A sinusoidal wave moving along a string is shown twice in the figure. As crest A travels in the positive direction of an x axis by distance `d=6.0` cm in `4.0ms`. The tick marks along the axis are separated by `10cm`, height `H=6.00mm`. The wave equation is

The equation of a wave travelling along the positive x-axis, as shown in figure at t = 0 is given by

the equation of a wave travelling along the positive x - axis ,as shown in figure at t = 0 is given by

For a particle moving along x-axis, a scaled x-6 graph is shown in figure. Mark the correct statement (s).

y-x curve at an instant for a wave travelling along x- axis on a string is shown. Slope at the point A on the curve, as shown, is tan 53^(@) .

y-x curve at an instant for a wave travelling along x- axis on a string is shown. Slope at the point A on the curve, as shown, is tan 53^(@) .

Snapshot of a string carrying a progressive wave is shown in figure at time t = 0. The wave moves along positive x - axis:

A wave in a string has an amplitude of 2 cm . The wave travels in the +ve direction of x axis with a speed of 1 28 ms^-1 and it is noted that 5 complete waves fit in 4 m length of the string. The equation describing the wave is

Two pulses travelling in opposite directions along a string are shown for t=0 in the figure. Plot the shape of the string at t= 1.0, 2.0, 3.0, 4.0 and 5.0s respectively .

in a sine wave ,postive of different particles at time t=0 is shown in figure. The equation for this wave if it is travelling along postive x -axis can beB

A sinusoidal wave travels along a taut string of linear mass density 0.1g//cm . The particles oscillate along y- direction and wave moves in the positive x- direction . The amplitude and frequency of oscillation are 2mm and 50Hz respectively. The minimum distance between two particles oscillating in the same phase is 4m . The tension in the string is ( in newton )