A `2kg` block hangs without vibrating at the bottom end of a spring with a force constant of `400 N//m`. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of `5 m//s^(2)` when the acceleration suddenly ceases at time `t = 0` and the car moves upward with constant speed `(g = 10 m//s^(2))`
What is the angular frequencyof the block after the acceleration ceases ?

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/s^(2) when the acceleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) What is the angular frequency of oscillation of the block after the acceleration ceases?

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/ s^(2) when the accleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) What is the angular frequency of oscillation of the block after the acceleration ceases?

A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N//m . The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5 m//s^(2) when the acceleration suddenly ceases at time t = 0 and the car moves upward with constant speed (g = 10 m//s^(2) The amplitude of the oscillation is

A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N//m . The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5 m//s^(2) when the acceleration suddenly ceases at time t = 0 and the car moves upward with constant speed (g = 10 m//s^(2) The amplitude of the oscillation is

A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/s2 when the acceleration suddenly ceases at time t=0 and the car moves upward with constant speed (g=10m/s2 The amplitude of the oscillation is

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/s^(2) when the acceleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) The amplitude of the oscillations is

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/ s^(2) when the accleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) The amplitude of the osciallations is

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/ s^(2) when the accleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) The initial phase angle observed by a rider in the elevator, taking upward directioin to be positive and positive extreme position to have pi/2 phase constant, is equal to

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

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