The first overtone of a stretched string of given length is 320 Hz. The first harmonic is

The first overtone of a closed pipe is given by –

The frequency of fundamental mode of vibration of a stretched string fixed at both the ends is 25 Hz. If the string is made to vibrate with 7 nodes , what is the frequency of vibration ? If the length of string is 3 m , what is the frequency of the 4th harmonic ?

The first overtone of a pipe closed at one end resonates with the third harmonic of a string fixed at its ends. The ratio of the speed of sound to the speed of transverse wave travelling on the string is 2 : 1. Find the ratio of the length of pipe to the length of string.

Two strings of the same material and the same area of cross-section are used in an wxperiment. One is loaded with 12 kg and the other with 3 kg The fundamental fequency of the first string is equal to the first overtone of the second string. If the length of the second string is 100 cm, then the length of the first string is

The frequency of the first harmonic of a string stretched between two points is 100 Hz . The frequency of the third overtone is

The first overtone of an open organ pipe(of length L_(0) ) beats with the first overtone of a closed organ pipe(of length L_(c) ) with a beat frequency of 10Hz.The fundamental frequency of the closed pipe is 110Hz .If the speed of sound is 330ms then fundamental frequency of open pipe is ?

Stationary waves are produced in a stretched string of length 120 c. if the string vibrats with 6 segment and if the frquency of vibration of the string is 20 Hz. Then the velocity of waves on the string is

The frequency of the first overtons of a closed pipe of length l_(1) is equal to that of the first overtone of an open pipe of length l_(2) The ratio of their lengths (l_(1) : l_(2) is