A uniform string of length `L` and mass `M` is fixed at both end while it is subject to a tension `T`. It can vibrate at frequencies `v` given bby the formula (where, `n=1,2,3,………..)`

A uniform string of length L and mass M is fixed at both ends while it is subject to a tension T . It can vibrated of frequencies (v) given by the formula (where n = 1 , 2, 3.....)

A string of length 1m and mass 5g is fixed at both ends. The tension in the string is 12.5 N. The string is set into vibration using an external vibrator of frequency 100 Hz. The separation between successive nodes on the string (in m) is ______ .

A string of length 1 m and mass 5 g is fixed at both ends. The tension in the string is 8.0 N. The string is set into vibration using an external vibrator of frequency 100 Hz. The separation between successive nodes on the string is close to :

A string of length 1 m and mass 5 g is fixed at both ends. The tension in the string is 8.0 N. The string is set into vibration using an external vibrator of frequency 100 Hz. The separation between successive nodes on the string is close to :

A string of length 1m stretched at both ends vibrating with frequency 300Hz which is 3 times the fundamental frequency

A string of length 2 m is fixed at both ends. If this string vibrates in its fourth normal mode with a frequency of 500 Hz then the waves wouldf travel on it is with a velocity of

A string of length 2 m is fixed at both ends. If this string vibrates in its fourth normal mode with a frequency of 500 Hz then the waves wouldf travel on it is with a velocity of

A string of length 'L' is fixed at both ends . It is vibrating in its 3rd overtone with maximum amplitude 'a'. The amplitude at a distance L//3 from one end is