Velocity of sound in air 300m/s. If the distance between the two successive nodes of a stationary wave of frequency 1000 Hz will be

The distance between any two successive nodes or antinodes in stationary waves is

The distance between two successive nodes in a stationary wave is 30 cm. Calculate the frequency of wave if its speed is 250 m/s.

Two sound waves each of frequency 500Hz are travelling along the same line in opposite direction . If the speed of sound in air is 350 m/s. find the distance between the consecutive antinodes of the resulting stationary wave.

Two progressive sound waves each of frequency 170Hz and travelling in opposite directions in air superpose to produce stationary waves. The speed of sound in air is 340 m // s. What is the (i) separation between two successive nodes? (ii) separation between two successive antinodes? (iii) separation between a node and nearest antinode?

At nodes, the velocity of stationary wave is

The velocity of sound in air is 333 m//s . The length of an open pipe, in order to produce second overtone of frequency 999 Hz in it, will be

The velocity of sound in air is 333 m/s. the length of the an open pipe, in order to produce second overtone of frequency 999Hz in it, will be

If a sound wave of frequency 500 Hz and velocity 350 m/s. Then the distance between the two particles of a phase difference of 60^(@) will be nearly

The distance between any two successive antinodes or nodes of a stationary wave is 0.75 m . If the velocity of the wave is 300 m s^(-1) , find the frequency of the wave .