A particle is subjected to two simple harmonic motions, one along the X-axis and the other on a line making an angle of `45^@` with the X-axis. The two motions are given by
`x=x_0 sinomegat` and `s=s_0 sin omegat`.
find the amplitude of the resultant motion.

(a) A particle is subjected to two simple harmonic motions x_1=A_1sin omegat and x_2=A_2 sin (omegat+pi//3) . Find (i) the displacement at t=0 , (ii) the maximum speed of the particle and (iii) the maximum acceleration of the particle. (b) A particle is subjected to two simple harmonic motions, one along the x-axis and the other on a line making an angle of 45^@ with the x-axis. The two motions are given by xy=x_0sinomegat and s=s_0sin omegat Find the amplitude of the resultant motion.

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

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

A particle is subjected to two simple harmonic motions x_1=A_1 sinomegat and x_2=A_2sin(omegat+pi/3) Find the maximum speed of the particle and the maximum acceleration of the particle

A particle executing simple harmonic motion along - y - axis has its motion described by the equation y=Asin(omegat)+B , the amplitude of the example harmonic motion 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