String instrument Totally Explained

Everything about String Instrument totally explained

A string instrument (or stringed instrument) is a musical instrument that produces sound by means of vibrating strings. In the Hornbostel-Sachs scheme of musical instrument classification, used in organology, they're called chordophones. The most common string instruments in the string family are violin, cello, viola double bass, guitar, and harp.

Types of string instruments

ť For a full list, see List of string instruments.

All string instruments produce sound from one or more vibrating strings, transferred to the air by the body of the instrument (or by a pickup in the case of electronically-amplified instruments). They are usually categorized by the technique used to make the strings vibrate. The three most common techniques are plucking, bowing and striking.

Plucking

Plucking (Italian: Pizzicato) is used as the sole method of playing, on instruments such as the guitar, oud, sitar, banjo and harp, either by a finger or thumb, or by some type of plectrum. This category includes the keyboard instrument the harpsichord, which formerly used feather quills (now plastic plectra) to pluck the strings.

Bowing

Bowing (Italian: Arco) is a method used in some string instruments, including the violin, viola, cello, and less commonly, the double bass (of the violin family) and the old viol family. The bow consists of a stick with many hairs stretched between its ends. Bowing the instrument's string causes a stick-slip phenomenon to occur, which makes the string vibrate.
Other bowed instruments are the hardingfele, nyckelharpa, kokyū, rebec, erhu, igil, kamanche, and sarangi. The hurdy gurdy is bowed by a wheel.

Striking

The third common method of sound production in stringed instruments is to strike the string with a hammer. By far the most well-known instrument to use this method is the piano (sometimes considered a percussion instrument), where the hammers are controlled by a mechanical action; another example is the hammered dulcimer, where the player holds the hammers.
A variant of the hammering method is found in the clavichord: a brass tangent touches the string and presses it to a hard surface, inducing vibration. This method of sound production yields a soft sound. The maneuver can also be executed with a finger on plucked and bowed instruments; guitarists refer to this technique as a hammer-on. After the invention of electric pickups guitars could be played solely by hammer-ons. Since both hands then can be used it's often called "two-handed tapping". Guitar-/bass-like instruments are beeing manufactured mainly for this purpose, like the Bunker Touch Guitar, the Chapman Stick, the Warr Guitar and the Megatar.
Violin-family string instrument players are also occasionally instructed to strike the string with the side of the bow, a technique called col legno. This yields a percussive sound along with the pitch of the note. A well-known use of col legno for orchestral strings is the Gustav Holst's "Mars" movement from The Planets suite.

Other methods

The aeolian harp employs a very unusual method of sound production: the strings are excited by the movement of the air.
   Some string instruments have keyboards attached which are manipulated by the player, meaning they don't have to pay attention to the strings directly. The most familiar example is the piano, where the keys control the felt hammers by means of a complex mechanical action. Other string instruments with a keyboard include the clavichord (where the strings are struck by tangents), and the harpsichord (where the strings are plucked by tiny plectra).
   With these keyboard instruments too, the strings are occasionally plucked or bowed by hand. Composers such as Henry Cowell wrote music which asks for the player to reach inside the piano and pluck the strings directly, or to "bow" them with bow hair wrapped around the strings, or play them by rolling the bell of a brass instrument such as a trombone on the array of strings.
   Other keyed string instruments, small enough to be held by a strolling player, include the plucked autoharp, the bowed nyckelharpa, and the hurdy gurdy, which is played by cranking a rosined wheel.
   Steel-stringed instruments can be played using a magnetic field. An E-Bow is small hand-held battery-powered device which can be used to excite the strings of an electric guitar. It provides a sustained, singing tone on the string which is magnetically-vibrated.

String length or scale length

This is the length of the string from nut to bridge on bowed or plucked instruments and ultimately determines the distance between different notes on the instrument. For example, a double bass with its low range needs a scale length of around 42 inches, whilst a violin scale is only about 13 inches. On the shorter scale of the violin, the left hand may easily reach a range of slightly more than two octaves without shifting position, while on the bass' longer scale, a single octave or a ninth is reachable in lower positions.

