A Kundt's tube apparatus has a copper rod of length 1.0 m clamped at 25 cm from one of the ends. The tube contains air in which the speed of sound is `340 ms^-1` The powder collects in. heaps separated by a distance of 5.0 cm. Find the speed of sound waves in copper.

A Kundt's tube apparatus has a steel rod of length 1.0 m 66. clamped at the centre. It is vibrated in its fundamental mode at a frequency of 2600 Hz. The lycopodium powder dispersed in the tube collects into heaps separated by 6.5 cm. Calculate the speed of sound in steel and in air.

A Kundt's tube apparatus has a steel rod of length 1.0 m 66. clamped at the centre. It is vibrated in its fundamental mode at a frequency of 2600 Hz. The lycopodium powder dispersed in the tube collects into heaps separated by 6.5 cm. Calculate the speed of sound in steel and in air.

A Kundt's tube apparatus has a steel rod of length 1.0 m 66. clamped at the centre. It is vibrated in its fundamental mode at a frequency of 2600 Hz. The lycopodium powder dispersed in the tube collects into heaps separated by 6.5 cm. Calculate the speed of sound in steel and in air.

A steel rod of length 100 cm is clamped at the middle. The frequency of the fundamental mode for the longitudinal vibrations of the rod is (Speed of sound in steel = 5 km s^(-1) )

An organ pipe of length 0.4 m is open at both ends . The speed of sound in air is 340 ms^-1 . The fundamental frequency is

An organ pipe of length 0.4m is open at both ends . The speed of sound in air is 340ms^(-1) . The fundamental frequency is

Speed of sound is air is 340 m/s. The length of air column is 34 cm. The frequency of 5^(th) overtone of pipe closed at one end is

Speed of sound is air is 340 m/s. The length of air column is 34 cm. The frequency of 5^(th) overtone of pipe closed at one end is