A wave pulse is travelling on a string at 2 m/s. displacement y of the particle at x = 0 at any time t is given by
`y=2/(t^2+1)`
Find
(ii) Shape of the pulse at t = 0 and t = 1s.

A wave pulse is travelling on a string at 2 m/s. displacement y of the particle at x = 0 at any time t is given by y=2/(t^2+1) Find (i) Expression of the function y = (x, t) i.e., displacement of a particle position x and time t.

A wave pulse is travelling on a string at 2m//s along positive x-directrion. Displacement y of the particle at x = 0 at any time t is given by y = (2)/(t^(2) + 1) Find Shape of the pulse at t = 0 and t = 1s.

A wave pulse is travelling along +x direction on a string at 2 m//s . Displacement y (in cm ) of the parrticle at x=0 at any time t is given by 2//(t^(2)+1) . Find (i) expression of the function y=(x,t),i.e., displacement of a particle at position x and time t. Draw the shape of the pulse at t=0 and t=1 s.

A wave pulse is travelling along +x direction on a string at 2 m//s . Displacement y (in cm ) of the parrticle at x=0 at any time t is given by 2//(t^(2)+1) . Find (i) expression of the function y=(x,t),i.e., displacement of a particle at position x and time t. Draw the shape of the pulse at t=0 and t=1 s.

(i) A sinusoidal wave is travelling along positive x direction and the displacements at two positions x = 0 and x = 1 m are given by y (0, t) = 0.2 cos (3 pi t) and y(1, t)=0.2 cos (3pit+pi/8) Find all possible wavelength of the wave if it is known that wavelength is greater than 0.4 m. (ii) A transverse sine wave of amplitude a = 0.1 cm is travelling along a string laid along the x-axis. The displacement (y) – time (t) graph of the string particle at x = 0.1 m is shown in first figure. The shape of the string at time t = 0.1 s is shown in second figure. At this time the particle at x = 0.11 m is having velocity in positive y direction write the equation of wave.

If wave y = A cos (omegat + kx) is moving along x-axis The shape of pulse at t = 0 and t = 2 s

A hypothetical pulse is travelling along positive x direction on a taut string. The speed of the pulse is 10 cm s^(–1) . The shape of the pulse at t = 0 is given as {:(y=x/6+1,"for",-6 lt x le 0),(=-x+1,"for",0 le x lt1),(=0,"for all other values of x",):} x and y are in cm. (a) Find the vertical displacement of the particle at x = 1 cm at t = 0.2 s (b) Find the transverse velocity of the particle at x = 1 cm at t = 0.2 s.

A pulse travelling at a speed of 2m/s along the positive Z-axis is given by y = (3)/( z^(2)+1) at t= 0 .The wave function representing the pulse at any times is given by

A pulse travelling at a speed of 2m/s along the positive Z-axis is given by y = (3)/( z^(2)+1) at t= 0 .The wave function representing the pulse at any times is given by

A wave pulse is travelling positive x direction with a speed of 4.5 m/s. At time t= 0, the wave pulse is given as y= 6/(x^2-3) . Here x and y are in metre. Then which function represents the equation of pulse just after 2 second?