The displacement of a particle from its mean position (in mean is given by `y = 0.2 sin(10pi t + 1.5 pi) cos (10 pi t+ 1.5 pi)`. The motion but not `S.H.M.`

The displacement of a particle from its mean position (in metre) is given by y=0.2 "sin" (10 pi t+ 1.5 pi) "cos" (10 pi t+1.5 pi) The motion of the particle is

The displacement of a particle from its mean position (in m) varies with time according to the relation y = 0.2 sin (10pit+1.5pi)cos(10pit+1.5pi) . The motion of the particle is

The displacement of a particle executing S.H.M is given by x= 0.01 sin 100pi (t + 0.05) . The time period is

The displacement of a particle ( in meter ) from its mean position is given by the equation y = 0.2 ( cos^(2) "" (pi t)/( 2) - sin^(2) "" ( pi t )/( 2)) , The motion of the above particle is

The displacement of a particle of mass 0.1 kg from . its mean position is given by, y = 0.05 sin 4pi(5t+0.4) (where all the quantities are in S.I. unit). Period of motion is 0.1 s. The total energy of the particle is

The displacement of a particle making S.H.M. is given by x=6cos(100t+(pi)/(4))m then the frequency is

The displacement of a particle is given by x = 3 sin ( 5 pi t) + 4 cos ( 5 pi t) . The amplitude of particle is

The displacement of a particle performing a S.H.M is given by x=0.25 "cos" [8 pi t+(pi)/(3)] . The frequency of S.H.M. is

The displacement of a particle performing a S.H.M. is given by x=0.5 "sin" 100 pi (t + 0.05) , where x is in metres and t is in second. Its periodic time in second is