A simple harmonic progressive wave is representive by the equation `y=8 sin 2pi (0.1x -2t)` where x and y are in centimetres and t is in seconds. At any instant the phase difference between two particle separted by 2.0 cm along the x-direction is

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

A wave is represented by the equation : y=a sin (0.01x-2t) where a and x are in cm . velocity of propagation of wave is

A transverse progressive wave is given by the equation y = 2 cos pi (0.5 x - 200t) , where x and y are in cm and 't' in second. The true following statement is

The equation of a progressive wave is give by y=0.20 sin 2pi(60t-x//5) where x and y are in metres and t is in seconds. Find the phase difference (a) between two particles separted by a distance of Deltax=125 cm, and (b) between the two instants (1//120 s and 1//40 s , for any particle.

The equation of a wave is y=4 sin[(pi)/(2)(2t+(1)/(8)x)] where y and x are in centimeres and t is in seconds.

The equation of a transverse wave is given by y=10 sin pi (0.01 x -2t ) where x and y are in cm and t is in second. Its frequency is

The equation of a simple harmonic wave is given by y = 6 sin 2pi ( 2t – 0.1x) ,where x and y are in mm and t is in second. The phase difference between two particles 2 mm apart at any instant is

The equation of a simple harmonic progressive wave is given by y = 5 cos pi [200t - (x)/(150)] where x and y are in cm and 't' is in seocnd. The the velocity of the wave is

Equation of the progressive wave is given by : y=a sin pi (40 t-x) where a and x are in metre and t in second. The velocity of the wave is