A solid uniform cylinder of mass `m` performs small oscillations due to the action of two springs of stiffness `k` each (figure). Find the period of these oscillation in the absendce of sliding.
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A small block oscillates back and forth on as smooth concave surface of radius R figure. Find the time period of small oscillation.

A uniform cylinder of mass m and radius R is in equilibrium on an inclined plane by the action of a light spring of stiffness k , gravity and reaction force acting on it. If the angle of inclination of the plane is phi , then angular frequency of small oscillations of the cylinder is...........

The time period of small oscillations of mass m :-

A solid uniform cylinder of mass M performs small oscillations in horizontal plane if slightly displaced from its mean position shown in figure. If it is given that initially springs are in natural lengths and cylinder does not slip on ground during oscillaitons due to frications between ground and cylinder. Force constant of each spring is k . Find time period of these oscillation.

A uniform cylinder of mass m and radius R is in equilibrium on an inclined by the action of a light spring of stiffnesk, gravity and reaction force acting on it .If the angle of inclination of the plane is phi , find the angular frequency of small oscillation of the cylinder

A particle of mass m is attached to three identical springs of spring constant k as shwon in figure. The time period of vertical oscillation of the particle is

A solid cylinder of mass m length L and radius R is suspended by means of two ropes of length l each as shown. Find the time period of small angular oscillations of the cylinder about its axis AA'

A uniform solid sphere of mass 'm' and radius R is in equilibrium on an inclined plane by the action of the light spring of stiffness k, gravity and on it. If the angle of inclination of the plane is 60^(@) , then find the time period of oscillation for small displancement.

The period of oscillation of a mass M suspended from a spring of spring constant K is T. the time period of oscillation of combined blocks is