A particle is performing a motion on the x-axis with its position given by `x=A+Bsinomega t`. The amplitude of particle is

The motion of a particle is given by x=A sin omegat+Bcos omegat . The motion of the particle is

A particle executing simple harmonic motion along y -axis has its motion described by the equation y = A sin (omega t )+ B . The amplitude of the simple harmonic motion is

The motion of a particle is given by x=A sinomegat+Bcosomegat . The motion of the particle is

The displacement of a particle along the x-axis is given by x = a sin^(2) omega t . The motion of the particle corresponds to

The displacement of a particle along the x- axis it given by x = a sin^(2) omega t The motion of the particle corresponds to

A particle is moving along the x-axis whose position is given by x= 4 - 9t + t^3/3 . Mark the correct statement(s) in relation to its motion.

A particle is moving along the x-axis whose acceleration is given by a= 3x-4 , where x is the location of the particle. At t = 0, the particle is at rest at x = 4//3m . The distance travelled by the particles in 5 s 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 velocity (upsilon) of a particle moving along X-axis varies with its position x as shown in figure. The acceleration (a) of particle varies with position (x) as

A particle executes simple harmonic motion of amplitude A along the x - axis. At t = 0 , the position of the particle is x = (A)/(2) and it moves along the positive x - direction. Find the phase constant delta , if of the equation is written as x = Asin (omega t + delta) .