The velocity-time diagram of a harmonic oscillator is shown in the adjoining figure. The frequency of oscillation is

From the given figure find the frequency of oscillation of the mass m

The acceleration-displacement graph of a particle executing simple harmonic motion is shown in the figure. The frequency of oscillation is

A resistor R , an inductor L , a capacitor C and voltmeters V_(1),V_(2) and V_(3) are connected to an oscillator in the circuit as shown in the adjoining diagram.When the frequency of the oscillator is increased, upto resonance frequency, the voltmeter reading (at resonance frequency) is zero in the case of:

Acceleration displacement (a-x) graph of a particle executing S.H.M. is shown in the figure. The frequency of oscillation is (tan theta =8)

In case of damped oscillation frequency of oscillation is

The acceleration-displacement (a-X) graph of a particle executing simple harmonic motion is shown in the figure. Find the frequency of oscillation.

Frequency of oscillation is proportional to

The variation of potential energy of harmonic oscillator is as shown in figure. The spring constant is

In a simple harmonic oscillator, at the mean position

THE magnitude of maximum accesleration is pi times that of maximum velocity of a simble harmonic oscillator The time period of the oscillator. The time period of the oscillator in second is,