In forced oscillations , a particle oscillates simple harmonically with a frequency equal to

In forced oscillation of a particle the amplitude is maximum for a frequency omega_(1) of the force while the energy is maximum for a frequency omega_(2) of the force, then .

If a smooth tunnel is dug across a diameter of earth and a particle is released from the surface of earth, the particle oscillate simple harmonically along it Maximum speed of the particle is

If a smooth tunnel is dug across a diameter of earth and a particle is released from the surface of earth, the particle oscillate simple harmonically along it Time period of the particle is not equal to

Figure. Shows the variation of force acting on a particle of mass 400 g executing simple harmonic motion. The frequency of oscillation of the particle is

Figure. Shows the variation of force acting on a particle of mass 400 g executing simple harmonic motion. The frequency of oscillation of the particle is

Assertion: In forced oscillations, th steady state motion of the particle is simpl harmonic. Reason: The frequency of particle after the free oscillations die out, is the natural frequency of the particle.

Is oscillation of a mass suspended by a spring simple harmonic ?

When a particle oscillates in simple harmonic motion, both in potential energy and kinetic energy vary sinusoidally with time. If v be the frequency of the motion of the particle, the frequency associated with the kinetic energy is :

A particle executes simple harmonic motion with a frequency. (f). The frequency with which its kinetic energy oscillates is.

The resultant force acting on a particle executing simple harmonic motion is 4N when it is 5cm away from the centre of oscillation. Find the spring constant.