" The amplitude of a wave represented by displacement equation "y=(1)/(sqrt(a))sin omega t+-(1)/(sqrt(b))" coswt will be "

The amplitude of a wave represented by displacement equation y=(1)/(sqrt(a)) sin omega t +-(1)/(sqrt(b)) cos omega t will be

The amplitude of a wave represented by displacement equation y=(1)/(sqrt(a)) sin omega t +-(1)/(sqrt(b)) cos omega t will be

The amplitude of a wave represented by displacement equation y=(1)/(sqrta)sinomegat+-(1)/(sqrtb)cosomegat will be

The amplitude of a wave represented by displacement equation y=(1)/(sqrta)sinomega+-(1)/(sqrtb)cosomegat will be

The displacement of a particle is represented by the equation y = sin^3 omega t . The motion is

The resultant intensity after interference of two coherent waves represented by the equation Y_(1)=a_(1)sin omega t and Y_(2)=a_(2)sin((pi)/(2)-omega t) will be proportional to

Two wave are represented by equation y_(1) = a sin omega t and y_(2) = a cos omega t the first wave :-

The displacement of a particle is represented by the equation y= sin^(3) omega t . The motion is………..

The speed of the wave represented by y =A sin (omega t - k x) is …………. .

Two waves are represented by the equations y_1=a sin omega t and y_2=a cos omegat . The first wave