Stationary waves of frequency 300 Hz are formed in a medium in which the velocity of sound is 1200 metre / sec . The distance between a node and the neighbouring antinode is

For a stationary wave y = 4 sin (pix//15) cos(96 pi t) . This distance between a node and the next antinode is:

A wave of frequency 512 Hz has a velocity of 320 m s^(-1) . The distance between the particles differing in phase by 90 degree is

Waves of frequency 1000 Hz are produced in a Kundt's tube . The total distance between 6 successive nodes is 82.5 cm . The speed of sound in the gas filled in the tube is

Calculate the velocity of sound if the frequency of the wave is 4 Hz and the wavelength of the wave is 80 meters.

A wave of frequency 400 Hz has a phase velocity of 300 m/s The phase difference between two displacement at a certain point at time t= 10^(-3) s is

A simple harmonic progressive wave of frequency 5 Hz is travelling along the positive X- direction with a velocity of 40 m/s . Calculate the phase difference between two points separated by a distance of 0.8 m .

Two tuning forks having frequencies 320Hz and 340Hz are sounded together to produce sound waves. The velocity of sound in air is 326.4 m s^-1 . Find the difference in wavelength of these waves.

A wave of frequency 500Hz is travelling with a speed of 350 m/s . What will be the smallest distance between two points which are 45^@ out of phase at an instant of time ?

Explain formation of stationary wave on astretched string. Show that the distance between node and adjacent antinode is lambda//4 .

An object producing a pitch of 600 Hz approaches a stationary person in a straight line with a velocity of 200 m//s . Velocity of sound is 300 m//s . The person will note a change in frequency, as the object flies past him, equal to