The time lag between two particles vibrating in a progressive wave seperated by a distance 20m is 0.02s. The wave velocity If the frequency of the wave is 500Hz, is

The equation of a progressive wave can be given by Y = 15 sin ( 660pit- 0.02pix ) cm. The frequency of the wave is

The relation between the particles velocity and wave velocity is -

The angle between wave velocity and particle velocity in a travelling wave be

The separation between two consecutive crests in a transverse wave is 100 m. If wave velocity is 20 m s^(-1) , find the frequency of wave.

The separation between two consecutive crests in a transverse wave is 100 m. If wave velocity is 20 m s^(-1) , find the frequency of wave.

Give two difference between progressive wave and stationary wave.

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

A wave travelling along the length of a string is shown in Fig. 14.4.12. Using the scale on the given axis, find (i) The amplitude of the wave (ii) The wavelength of the wave (iii) If the frequency of the wave is 10 Hz, What is the speed of the wave? (iv) What is the initial phase of the wave ? (v) What is the phase difference between two points separated by a distance 10 cm ? (vi) If this wave is made to travel through water what is the wavelength of the wave, if the speed of, the waves in water is 10 m/s.

The angular frequency of a particle in a progressive wave in an elastic medium is 50pi rad/s and it is moving with velocity of 150 m/s. The phase difference between two particles separated by a distance 30m at the same instant will be

Frequency of a wave is 6 xx 10^(15) Hz. The wave is