Two block of masses m_(1) and m_(2) are in equilibrium. The block m_(2) hangs from a fixed smooth pulley by an inextensible string that is fitted with a light spring of stiffness k as shown in fig. Neglecting friction and mass of the string, find the acceleration of the bodies just after the string S is cut.