Passage VII There is a spring block system in a lift moving upwards with acceleration `a=g/2`

If maximum extension in the spring is `(5mg)/(2k)`, then maximum upward accleration `(a_(1))` and maximum downward acceleration `(a_(2)` of the block are

Passage VII There is a spring block system in a lift moving upwards with acceleration a=g/2 In mean position (of block's oscillations) spring is

The maximum acceleration of 5 of kg block is :-

If the pulley is massles and moves with an upward acceleration a_(0) . Find the acceleration of (m_1)and (m_2) w.r.t to elevator.

A block of mass m is attached with a massless in string. Breaking strength of string is 4mg. Block is moving up. The maximum acceleration and maximum retardation of the block can be

Initially spring is in natural length and both blocks are in rest condition. Then deter mine maximum extension in spring . K = 20 N/M

A lift is moving downwards with an acceleration equal to g . A block of mass m , kept on the floor of the lift of friction coefficient mu , is pulled horizontally . The friction acting on the block is

The block is allwed to fall, slowly from the position wher spring is in its natural length. Find, maximum extension in the string.

The block is allowed to fall, slowly from the position where spring is in its natural length. Find, maximum extension in the string.

Block A in the figure is released from rest when the extension in the spring is x_(0)(x_(0) lt mg//k) . The maximum downward displacement of the block is (there is no friction) :

A block of mass m is suddenly released from the top of a spring of stiffness constant k. a. Find the acceleration of block just after release. b. What is the compression in the spring at equilibrium. c. What is the maximum compression in the spring. d. Find the acceleration of block at maximum compression in the spring.