A particle executing S.H.M. is given by `x=10sin(8t+pi//3)m`.
Its velocity when it is at a distance 6 m from the mean position is,

The periodic time of a particle executing a linear S.H.M. is (2pi)/(omega) . If its velocity at a dis"tan"ce b from the mean position is sqrt(3)bomega , then the path length of the particle is

A body executing S.H.M.along a straight line has a velocity of 3 ms^(-1) when it is at a distance of 4m from its mean position and 4ms^(-1) when it is at a distance of 3m from its mean position.Its angular frequency and amplitude are

A particle executing SHM along a straight line has a velocity of 4ms^(-1) , and at a distance of 3m from its mean position and 3ms^(-1) , when at a distance of 4m from it. Find the time it take to travel 2.5m from the positive extremity of its oscillation.

A particle executed S.H.M. starting from its mean position at t=0 , If its velocity is sqrt3bomega , when it is at a distance b from the mean positoin, when omega=(2pi)/(T) , the time taken by the particle to move from b to the extreme position on the same side is

A particle is executing S.H.M. If u_(1) and u_(2) are the velocitiesof the particle at distances x_(1) and x_(2) from the mean position respectively, then

The equation of motion of a particle executing a linear S.H.M. is given by x =10 "sin" (4t-pi//6)cm . What is its velocity, when x=6 ?

A particle is executing a linear S.H.M. Its velocity at a distance x from the mean position is given by v^2=144-9x^2 . The maximum velocity of the particle 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

A particle is executing a linear S.H.M. Its velocity at a dis"tan"ce x from the mean position is given by v^(2)=144-9x^(2) . [x is in metre] What is the amplitude of S.H.M. ?