A progressive wave has a shape (or waveform) given by the equation, `y = (2)/((x^2 - 6x + 14)^(3//2))`, at the instant time t = 1. Express the wave equation in terms of time t,

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

A transverse wave travelling on a stretched string is is represented by the equation y =(2)/((2x - 6.2t)^(2)) + 20 . Then ,

Verify that wave function (y=(2)/(x-3t)^(2)+1) is a solution to the linear wave equation, x and y are in centimetres.

The transverse wave represented by the equation y = 4 "sin"((pi)/(6)) "sin"(3x - 15 t) has

A simple harmonic progressive wave is representive by the equation y=8 sin 2pi (0.1x -2t) where x and y are in centimetres and t is in seconds. At any instant the phase difference between two particle separted by 2.0 cm along the x-direction is

A simple harmonic progressive wave is represented by the equation- y = 8sin2 pi (0.1x — 2t) , where x and y are in cm and t is in second. At any instant the phase difference between two particles separated, by 2.0 cm in the x direction is

A wave is represented by the equation y= A sin ( 10 pi x + 15 pi t + (pi)/(6)) wher x is in metre and t in second. The expression represents

The height y and horizontal distance x covered by a projectile in a time t seconds are given by the equations y = 8t -5t^(2) and x = 6t. If x and y are measured in metres, the velocity of projection is

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 :-

When two progressive waves y_(1) = 4 sin (2x - 6t) and y_(2) = 3 sin (2x - 6t - (pi)/(2)) are superimposed, the amplitude of the resultant wave is