The equation of a particle executing `SHM` is `(d^(2)x)/(dt^(2))=-omega^(2)x`. Where `omega=(2pi)/("time period")`. The velocity of particle is maximum when it passes through mean position and its accleration is maximum at extremeposition. The displacement of particle is given by `x=A sin(omegat+theta)` where `theta`-initial phase of motion. `A`-Amplitude of motion and T-Time period
The average velocity during motion of particle from one extreme point:

The equation of a particle executing SHM is (d^(2)x)/(dt^(2))=-omega^(2)x . Where omega=(2pi)/("time period") . The velocity of particle is maximum when it passes through mean position and its accleration is maximum at extremeposition. The displacement of particle is given by x=A sin(omegat+theta) where theta -initial phase of motion. A -Amplitude of motion and T-Time period The accleration is half of its maximum value at an amplitude of

The equation of a particle executing SHM is (d^(2)x)/(dt^(2))=-omega^(2)x . Where omega=(2pi)/("time period") . The velocity of particle is maximum when it passes through mean position and its accleration is maximum at extremeposition. The displacement of particle is given by x=A sin(omegat+theta) where theta -initial phase of motion. A -Amplitude of motion and T-Time period The time period of pendulum is given by the equation T=2pisqrt((l)/(g)) . Here (d^(2)x)/(dt^(2)) is :

The equation of motion of a particle executing SHM is ((d^2 x)/(dt^2))+kx=0 . The time period of the particle will be :

The displacement of a particle executing a S.H.M. is given by x= A "sin" omega t +A "cos" omega t . What is the amplitude of motion ?

The displacement x of the body is motion is given by x=A sin (omega t+ theta) , Determine the time at which the displacement is maximum.

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 executing simple harmonic motion with maximum velocity of 20 cm/s. Calculate the average velocity during its motion from one extreme to another.

The displacement of a particle in S.H.M. is given by x= B "sin" (omega t + alpha) . The initial position (at time t=0), of the particle is the initial phase angle if the angular frequency of the particle is pi rad//s ?

Equation motion of a particle is given as x = A cos(omega t)^(2) . Motion of the particle is

A particle executes simple harmonic motion. The amplitude of vibration of particle is 2 cm. The displacement of particle in one time period is