A particle moves in x-y plane according to ru le x`=a sin omegat` and y=`a cos omegat`. The particles follows:

The S.H.M. of a particle is given by the equation y=3 sin omegat + 4 cosomega t . The amplitude is

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

The displacement of a particle performing simple harmonic motion is given by, x=8" "sin" "omegat+6cos" "omegat , where distance is in cm and time is in second. What is the amplitude of motion?

The disperod of a particle varies according to the relation x=4 (cos pit+ sinpit) . The amplitude of the particle is.

A particle moves in the x-y plane under the action of a force vec(F) such that the components of its linear momentum vec(P) at any time t are p_(x) = cos t and p_(y) = 3 sin t. What is the magnitude of the vector vec(F) ?

The displacement of a particle along the x-axis is given by x = a sin^(2) omega t . The motion of the particle corresponds to

A force vec((F)) = - K(yhat(i) + x hat(j)) (where K is a positive constant) acts on a particle moving in the X-Y plane. Starting from the origin, the particle is taken along the positive X-axis to the point (a, 0) and then parallel to the Y-axis to the point (a,a). The total work done by the force vec(F) . of the particle is

A particle moves in the xy-plane under the action of a force F such that the components of its linear momentum p at any time t and p_(x)=2cos t, p_(y)=2sin t. the angle between F and p at time l is

The displacement of the interfaring light waves are y_1 =4 sin omega t and y_2=3sin (omegat +(pi)/( 2)) What is the amplitude of the resultant wave?

The displacement of a particle is represented by the equation y = 3 cos [ pi/4 - 2omega t] . The motion of the particle is