Consider a sinusoidal travelling wave shown in figure. The wave velocity is `+ 40 cm//s`.
Find
(a) the frequency
(b) the phase difference between points `2.5 cm` apart
(c) the velocity of a particle at `P` at the instant shown.

Small amplitude progressive wave in a stretched string has a speed of 100 cm//s .and frequency 100 Hz. The phase difference between two points 2.75 cm apart on the string in radians, is

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The potential difference (V_A - V_B) between points A and B in a part of an electrical circuit shown in the figure at the instant shown is

Two points on a travelling wave having frequency 500 Hz and velocity 300 ms^(-1) are 60^(@) out of phase, then the minimum distance between the two point is

In the figure shown, find (a) the time when the particle strikes the ground at P. (b) the horizontal distance QP (c) velocity of the particle at P.

The graph below shows that instantaneous displacements due to progressive iongitudinal wave travelling with a velocity 50ms^(-1) along the direction ABCD. [Fig 14.4.8 (b)]. (a) What is the frequency of the wave ? (b) What is the phase difference between the vibrations at C and D? (c ) At which of the points A,B,C,D is the instantaneous particle velocity maximum forward? (d) At which of the points, A,B,C,D is there a rarefraction?

A wave pulse on a string on a string has the dimension shown in figure. The wave speed is v=1 cm /s . If point O is a free end. The shape of wave at time t = 3s si

The phase difference between two points separated by 0.8 m in a wave of frequency 120 Hz is 0.5pi . The wave velocity is

S_(1) : The particles speed can never be equal to the wave speed in sine wave if the amplitude is less then wavelength divided by 2pi . S_(2) : In transverse wave of amplitude A, the maximum particle velocity is four times its wave velocity. Then, the wave length of the wave is piA S_(3) : the phase difference between two points separated by 1m in a wave of frequency 120 Hz is 90^(@) . the velocity of the wave is 480 m/s

A sound wave of frequency 80 Hz is travelling with speed 320 m//s . (a) Find the change in phase at a given position in 400 ms (b) Find the phase difference between two positions seperated by 20 cm at a particular instant.