The angular frequency of a spring block system is `omega_(0)`. This system is suspended from the ceiling of an elevator moving downwards with a constant speed `v_(0)`. The block is at rest relative to the elevator. Lift is suddenly stopped. Assuming the downward as a positive direction. Then

Block B moves to the right with a constant velocity v_(0) . The velocity of body a relative to b is

A spring block system is kept inside a lift moving with a constant velocity v_(0) as shown in figure. Block is in equilibrium and at rest with respect to lift. The lift is suddenly stopped at time t = 0 . Taking upward direction as the positive direction, write x - t equation of the block.

A particle that hangs from a spring oscillates with an angular frequency of 2 rad//s . The spring particle system is suspended from the celling of an elevator car and hangs motionless (relative to the elevator car) as the car descends at a constant speed of 1.5 m//s . The car then stops suddenly. (a) With what amplitude does the particle oscillate ? (b) What is the equation of motion for the particle ? (Choose upward as the position direction)

A small cart with a sphere suspended from ceiling by a string is moving up an inclined plane at a constant speed V. The direction of string supporting the sphere is :

A mass m is suspended from the ceiling by a string with variable linear mass density (mu) .A wave pulse is produced at the top of an oscillator which travels from top to bottom with constant wave speed. (x axis is positive downwards). Then.

The block A is moving downward with constant velocity v_(0.) Find the velocity of the block B. When the string makes an angle theta with the horizontal

If block A of the pulley system is moving downward with a speed of 1 m//s while block C moving up at 0.5m//s determine the speed of block B

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) .

A block of mass m is suspended from the ceiling of a stationary standig elevator through a spring of spring constant k. Suddenly, the cable breaks and the elevator starts falling freely. Show that the bklock now executes a simple harmonic motion of amplitude mg/k in the elevator

A block of mass 1kg hangs without vibrating at the end of a spring whose force constant is 200(N)/(m) and which is attached to the ceiling of an elevator. The elevator is rising with an upward acceleration of (g)/(3) when the acceleration suddenly ceases. The angular frequency of the block after the acceleration ceases is