Sound wave is travellimg along positive x -direction . Displacement (y) of particles from their mean position at position x is a shown in figure . Choose the correct alternative(s).

A long itudinal sine wave is travelling in air along positive x-direction. Displacement(s) of particles from their mean positions at a particular time t are shown in the figure. Choose the correct options for that instant only

Sound waves are trqvelling along positive x - direction. Displacement of particle at any time t is as shows in figure. Select the wrong statement.

The positions of maximum displacement of a particle from the mean position of a transverse wave is called ______

In the previous problem, the displacement of the particle from the mean position corresponding to the instant mentioned is

A particle moves along x-axis such that its position veries with time as x=50t-5t^2 . Select the correct alternative (s).

Consider the snapshot of a wave traveling in positive x–direction

A sinusoidal wave having wavelength of 6 m propagates along positive x direction on a string. The displacement (y) of a particle at x = 2 m varies with time (t) as shown in the graph (a) Write the equation of the wave (b) Draw y versus x graph for the wave at t = 0

(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.

Displacement time graph of particle performing SHM is as shown in figure. Assume that mean position is at x=0