The displacement equation of a spring block system is given by `y = A sin omegat` in air. It is completely immersed in water. If `A^(1)` and `omega^(1)` be new amplitude and angular freuency then

The displacement equation of a simple harmonic oscillator is given by y=A sin omegat-Bcos omegat The amplitude of the oscillator will be

The displacement equation of a particle of medium during wave mation is given by y=A sin omega t-B cos omega t The amplitude of the oscillator will be

The displacement function of a S.H.M is given by y = cos [(omega t + phi)] if at t = 0 th displaxcement is y = 1 on and velocity cm s^(-1) The value amplitude (A in cm) is

Wave equations of two particles are given by y_(1)=a sin (omega t -kx), y_(2)=a sin (kx + omega t) , then

The displacement of an eleastic wave is given by the function y=3 sin omega t +4 cos omegat . where y is in cm and t is in second. Calculate the resultant amplitude.

if the displacement of the particle at an instant is given by y = r sin (omega t - theta) where r is amplitude of oscillation. omega is the angular velocity and -theta is the initial phase of the particle, then find the particle velocity and particle acceleration.

The S.H.M. of a particle is given by the equation y=3 sin omegat + 4 cosomega t . The amplitude is

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

The displacement of particle in S.H.M. May be given by y = a sin(omegat + phi) show that if the time t is increased by 2pi//omega , the value of y remains the same.

The displacement of two interfering light waves are given by y_(1)=3 sinomegat,y_(2)=4 sin(omegat+pi//2) . The amplitude of the resultant wave is