The maximum velocity of a simple harmonic motion represented by `y="sin"(100t+(pi)/(6))` is given by

The maximum velocity of a simple harmonic motion represented by y = 3 sin (100t + (pi)/(6)) is given by

The maximum velocity of a simple harmonic motion represented by y= 3 sin (100 t + pi/6 ) is given by

The maximum velocity of a linear simple harmonic oscillator represented by y=6 "sin" (50 t +pi//3) is given by [all quantities are in SI units]

Two simple harmonic motion are represented by the equation y_(1)= 0.1 sin(100 pi t+(pi)/(3)) and y_(2)= 0.1 cos pi t . The phase difference of the velocity of particle-1 with respect to the velocity of particle-2 is…………

A simple harmonic motion is represented by F(t)=10sin(20t+0.5) . The amplitude of the S.H.M. is

Two simple harmonic motions are represented by y_(1) = 10 sin"" (pi)/(4) (12t+1)" and " y_(2) = 5(sin"" 3pi t+ sqrt(3) cos 3pi t) . Find out the ratio of their amplitudes. What are the time period of two motions.

The equation of a simple harmonic motion is given by y=6 sin 10 pi t+8 cos 10 pi cm and t in sec. Determine the amplitude, period and initial phase.