the amplitude of a wave disturbance propagating in postive x-axis is given by `y= 1/(1+ x^(2)) at t=0 and y=1/(1+(x-1)^(2))` at t=2s , where x and y are in metres.

The amplitude of a wave disturbance propagating along positive X-axis is given by y=1/(1+x^(2)) at t=0 and y=1/[1+(x-2)^(2)] at t=4 s where x and y are in metre. The shape of wave disturbance does not change with time. The velocity of the wave is

The amplitude of a wave disturbance propagating along positive X-axis is given by =1/(1+x^(2)) at t=0 and y=1/[1+(x-2)^(2)] at t=4 s where x and y are in metre. The shape of wave diturbance does not change with time. The velocity of the wave is

The amplitude of a wave disturbance propagating along positive X-axis is given by =1/(1+x^(2)) at t=0 and y=1/[1+(x-2)^(2)] at t=4 s where x and y are in metre. The shape of wave diturbance does not change with time. The velocity of the wave is

The amplitude of wave disturbance propagating in the positive x-direction is given by y=(1)/((1+x)^(2)) at time t=0 and y=(1)/(1+(x-2)^(2)) at t=1s, where x and y are in metres. The shape of wave does not change during the propagation. The velocity of the wave will be ____m/s.

The displacement of a wave disturbance propagating in the positive x-direction is given by y =(1)/(1 + x^(2)) at t = 0 and y =(1)/(1 +(x - 1)^(2)) at t =2s where, x and y are in meter. The shape of the wave disturbance does not change during the propagation. what is the velocity of the wave?

The displacement of a wave disturbance propagating in the positive x-direction is given by y =(1)/(1 + x^(2)) at t = 0 and y =(1)/(1 +(x - 1)^(2)) at t =2s where, x and y are in meter. The shape of the wave disturbance does not change during the propagation. what is the velocity of the wave?

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