The amplitude of a particle executing SHM is 4 cm. At the mean position the speed of the particle is 16 cm/sec. The distance of the particle from the mean position at which the speed of the particle becomes will be
(1)
(2)
(3) 1 cm
(4) 2 cm
The maximum velocity of a simple harmonic motion represented by is given by
(1) 300
(2)
(3) 100
(4)
The displacement equation of a particle is The amplitude and maximum velocity will be respectively
(a) 5, 10
(b) 3, 2
(c) 4, 2
(d) 3, 4
The instantaneous displacement of a simple pendulum oscillator is given by . Its speed will be maximum at time
(1)
(2)
(3)
(4)
The amplitude of a particle executing S.H.M. with frequency of 60 Hz is 0.01 m. The maximum value of the acceleration of the particle is
(a) (b)
c) (d)
A particle moving along the x-axis executes simple harmonic motion, then the force acting on it is given by
(1) – A Kx
(2) A cos (Kx)
(3) A exp (– Kx)
(4) A Kx
What is the maximum acceleration of the particle doing the SHM where 2 is in cm
(a) (b)
(c) (d)
A particle executes simple harmonic motion along a straight line with an amplitude A. The potential energy is maximum when the displacement is
(1)
(2) Zero
(3)
(4)
The potential energy of a particle with displacement X depends as U(X). The motion is simple harmonic, when (K is a positive constant)
(1)
(2)
(3)
(4)
The angular velocity and the amplitude of a simple pendulum is and a respectively. At a displacement X from the mean position if its kinetic energy is T and potential energy is V, then the ratio of T to V is
(1)
(2)
(3)
(4)