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

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

In spring-block system match the following

In a spring-block system, match the following:

A mass of 10 kg is hung to a spring balance in lift. If the lift is moving with an acceleration g//3 in upward & downward directions, choose the correct options related to the reading of the spring balance.

In a spring block system if length of the spring is increased by 4% , then time period

A pulley with two blocks system is attached to the ceiling of a lift upward with an acceleration a_(0) . Find the deformation in the spring.

In a spring block system if length of the spring is reduced by 1% , then time period

Statement-I : Time period of spring block system is the same whether in an accelerated or in an inertial frame of reference. Statement-II : Mass of the block of spring block system and spring constant of the spring are independent of the acceleration of the frame of reference.

A block with a mass of 2 kg hangs without vibrating at the end of a spring of spring constant 500N//m , which is attached to the ceiling of an elevator. The elevator is moving upwards with an acceleration (g)/(3) . At time t = 0 , the acceleration suddenly ceases. (a) What is the angular frequency of oscillation of the block after the acceleration ceases ? (b) By what amount is the spring stretched during the time when the elevator is accelerating ? (c )What is the amplitude of oscillation and initial phase angle observed by a rider in the elevator in the equation, x = Asin (omega t + phi) ? Take the upward direction to be positive. Take g = 10.0 m//s^(2) .

In the given spring block system if k = 25 pi^(2) Nm^(-1) , find time period of oscillation.