A particle executes simple harmonic motion and is located at ` x = a`, b at times `t_(0),2t_(0) and3t_(0)` respectively. The frequency of the oscillation is :

A particle executes simple harmonic motion and is located at x = a , b and c at times t_(0),2t_(0) and3t_(0) respectively. The frequency of the oscillation is :

The position and velocity of a particle executing simple harmonic motion at t = 0 are given by 3 cm and 8 cm s^(-1) respectively . If the angular frequency of the particle is 2 "rad s" ^(-1) , then the amplitude of oscillation (in cm) is

A particle executes simple harmotic motion about the point x=0 . At time t=0 , it has displacement x=2cm and zero uelocity. If the frequency of motion is 0.25 s_(-1) , find (a) the period, (b) angular frequency, ( c) the amplitude, (d) maximum speed, (e) the displacement from the mean position at t=3 s and (f) the velocity at t=3 s .

The displacement x(in metres) of a particle performing simple harmonic motion is related to time t(in seconds) as x=0.05cos(4pit+(pi)/4) .the frequency of the motion will be

The displacement x (in metre ) of a particle in, simple harmonic motion is related to time t ( in second ) as x= 0.01 cos (pi t + pi /4) the frequency of the motion will be

The displacement of a particle executing simple harmonic motion is given by y=A_(0)+A sin omegat+B cos omegat . Then the amplitude of its oscillation is given by

A simple harmonic motion is represented by x(t) = sin^(2)omega t - 2 cos^(2) omega t . The angular frequency of oscillation is given by

A particle executes simple harmonic motion according to the displacement equation y = 10 cos(2 pi t + (pi)/(6))cm where t is in second The velocity of the particle at t = 1/6 second will be