String bending

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Guitar playing technique

title: "String bending" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["guitar-performance-techniques"] description: "Guitar playing technique" topic_path: "general/guitar-performance-techniques" source: "https://en.wikipedia.org/wiki/String_bending" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Guitar playing technique ::

String bending is a guitar technique where fretted strings are displaced by application of a force by the fretting fingers in a direction perpendicular to their vibrating length. This has the net effect of increasing the pitch of a note (or notes as the case may be). String-bending allows exploration of microtonality and can be used to give a distinctive vocal articulation to lead guitar passages.

Technique

String bending is executed by fretting a note on the guitar fretboard, and then applying a force perpendicular to the length of the fretboard with the fretting hand, displacing the string from its resting vibrating position. This yields a continuous increase in pitch, which can be manipulated by a skillful player to give a singing-like quality to a musical passage. The displacement of the string can be pushed "up" or pulled "down". Bending is an important component in the style of several renowned players, such as Eric Clapton, who uses copious amounts of string bending to articulate blues licks, and Buck Trent, who electrified a solid body electric banjo and implemented tuner keys and D and B benders in country music. String-bending blues-scale guitar solos were used in 1950s electric blues music where it was most notably popularized by B.B. King, and later rock musicians adopted the string-bending technique in the 1960s. With the advancement of steel guitars and other stringed instruments, and string bending mechanisms and playing styles, string bending is now a common technique among string players.

Factors influencing string bending

There are numerous mechanical and acoustic properties which heavily influence the resultant pitch from a string bend. Analysis of the physics of string bending suggests that the resultant pitch of a string bent at its midpoint is given by

\nu = \frac{1}{2L} \sqrt{\frac{EA + \cos\theta (T - EA)}{\mu_{o}}}

where L is the length of the vibrating element, T is the tension of the string prior to bending, \theta is the bend angle, E is the Young's Modulus of the string material, A is the string cross sectional area and \mu_{o} is the linear density of the string material.

Thus, the pitch is not only dependent on the bend angle, but on material properties of the string such as Young's modulus; this may be interpreted as a measure of the stiffness of the string. The force required to bend a string at its midpoint to a given angle \theta is given by

F_{B} = 2\left(T + EA\left(\frac{1 - \cos\theta}{\cos\theta} \right) \right)\sin\theta .

It is important to note that the resultant pitch from string bending is not linearly correlated with the bending angle, and so a player's experience and intuition is important for accurate pitch modulation.

References

"Guitar/Bending and Vibrato - Wikibooks, open books for an open world".
(2007). "Rock and Roll: An Introduction".
(2014). "String Theory - the Physics of String-Bending and Other Electric Guitar Techniques". PLOS ONE.

::callout[type=info title="Wikipedia Source"] This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page. ::