Find out the expression of wave equation which is moving is
`+ve "x direction and at " x=0,t=0 y=A/sqrt(2)`

The equation of a progressive wave moving in +ve X-direction is given by -

At t=0, a transverse wave pulse in a wire is described by the function y=6//(x^(2)-3) where x and y are in metres. The function y(x,t) that describes this wave equation if it is travelling in the positive x direction with a speed of 4.5 m//s is

A plane wave zeta= A cos (omega t-kx) propagates in the reference frame S. find the equation of this wave in a refreence frame S' moving in the +ve direction of x-axis with a constant velocity V relative to S.

Find the equation of the circle which is touched by y=x, has its center on the positive direction of the x= axis and cuts off a chord of length 2 units along the line sqrt(3)y-x=0

Write the equation of a wave identical to the wave represented by the equation y=5sinpi(4.0t-0.02x) , but moving in opposite direction. Write the equation of stationary wave produced by the combination of these two waves. Determine the distance between two nearest nodes. All distances in the equations are in mm.

A wave represented by the given equation Y = A sin (10 pi x + 15 pi t + (pi)/(3)) , where x is in meter and t is in second. The expression represents (1) A wave travelling in the negative X direction with a velocity of 1.5 m/sec (2) A wave travelling in the negative X direction with a wavelength of 0.2 m (3) A wave travelling in the positive X direction with a velocity of 1.5 m/sec. (4) A wave travelling in the positive X direction with a wavelength of 0.2 m

The wave decribed by y=0.25sin(10pix-2pit) . Where x and y are in metre and t is second, is a wave travelling along the Therefore, the wave is travelling along +ve x direction with frequency 1 Hz and wavelength 0.2m

(a) writ the expression for y as a function of x and t for a sinusoidal wave travelling along a rope in the neagative x direction with the folllowing characteristics: A =8.00 cm , delta=80.0 cm,f=3.00 Hz , and y(0,t)=0 at t=0 , (b) write an expression for y as a function of x and t for the wave in part (a) assuming that y(x,0)=0 at the point x=10.0 cm.

A harmonic wave is travelling in a stationary medium whose equation of this wave w.r.t. a frame which is moving along -ve x-axis with a constant speed v w.r.t. stationary medium. Also, find speed of wave in moving frame.

The shape of a wave propagating in the positive x or negative x-direction is given y=1/sqrt(1+x^(2)) at t=0 and y=1/sqrt(2-2x+x^(2)) at t=1s where x and y are in meters the shape the wave disturbance does not change during propagation find the velocity of the wave