Contact points along the string

In bowed instruments, the bow is normally placed perpendicularly to the string, at a point half way between the end of the fingerboard and the bridge. However, different bow placements can be selected to change timbre. Application of the bow close to the bridge (known as sul ponticello) produces an intense, sometimes harsh sound, which acoustically emphasizes the upper harmonics. Bowing above the fingerboard (sul tasto) produces a purer tone with less overtone strength, emphasizing the fundamental, also known as flautando, since it sounds less reedy and more flute-like.
   Similar timbral distinctions are also possible with plucked string instruments by selecting an appropriate plucking point, although the difference is perhaps more subtle.
   In keyboard instruments, the contact point along the string (whether this be hammer, tangent, or plectrum) is a choice made by the instrument designer. Builders use a combination of experience and acoustic theory to establish the right set of contact points.
   In harpsichords, often there are two sets of strings of equal length. These "choirs" usually differ in their plucking points. One choir has a "normal" plucking point, producing a canonical harpsichord sound; the other has a plucking point close to the bridge, producing a reedier "nasal" sound rich in upper harmonics.

Production of multiple notes

A string at a certain tension and length will only produce one note (monophony), so to obtain multiple notes (polyphony), string instruments employ one of two methods. One is to add enough strings to cover the range of notes desired; the other is to allow the strings to be stopped. The piano is an example of the former method, where each note on the instrument has its own set of strings. On instruments with stoppable strings, such as the violin or guitar, the player can shorten the vibrating length of the string, using their fingers directly (or more rarely through some mechanical device, as in the hurdy gurdy). Such instruments usually have a fingerboard attached to the neck of the instrument, providing a hard flat surface against which the player can stop the strings. On some string instruments, the fingerboard has frets, raised ridges perpendicular to the strings that stop the string at precise intervals, in which case the fingerboard is called a fretboard.
Modern frets are typically specially shaped metal wire set into slots in the fretboard. Early frets were cords tied around the neck, still seen on some instruments as wraps of nylon monofilament. Such frets are tied tightly enough that moving them during performance is impractical. The bridges of a koto, on the other hand, may be moved by the player, occasionally in the course of a single piece of music.
The middle Eastern string instrument the qanun, though it has many strings to give a selection of notes, is equipped with small levers called mandal that allow each course of multiple strings to be incrementally retuned "on the fly" while the instrument is being played. These levers raise or lower the pitch of the string course by a microtone, less than a half step. Similar mechanisms which change pitch by standard intervals (half-steps) are used on many modern Western harps, either directly moved by fingers (on Celtic harps) or controlled by foot pedals (on orchestral harps).

Sound production

Acoustic instruments

It is sometimes said that the sounding board or soundbox "amplifies" the sound of the strings. Technically speaking, no amplification occurs, because all of the energy to produce sound comes from the vibrating string. What really happens is that the sounding board of the instrument provides a larger surface area to create sound waves than that of the string. A larger vibrating surface moves more air, hence produces a louder sound.
   Achieving a tonal characteristic that's effective and pleasing to the player's and listener's ear is something of an art, and the makers of string instruments often seek very high quality woods to this end, particularly spruce (chosen for its lightness, strength and flexibility) and maple (a very hard wood). Spruce is used for the sounding boards of instruments from the violin to the piano.
   Acoustic instruments can also be made out of artificial materials, such as carbon fiber and fiberglass (particularly the larger instruments, such as cellos and basses).
   In the early 20th century, the Stroh violin used a diaphragm-type resonator and a metal horn to project the string sound, much like early mechanical gramophones. Its use declined beginning about 1920, as electronic amplification came into use.

Electronic amplification

Most string instruments can be fitted with piezoelectric or magnetic pickups to convert the string's vibrations into an electrical signal which is amplified and then converted back into sound by loudspeakers. Some players attach a pickup to their traditional string instrument to "electrify" it. Another option is to use a solid-bodied instrument, which reduces unwanted feedback howls or squeals. Recently, companies such as Yamaha have produced electric instruments which have a distinctive look.
Amplified string instruments can be much louder than their acoustic counterparts, which allows them to be used in relatively loud rock, blues, and jazz ensembles. Amplified instruments can also have their amplified tone modified by using electronic effects such as distortion, reverb, or wah-wah.
Bass-register string instruments such as the double bass and the electric bass are amplified with bass instrument amplifiers that are designed to reproduce low-frequency sounds. To modify the tone of amplified bass instruments, a range of electronic bass effects are available, such as distortion and chorus.

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