A block is hanged from spring in a cage. Elongation in spring is `‘x_(1)’` and `‘x_(2)’` when cage moves up and down respectively with same acceleration. The expansion in spring when the cage move horizontally with same acceleration -

A block is hanged from spring is a cage. Elogation is spring is x_(1)=4sqrt2 nm and x_(2)=3sqrt2mm mm when cage moves up and down respectively with same acceleration. The expansion (in mm) in spring when the cage moves horizontally with the same acceleration .

A pendulum is hanging from the ceiling of a cage. If the cage moves up with constant acceleration a, its tension is T_(1) and if it moves down with same acceleration, the corresponding tension is T_(2) . The tension in the string if the cage moves horizontally with same acceleration a is

A pendulum is hanging from the ceiling of a cage . If the cage moves up with constant accelration 'a' the tension is T_(1) . If it moves down with the same acceleration 'a' then tension is T_(2) . If the cage moves horizontally with the same accelration 'a', then the tension is T in equilibrium w.r.t. cage. Then 2T^(-2) is

A pendulum bob is hanging from the roof of an elevator with the help of a light string. When the elevator moves up with uniform acceleration 'a' the tension in the string is T_(1) . When the elevator moves down with the same acceleration, the tension in the string is T_(2) . If the elevator were stationary, the tension in the string would be

Block A of mass m is placed on a plank B . A light support S is fixed on plank B and is attached with the block A with a spring of spring constant K. Consider that initialy spring is in the natural length, and the system is at rest. Find the maximum compression in the spring, if the plank B is moved with a constant acceleration 'a' . (All the surface are smooth) :

If a monkey moves upward with respect to the rope with acceleration g/2 then acceleration of block, if masses of block and monkey are same

A small metal sphere is suspended from a light spring of force constant k from the ceiling of a cage.The cage is uniformly accelerated upward by a force F.If the cage is n times heavier than the sphere the potential energy stored in the spring when the sphere has the same acceleration as that of the cage is

A block ofmass m is attached with a spring in its natural length, of spring constant k. The other end A of spring is moved with a constant acceleration 'a' away from the block as shown in the figure -3.74 . Find the maximum extension in the spring. Assume that initially block and spring is at rest w.r.t ground frame:

A block of mass m hangs from three springs having same spring constant k. If the mass is slightly displaced downwards, the time period of oscillation will be