Along the direction of propagation of wave, distance between two particles, having same phaes is called wavelength of wave.

Along the direction of propagation of one wave of frequency 120 Hz, phase difference between two particles separated by 1 m distance is 90^(@) . Find velocity of this wave.

Two particle P and Q describe S.H.M. of same amplitude a same frequency f along the same straight line .The maximum distance between the two particles is asqrt(2) The phase difference between the two particle is

In above case, if instantaneous value of electric field at a given point on the direction of propagation of wave is 24hat(i)(N)/(C ) then find magnetic field at the same point at the same instant. What would be its frequency of oscillations ?

One end of a taut string of length 3m along the x-axis is fixed at x = 0 . The speed of the waves in the string is 100ms^(-1) . The other end of the string is vibrating in the y-direction so that stationary waves are set up in the string. The possible wavelength (s) of these sationary waves is (are)

In case of propagation of longidudinal waves, angle between directions of velocity of particle and velocity of wave is 0^(@) or 180^(@).

In case of propagation of transverse waves, angle between directions of velocity of particle and velocity of wave is pi rad.

In case of stationary wave, amplitudes of particles in any one loop are same.

Write two different vectors having same direction.