A spring mass system is hanging from the celling of an elevator in equilibrium. The elevator suddenly starts accelerating upwards with acceleration a. Find

(a) the frequency and
(b) the amplitude of the resulting SHM.

A spring mass system is hanging from the ceiling of an elevator in equilbrium Elongation of spring is l . The elevator suddenly starts accelerating downwards with acceleration g//3 find. (a) the frequency and (b) the amplitude of the resulting SHM

A spring mass system is hanging from the ceiling of an elevator in equilibrium. The elevator suddenly starts accelerating upwards with acceleration a, consider all the options in the reference frame of elevator.

A block of mass 1kg hangs without vibrations at the end of a spring with a force constant 1 N//m attached to the ceilling of an elevator. The elevator is rising with an upward acceleration of g//4 . The acceleration of the elevator suddenly ceases. What is the amplitude of the resulting oscillations?

A block of mass 1kg hangs without vibrations at the end of a spring with a force constant 1 N//m attached to the ceilling of an elevator. The elevator is rising with an upward acceleration of g//4 . The acceleration of the elevator suddenly ceases. What is the amplitude of the resulting oscillations?

A block of mass 1kg hangs without vibrations at the end of a spring with a force constant 1 N//m attached to the ceilling of an elevator. The elevator is rising with an upward acceleration of g//4 . The acceleration of the elevator suddenly ceases. What is the amplitude of the resulting oscillations?

An ideal pendulum was oscillating with an angular amplitude theta=pi//3 inside a stationary elevator. When the pendulum was passing through equilibrium position, the lift suddenly starts moving upward with an acceleration a=g . Find the new angular amplitude of the oscillation.

An ideal pendulum was oscillating with an angular amplitude theta=pi//3 inside a stationary elevator. When the pendulum was passing through equilibrium position, the lift suddenly starts moving upward with an acceleration a=g . Find the new angular amplitude of the oscillation.