Calculate the angular frequency of the system shown in fingure. Friction is absent everywhere and the threads, spring and pulleys are massless. Given that `m_(A) = m_(B) = m`.

Find the natural frequency of the system shown in figure. The pulleys are smooth and massless.

Find the natural frequency of oscillation of the system as shown in figure. Pulleys are massless and frictionless. Spring and string are also massless. (Take pi^(2)=10 )

In the figure shown , all the string are massless and friction is absent everywhere. Choose the correct options.

In the given figure inclined surface and pulleys are smooth. Strings and pulleys are massless. Acceleration of mass m is :

Friction is absent everywhere and the threads, spring and pulleys are massless. If m_(A) = m_(B) = M , then the angular frequency of the system for small oscillations will be

A uniform circular chain of radius r and mass m rests over a sphere of radius R as shown in figure. Friction is absent everywhere and system is in equilibrium . Find the tension in the chain.

A block of mass m is attached to a cart of mass 4m through spring of spring constant k as shown in the figure. Friction is absent everywhere. The time period of oscillations of the system, when spring is compressed and then released, is

A block of mass m slides down on inclined wedge of same mass m as shown in figure . Friction is absent everywhere . Acceleration of centre of mass of the block and wedge is

A block of mass m slides down on inclined wedge of same mass m as shown in figure . Friction is absent everywhere . Acceleration of centre of mass of the block and wedge is

In the system shown in figure m_(1) gt m_(2) . System is held at rest by thread BC. Just after the thread BC is burnt.