A particle is executing SHM acccording to the equation x=A cos `omegat`. Average speed of theparticle during the interval `0letle(pi)/(6omega)`

A particle is executing SHM according to the equation x =A cosomegat . Average speed of the particle during the interval 0larrtlarrpi/(6omega)

A particle is executing SHM according to the equation x = A cos omega t . Average speed of the particle during the interval 0 le t le (pi)/(6omega) is

particle is executing the motion x=A cos (omegat-theta) The maximum velocity of the particle is

A particle executing SHM according to the equation x=5cos(2pit+(pi)/(4)) in SI units. The displacement and acceleration of the particle at t=1.5 s is

A particle is executing SHM, whose equation is given below x=A cos (omegat+phi) . If t=0 , particle is mean position going towards positive x-direction then phi is equal to

A body is executing SHM according to the equation : y = 14 sin( 100 pi t + (pi/6)) cm. Find its maximum speed.

A particle execute SHM and its position varies with time as x = A sin omega t . Its average speed during its motion from mean position to mid-point of mean and extreme position is

A particle undergoing SHM has the equation x=A"sin"(2omegat+phi) , where x represents the displacement of the particle. The kinetic energy oscillates with time period

A particle executes SHM according to equation x=10(cm)cos[2pit+(pi)/(2)] , where t is in seconds. The magnitude of the velocity of the particle at t=(1)/(6)s will be :-