![The frequency of vibration of string is given by v=p/(2l)[F/m]^(1//2). Here p is number of segments in the string and l is the length. The dimensional formula for m will be The frequency of vibration of string is given by v=p/(2l)[F/m]^(1//2). Here p is number of segments in the string and l is the length. The dimensional formula for m will be](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/13025295_web.png)
The frequency of vibration of string is given by v=p/(2l)[F/m]^(1//2). Here p is number of segments in the string and l is the length. The dimensional formula for m will be
![The frequency (n) of vibration of a string is given as n = 12l√(Tm) , where T is tension and l is the length of vibrating string, then the dimensional formula is The frequency (n) of vibration of a string is given as n = 12l√(Tm) , where T is tension and l is the length of vibrating string, then the dimensional formula is](https://dwes9vv9u0550.cloudfront.net/images/387564/38f85547-b326-4e33-ae2b-d7128802752f.jpg)
The frequency (n) of vibration of a string is given as n = 12l√(Tm) , where T is tension and l is the length of vibrating string, then the dimensional formula is
![Do changes in frequency or vibrating string length affect the string tension? | Thomastik-Infeld Vienna Do changes in frequency or vibrating string length affect the string tension? | Thomastik-Infeld Vienna](https://www.thomastik-infeld.com/database/2019111010505931751.png)
Do changes in frequency or vibrating string length affect the string tension? | Thomastik-Infeld Vienna
![Stringtelligence by Thomastik-Infeld: vibrating string length and string tension | Focus | The Strad Stringtelligence by Thomastik-Infeld: vibrating string length and string tension | Focus | The Strad](https://dnan0fzjxntrj.cloudfront.net/Pictures/1024x536/3/6/6/14366_stringvibratinglength_629076.jpg)
Stringtelligence by Thomastik-Infeld: vibrating string length and string tension | Focus | The Strad
50. The frequency of the vibration of a string depends on the length L between the nodes, the tension F in the string and its mass per unit length m. Find the
![The equation for the vibration of a string, fixed at both ends vibrating in its third harmonic, ... - YouTube The equation for the vibration of a string, fixed at both ends vibrating in its third harmonic, ... - YouTube](https://i.ytimg.com/vi/yVxhbDGsobU/maxresdefault.jpg)
The equation for the vibration of a string, fixed at both ends vibrating in its third harmonic, ... - YouTube
![SOLVED: The frequency of vibrations of a vibrating string (in Hertz) is given by f = ZN5, where L is the length ofthe string (in meters), T is the tension in the SOLVED: The frequency of vibrations of a vibrating string (in Hertz) is given by f = ZN5, where L is the length ofthe string (in meters), T is the tension in the](https://cdn.numerade.com/ask_images/a0209fdee07b425ca47372c3c66f5a6d.jpg)