An undeformed spring with spring constant k has length `l_(0)`. When the system rotates at an angular velocity `omega`, the weight with mass m causes an extension in the spring. If l is the length of the rotating spring then

A particle of mass m is fixed to one end of a massless spring of spring constant k and natural length l_(0) . The system is rotated about the other end of the spring with an angular velocity omega ub gravity-free space. The final length of spring is

A particles of mass m is fixed to one end of a light spring of force constant k and unstreatched length l. the system is rotated about the other end of the spring with an angular velocity omega in gravity free space. The increase in length of the spring is

An ideal spring with spring constant k is hung from the ceiling and a block of mass M is attached to its lower end. The mass is released with the spring initially unstretched. Then the maximum extension in the spring is

An ideal spring with spring constant k is hung from the ceiling and a block of mass M is attached to its lower end. The mass is released with the spring initially unstretched. Then the maximum extension in the spring is

A ring attached with a spring is fitted in a smooth rod. The spring is fixed at the outer end of the ord. The mass of the ring is 3kg & spring constant is 300N//m . The ring is given a velcoity 'V' towards the outer end of the rod. And the rod is set to be rotating with an angular velcity omega . Then ring will move with constant speed with respect to the rod if : Natural length of spring is same as that of length of rod.

A block of mass m attached in the lower and vertical spring The spring is hung from a calling and force constant value k The mass is released from rest with the spring initially unstreched The maximum value of extension produced in the length of the spring will be

A horizontal metallic rod of mass 'm' and length 'l' is supported by two vertical identical springs of spring constant 'k' each and natral length l_(0) A current 'l' is flowing in the rod in the direction shown if the rod is in equilibrium then the length of each spring in this state is:

There are two identical spring each of spring constant k. here springs, pulley and rods are massless and the block has mass m . What is the extension of each spring at equilibrium?

A small trolley of mass 2.0 kg resting on a horizontal turntable is connected by a light spring to the centre of the table. When the turntable is set into rotation at a speed of 300 rev/min the length of the stretched spring is 40 cm. If the original length of the spring is 35 cm, determine the force constant of the spring.

The string is now replaced by a spring of spring constant k and natural length l . Mass 2m is fixed at the bottom of the frame . The mass m which has the other end of the spring attached to it is brought near the mass 2m and released as shown in figure. The maximum angle theta that the spring will substend at the centre will be : ( Take k=10N//m,l=1m,m=1kg and l=r)