The motion of a particle in `SHM` of

The motion of a particle in S.H.M. is described by the displacement function, x=Acos(omegat+phi) , If the initial (t=0) position of the particle is 1cm and its initial velocity is omega cm s^(-1) , what are its amplitude and initial phase angle ? The angular frequency of the particle is pis^(-1) . If instead of the cosine function, we choos the sine function to describe the SHM : x=B sin(omegat+alpha) , what are the amlitude and intial phase of the particle with the above intial conditions ?

The equation of motion of a particle in SHM is a +4x = 0 . Here 'a' is linear acceleration of the particle at displacement 'x' in metre. Its time period is

The equation of motion of a particle in SHM is a +16 pi^(2)x = 0 . Here 'a' is linear acceleration of the particle at displacement x (a,x are in SI) . Its time period is

The motion of a particle executing SHM in one dimension is described by x = -0.5 sin(2 t + pi//4) where x is in meters and t in seconds. The frequency of oscillation in Hz is

The motion of a particle executing S.H.M. is given by x= 0.01 sin 100 pi (t+.05) , where x is in metres and time is in seconds. The time period is

The motion of a particle executing S.H.M. is given by x = 5sin200 pi (t + 1) where x is in metres and time is in seconds. The time period is

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

Statement-I : A particle is moving along x-axis. The resultant force F acting on it is given by F =- ax - b , wher a and b are both positive constants. The motion of this particle is not S.H.M. Statement-II : In S.H.M. resultant force must be proportional to the dispacement form mean position.

A particle moving in a straight line has velovity v given by v^(2)=alpha-betay^(2) , where alpha and beta are constants and y is its distance from a ficed point in the line. Show that the motion of particle is SHM. Find its itme period and amplitude.

The maximum acceleration of a particle in SHM is motion two lines keeping the maximum speed in the constant it is position when