On producing the waves of frequency 1000 Hz in a kundt's tube the total distance between 6 successive nodes n 85 cm. Speed of sound in the gas filled in the tude 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

A sound wave in a certain fluid medium is reflected at an obstacle to form a standing wave. The distance between two successive nodes is 3.75 cm. If the velocity of sound is 500 m//s . find the frequency.

A sound wave in a certain fluid medium is reflected at an obstacle to form a standing wave. The distance between two successive nodes is 3.75 cm .If velocity of sound is 1500 m/s , find the frequency.

A 20 cm long string, having a mass of 1.0g , is fixed at both the ends. The tension in the string is 0.5 N . The string is into vibrations using an external vibrator of frequency 100 Hz . Find the separation (in cm) between the successive nodes on the string.

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 ?

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

A sound wave of frequency 1000Hz and travelling speed 340 m/s is reflected from the closed end of the tube. At what distance from that end will the successive node occur ?

Solve the following example: A source of sound has frequency 1000Hz. If the speed of sound in air under certain conditions is 340 m/s, find the distance covered by sound when the source completes 100 vibrations.