In the equation `y=Asin(omegat+pi/4)` match the following for x=`A/2`.

In the equation ,y =A sin 2 pi(ax+bt+pi//4) match the following.

In the wave equation, y = Asin(2pi)/(a)(x-bt)

A particle excuting SHM has equation y=A sin(omegat+(pi)/(6)) where omega=(2pi)/(T) , then find the possible time t when it is at y=-(A)/(2)

The equation y=Asin^2(kx-omegat) represents a wave motion with

In the wave equation, y = Asin(2pi)((x)/(a) - (b)/(t))

The displacement of a particle is repersented by the equation y=3cos((pi)/(4)-2omegat) . The motion of the particle is (b) (c) (d)

Two parallel S.H.M.s have equations y_1=A_1sin(omegat+2pi) and y_2=A_2sin(omega/t+4pi) . The amplitude of the resultant motion is

A x and y co-ordinates of a particle are x=A sin (omega t) and y = A sin(omegat + pi//2) . Then, the motion of the particle is

The displacemtn of a particle is represented by the equation y=3cos((pi)/(4)-2omegat). The motion of the particle is

Two waves are represented by the equations y_1=asin(omegat=kx+0.57)m and y_2=acos(omegat+kx) m where x is in metre and t in second. The phase difference between them is