A particle is performing damped oscillation with frequency `5Hz`. After every `10` oscillations its amplitude becmoes half. Find time from beginning after which the amplitude becomes `1//1000` of its initial amplitude :

In damped oscillations damping froce is directly proportional to speed of ocillatior .If amplitude becomes half to its maximum value is 1 s, then after 2 s amplitude will be ( A_(0) - initial amplitude)

A damped harmonic oscillator has a frequency of 5 oscillations per second . The amplitude drops to half its value for every 10 oscillation. The times it will take to drop to 1/(1000) of the original amplitude is close to:

The amplitude of a particle in damped oscillation is given by A=A_0e^(-kt) where symbols have usual meanings if at time t=4s,the amplitude is half of initial amplitude then the amplitude is 1/8 of initial value t=

When an oscillator completes 100 oscillations its amplitude reduced to (1)/(3) of initial values. What will be amplitude, when it completes 200 oscillations :

The amplitude (A) of damped oscillator becomes half in 5 minutes. The amplitude after next 10 minutes will be

When an oscillator completes 50 oscillations its amplitude reduced to half of initial value (A_0) . The amplitude of oscillation, when it completes 150 oscillations is

A particle executes simple harmonic oscillation with an amplitudes a. The period of oscillation is T. The minimum time taken by the particle to travel half of the amplitude from the equilibrium position is

A particle executes simple harmonic oscillation with an amplitudes a. The period of oscillation is T. The minimum time taken by the particle to travel half of the amplitude from the equilibrium position is

Consider a damped oscillation due to air resistance. It is given that air resistance is directly proportional to velocity but in opposite direction. It us found that amplitude reduces to half in 20 oscillations. Whaat eill be amplitude when it completes 80 oscillations? (Initially amplitude is 15 cm)

A particle performing SHM with angular frequency omega=5000 radian/second and amplitude A=2 cm and mass of 1 kg. Find the total energy of oscillation.