A oscillator of mass 100g executes damped oscillation. When it complete 100 oscillations its amplitude of oscillation becomes half to its original amplitude. If time period is 2s, then find the value of damping coefficient.

What is the amplitude of damped oscillator if time becomes t= 2m ?

Write the equation of amplitude for damped oscillations.

The amplitude of damped oscillator becomes 1/3 of original value in 2s . Its amplitude after 6s is 1//n times the original. The value of n is

The amplitude of a damped oscillator becomes half in one minute. The amplitude after three minutes will be (1)/(x) times the original, then find the value of x.

If a simple pendulum oscillates with an amplitude of 50 mm and time period of 2s, then its maximum velocity is………..

If an oscillator performs 50 oscillations in 1s. find out the periodic time of this oscillator.

For the damped oscillator shown in Fig. 14.19, the mass m of the block is 200 g, k = 90 N m^(-1) and the damping constant b is 40 g s^(-1) . Calculate (a) the period of oscillation, (b) time taken for its amplitude of vibrations to drop to half of its initial value, and (c) the time taken for its mechanical energy to drop to half its initial value.

If damped oscillator is very heavy then what is its frequency?

A body of mass 1 kg suspended an ideal spring oscillates up and down. The amplitude of oscillation is 1 metre and the time periodic is 1.57 second. Determine.