A particle of mass 4 kg is executing S.H.M. Its displacement is given by the equation Y=8 `cos[100t+pi//4]` cm. Its maximum kinetic energy is

A particle of mass 4 kg is excuting S.H.M. Its displacement is given by the equation y=8 cos[100t +pi//4] cm . Its maximum kinetic energy is,

A body of mass 1 kg is executing harmonic motion . Its displacement y cm at t sec is given by y=6 sin (100t+pi/4) its maximum kinetic energy is,

The displacement of a particle of mass 100 g executing SHm is given by the equation y = 0.2 cos (100t+(pi)/(4)) meter. Its total energy is

A body of mass 1 kg is executing simple harmonic motion. Its displacement y(cm) at t seconds is given by y = 6 sin (100t + pi//4) . Its maximum kinetic energy is

A body of mass 1 is executing simple harmonic motion. Its displacement y(cm) at t seconds is given by y = 6 sin (100t + pi//4) . Its maximum kinetic energy is

A body of mass 1 is executing simple harmonic motion. Its displacement y(cm) at t seconds is given by y = 6 sin (100t + pi//4) . Its maximum kinetic energy is

A mass of 1 kg is executing SHM which is give by, x=6.0cos(100t+pi//4) cm. What is the maximum kinetic energy?

A body of mass 1 kg is performing linear S.H.M. its displacement x (cm) at t (second) is given by x = 6 sin (100 t + (pi) /4) .Maximum kinetic energy of the body is

A particle of mass 1 kg executing S.H.M. is given by y = 2 cos (10t+pi//3) in SI units. Its maximum potential energy is