The displacement of an oscillator is given by
`x=a sin omega t+b cos omega t`
where a, b and `omega`, are constant. Then -

Evaluate int^t _0 A sin omega dt where A and omega are constants.

The displacement of an elastic wave is given by the function y = 3 sin omega t + 4 cos omega t. where y is in cm and t is in second. Calculate the resultant amplitude.

The equation of displacement of a harmonic oscillator is x = 3sin omega t +4 cos omega t amplitude is

A particle moves in xy plane according to the law x = a sin omegat and y = a(1 – cos omega t) where a and omega are constants. The particle traces

The motion of a particle is given by x = A sin omega t + B os omega t . The motion of the particle is

The displacement of a SHM particle is y= 3 sin omega t+4 cos omega t then its amplitude will be……

For a particle moving in the x-y plane, the x and y coordinates are changing as x=a sin omega t and y = a ( 1-cos omega t ) , where 'a' and omega constants. Then, what can be inferred for the trajectory of the particle ?