The displacement-time equation of a particle executing SHM is `x-Asin(omegat+phi)`. At tme t=0 position of the particle is x=`A/2` and it is moving along negative x-direction. Then the angle `phi` can be

The displacement-time equation of a particle executing SHM is A-Asin(omegat+phi) . At tme t=0 position of the particle is x= A/2 and it is moving along negative x-direction. Then the angle phi can be

Displacement-time equation of a particle execution SHM is x=A sin( omegat+pi/6) Time taken by the particle to go directly from x = -A/2 to x = + A/2 is

Displacement-time graph of a particle executing SHM is as shown The corresponding force-time graph of the particle can be

x - t equation of a particle executing SHM is x = Acos (omega t - 45^(@)) Find the point from where particle starts its journey and the direction of its initial velocity.

The displacement of a particle executing SHM is given by y=0.25 sin(200t) cm . The maximum speed of the particle is

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 the equation is written as x=Asin(omegat+delta)

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) .

Displacement-time equation of a particle executing SHM is x=4sin( omega t) + 3sin(omegat+pi//3) Here, x is in cm and t ini sec. The amplitude of oscillation of the particle is approximately.

Variation of acceleration a of a particle executing SHM with displacement x is

Displacement of a particle executing SHM s x= 10 ( cos pi t + sin pi t) . Its maximum speed is