The equation y= A sin2(ωt - kx) represent a wave motion with amplitude and frequency as

The equation y=4 + 2 sin (6t - 3x) represents a wave motion with

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

Y= 2A cos^(2) (kx - omega t) represents a wave with amplitude A´ and frequency f. The value of A´ and f are:

A plane progressive wave is represented by the equation y= 0.25 cos (2 pi t - 2 pi x) The equation of a wave is with double the amplitude and half frequency but travelling in the opposite direction will be :-

y_(1)=Asin(omegat-kx)&y_(2)=Asin(omegat-kx+delta) : these two equations are representing two waves. Then the amplitude of the resulting wave is

If f_(0) and f_(f) represent the carrier wave frequencies for amplitude and frequency modulations respectively, then

The equation of a transverse wave travelling along +x axis is given by y=0.15 sin (1.57x-31.4t) where y and x are represented in m and t in s. Find the amplitude, frequency velocity and wavelength of the wave.

A progressive wave of frequency 500 Hz is travelling with a velocity of 360 m/s. How far apart are two points 60^@ out of phase ? (ii)Does the speed of a plane-progressive wave depend on the amplitude ? (iii)The equation of a progressive wave is represented by Y=A sin^2 (kx-omegat) . Find its amplitude and frequency (iv)Which of the following equations represents a wave travelling along positive y-axis ? (a)x=5 sin (2y-6t) (b) y=6sin (7x-5t) (c ) y=10 sin (6y) cos (8t)

Does the wave function y=A_(0) cos^(2)(2pi f_(0)t-2pix//lambda_(0) represent a wave? If yes, the determine its amplitude frequency, and wavelength.

The equation of a standing wave in a string fixed at both its ends is given as y=2A sin kx cos omegat . The amplitude and frequency of a particle vibrating at the point of string midway between a node and an antinode is