On producing the waves of frequency 100 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

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

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

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

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

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

Two tuning fork of frequency 100 Hz and 105 Hz are sounded together. The time interval between the successive waxing of sound will be

two waves of frequency 250 Hz and 255 Hz are produced simultaneously. the time travel between successive Maxima 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.