The motion of a particle executing S.H.M. is given by `x= 0.01 sin 100 pi (t+.05)` , where x is in metres and time is in seconds. The time period is

The motion of a particle executing S.H.M. is given by x = 5sin200 pi (t + 1) where x is in metres and time is in seconds. The time period 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

The motion of a particle executing simple harmonic motion is given by X = 0.01 sin 100 pi (t + 0.05) , where X is in metres andt in second. The time period is second 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 executing S.H.M. is given by y = 10 sin [6t + (pi)/(3)] where y is in metres and t is in seconds. Then the initial displacement and velocity of the particle is

The motion of a particle executing SHM in one dimension is described by x = -0.5 sin(2 t + pi//4) where x is in meters and t in seconds. The frequency of oscillation in Hz is

The displacment of particle performing a linear S.H.M. is given by x=5 "sin" (8pi+pi//3) , where x is in metre and t is in second. The frequency and period of S.H.M. are given by

The equation of a simple harmonic wave is given by Y = 5sin""pi/2(100t - x) , where x and y are in metre and time is in second. The time period of the wave (m seconds) will be