Home
Class 12
PHYSICS
[" (D) the rate at which energy is carri...

[" (D) the rate at which energy is carried is directly proportional to the velocity of the wave."],[" Q.10The effects are produced at a given point in space by two waves described by the equations,"y_(1)=y_(m)" sin "omega],[t" and "y_(2)=y_(m)sin(omega t+phi)" where "y_(m)" is the same for both the waves and "phi" is a phase angle.Tick the incorrect "],[" statement among the following."],[" (A) the maximum intensity that can be achieved at a point is twice the intensity of either wave and occurs "],[" if "phi=0],[" (B) the maximum intensity that can be achieved at a point is four times the intensity of either wave and "],[" occurs if "phi=0],[" (C) the maximum amplitude that can be achieved at the point its twice the amplitude of either wave and "],[" occurs at "phi=0],[" (D) When the intensity is zero,the net amplitude is zero,and at this point "phi=pi.]

Promotional Banner

Similar Questions

Explore conceptually related problems

The effects are produced at a given point in space by two wave decribed by the equations y_(1) = y_(m) sin omegat and y_(2) = y_(m) sin (omegat + phi) where y_(m) is the same for both the waves and phi is a phase angle. Tick the incorrect statement among the following.

The effects are produced at a given point in space by two wave decribed by the equations y_(1) = y_(m) sin thetat and y_(2) = y_(m) sin (omegat + phi) where y_(m) is the same for both the waves and phi is a phase angle. Tick the incorrect statement among the following.

The effects are produced at a given point in space by two wave decribed by the equations y_(1) = y_(m) sin thetat and y_(2) = y_(m) sin (omegat + phi) where y_(m) is the same for both the waves and phi is a phase angle. Tick the incorrect statement among the following.

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

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

Two harmonic travelling waves are described by the equations y_(1)=a sin(kx-omega t) and y_(2)=a sin(-kx+omega t+phi) . The amplitude of the superimposed wave is

If two waves represented by y_(1)=4 sin omega t and y_(2)=3sin (omega t+(pi)/(3)) interfere at a point, the amplitude of the resulting wave will be about

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