Two simple harmonic motions given by, `x = a sin (omega t+delta)` and `y = a sin (omega t + delta + (pi)/(2))` act on a particle will be

Two simple harmonic motions are given by x_(1) = a sin omega t + a cos omega t and x_(2) = a sin omega t + (a)/(sqrt3) cos omega t The ratio of the amplitudes of first and second motion and the phase difference between them are respectively

A particle is subjected to two mutually perendicular simple harmonic motion such that its x and y coordinates are given by : x = 2 sin omega " "& " "y = 2 sin (omega t + (pi)/(2)) The path of the particle will be

A particle is acted simultaneously by mutually perpendicular simple harmonic motions x = a cos omega t and y = a sin omega t . The trajectory of motion of the particle will be

A particle is acted simultaneouosly be mutually perpendicular simple harmonic motion x= a cos omega t" and "y= a sin omega t . The trajectory of motion of the particle will be………

A particle is acted simultaneously by mutually perpendicular simple harmonic motion x = a cos omega t and y= a sin omega t . The frequency of motion of the particle will be

The equations of two SHM's is given as x = a cos (omega t + delta) and y = a cos (omega t + alpha) , where delta = alpha + (pi)/(2) the resultant of the two SHM's represents

The epoch of a simple harmonic motion represented by x = sqrt(3)sin omegat + cos omega t m is