If two waves are represented by :
`y_1=2 sin (4x-300t)& y_2= sin (4x-300t-0.2)`
then their superposed wave will have angular frequency -

Two waves are represented by: y_(1)=4sin404 pit and y_(2)=3sin400 pit . Then :

Two waves represented by y_1=10 sin (2000 pi t) and y_2=10 sin (2000 pi t + pi//2) superposed at any point at a particular instant. The resultant amplitude is

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

Two harmonic waves are represented in SI units by y_1(x,t) = 0.2 sin (x-3.0t) and y_2(x,t) = 0.2 sin (x- 3.0t + phi) (a) Write the expression for the sum y=y_1 + y_2 for phi = pi/2 rad. (b) Suppose the phase difference phi between the waves is unknown and the amplitude of their sum is 0.32 m, what is phi ?

Two waves represented by y_1 =a sin omega t and y_2 =a sin (omega t+phi) "with " phi =(pi)/2 are superposed at any point at a particular instant. The resultant amplitude is

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

Two light waves are represented by y_(1)=a sin_(omega)t and y_(2)= a sin(omega t+delta) . The phase of the resultant wave is

Two waves represented by y=a" "sin(omegat-kx) and y=a" " sin(omega-kx+(2pi)/(3)) are superposed. What will be the amplitude of the resultant wave?