A particle of mass 0.2 kg exectites SHM under a force of F = - 20x N. If speed of particle at mean position is 12 m/s then the amplitude of oscillations is

A particle of mass 0.1kg executes SHM under a force F =- 10x (N) . Speed of particle at mean position is 6 m//s . Find its amplitude of oscillation.

A particle of mass 0.1 kg executes SHM under a for F=(-10x) N. Speed of particle at mean position 6m//s . Then amplitude of oscillations is

A particle of mass 0.10 kg executes SHM with an amplitude 0.05 m and frequency 20 vib/s. Its energy of oscillation is

A particle of mass 0.50 kg executes a simple harmonic motion under a force F=-(50Nm^-1)x . If it crosses the centre of oscillation with a speed of 10ms^-1 , find the amplitude of the motion.

A particle of mass 2kg executing SHM has amplitude 20cm and time period 1s. Its maximum speed is

A particle of mass 2 kg is moving of a straight line under the actin force F = (8 - 2x)N . It is released at rest from x = 6m . a. Is the partical moving simple harmonically. b.Find the equilibrium position of the particle. c. Write the equation of motion of the partical. d. Find the time period of SHM.

A particle of mass 2 kg is moving of a straight line under the action of force F = (8 - 2x)N . It is released at rest from x = 6m . a. Is the particle moving simple harmonically. b. Find the equilibrium position of the particle. c. Write the equation of motion of the particle. d. Find the time period of SHM.

A particle of mass 0.2 kg is moving in one dimension under a force that delivers constant power 0.5 W to the particle.If the initial speed =0 then the final speed (in ms^(-1) ) after 5s is.

The maximum velocity of a particle, executing SHM with an amplitude 7 mm is 4.4 m/s. the period of oscillation is

The force versus position (F-x) graph of a particle of mass 2 kg is shown in the figure. If at x = 0 velocity of particle is 2 m/s then velocity of the particle at x = 8 m will be