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Flute

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Flute
The flute (technically transverse flute) is a musical instrument of the woodwind family. A musician who plays the flute is sometimes called a flutist or flautist.

Introduction

A flute is an open-ended reedless tube with circular finger holes, which can be used to produce high and low sounds depending on which finger holes are opened or closed. The tone is produced by blowing horizontally and vertically across a tone hole which is located at one end of the instrument.


Flute sounds are typically open and hollow as a result of relatively weak upper partials. As a result, flute tones are sweet in character and blend well with other instruments. The flute's timbre, pitch and attack are flexible, allowing a very high degree of instantaneous expressive control.

In western classical music the standard concert flute is pitched in C and has a range of about 3 octaves starting from middle C. Also commonly used in orchestras is the piccolo, a small flute usually pitched an octave above the concert flute. Alto and bass flutes, pitched a fourth and an octave below the concert flute, are used occasionally. Parts for the alto flute are more common than for the bass. Many other sizes of flute and piccolo are used from time to time. A much-less common instrument of the current pitching system is the treble G flute. An older pitching system, used principally in older wind-band music, includes D-flat piccolos, E-flat soprano flutes (the primary instrument, equivalent to today's concert C flutes), F alto flutes, and B-flat bass flutes.

The modern professional concert flute is generally made of silver, gold, or combinations of the two. Student instruments are usually made of nickel silver, or silver-plated brass. Wooden flutes and headjoints are more widely available than in the past.

Some jazz and rock ensembles include flutes. Since Boehm's fingering is used in saxophones as well as in concert flutes, many flute players "double" on saxophone for jazz and small ensembles.

History

The dimensions and key system of the modern western concert flute and its close relatives are almost completely the work of the great flutist, composer, acoustician and silversmith, Theobald Boehm, who described his invention in his 1871 book, The Flute and Flute Playing. Minor additions to and variations on his key system are common but the acoustical structure of the tube remains almost exactly as he designed it. Boehm's key system, with minor variations, continues to be regarded as the most effective system of any modern woodwind, allowing trained players to perform with facility in all keys and with extraordinary velocity and brilliance.

Quite at the opposite end of the spectrum, in terms of the complexity of the key system developed by Boehm, was the Giorgi flute, an advanced form of the ancient holed flute. Patented in 1897, the Giorgi flute was designed without any mechanical keys, though the patent allows for the addition of keys as options. Giorgi enabled the performer to play equally true in all musical keys, as does the Boehm system. Giorgi flutes are now rarities, found in museums and private collections. The underlying principles of both flute patterns are virtually identical, with tone holes spaced as required to produce a fully chromatic scale. The player, by opening and closing holes, adjusts the effective length of the tube, and thus the rate of oscillation, which defines the audible pitch.

Types of flute

Flutes may be either transverse or end-blown, and their tubes may be either open or closed.

The familiar concert flute, piccolo, fife, and Indian bansuri are examples of transverse flutes, in which air is blown from the mouth across a small hole at the top of the instrument. In a transverse flute the embouchure (position of the lips and tongue) is the main determining factor in tone production (as well as having an effect on pitch).

Fipple flutes include the recorder, organ pipe, ocarina, and the tin whistle. In these, the stream of air is directed in one end through a narrow pathway, against a blade. The embouchure is less critical, though it is still important in mastery of the finer points of playing. Nose flutes exist in some cultures. On the other hand, the shakuhachi, the kaval and the queƱa are examples of end-blown flutes in which the mechanism for sound production is similar to transverse flutes.

Flutes may also be either open- or closed-ended. The ocarina, pan pipes, concert whistle, jug, police-whistle, and bosun's whistle are closed-ended. Open-ended flutes such as the concert flute and recorder have more harmonics, and thus more flexibility for the player, and brighter, more pleasing timbres. An organ pipe may be either, depending on the sound desired.

In Middle Eastern music, a flute-like instrument called the ney is often used. Depictions of early versions of the ney can be found in wall paintings in the pyramids of Egypt, indicating that it is one of the oldest musical instruments in continued use.

Production of sound

A flute produces sound when a stream of air directed across the top of a hole bounces in and out of the hole. Some engineers have called this a fluidic multivibrator, because it forms a mechanical analogy to an electronic circuit called a multivibrator.

The stream beats against the air in a resonator, usually a tube. The player changes the pitch of the flute by changing the effective length of the resonator. This is done either by closing holes, or more rarely, with a slide similar to a trombone's slide.

Because the air-stream is lower mass than most of the resonators used in instruments, it can beat faster, but with less momentum. As result, flutes tend to be softer, but higher-pitched than other sound generators of the same size.

To be louder, a flute must use a larger resonator, and a wider air-stream. A flute can generally be made louder by making its resonator and tone-hole wider. This is why police whistles, a form of flute, are very wide for their pitch, and why organs can be far louder than concert flutes: an organ pipe's tone-hole may be several inches wide, while a concert flute's is a fraction of an inch.

The air-stream must be flat, and precisely aimed at the correct angle and velocity, or it will not vibrate. In end-blown flutes, a precisely machined slot extrudes the air. In organs, the air is supplied by a regulated blower.

In a transverse flute, especially the concert flute and piccolo, the player must form and direct the stream with his lips. This makes the transverse flute's pitch and timbre more instantly expressive than any other instrument. However, it also makes the transverse flute immensely more difficult to play than the recorder.

Generally, the quality called "tone color" or "timbre" varies because the flute produces harmonics in different intensities. A harmonic is a frequency that's an even multiple of the lowest, or "fundamental" tone of the flute. When a flute sounds harsh, or whiny, it is being played to provide more harmonics. Generally the air-stream is thinner (to vibrate in more modes), faster (providing more energy to vibrate), and aimed across the hole more shallowly (permitting a more shallow deflection of the airstream to resonate).

Almost all flutes can be played in fundamental, octave, tierce, quatre and cinque modes simply by blowing harder and making the air-stream move more quickly and at a more shallow angle. Flute players select their instrument's resonant mode with embouchure and breath control, much as brass players do.

The timbre is also affected by the quality of the resonator. Generally, more rigid resonators (such as wood) have a "dead" sound, because they have a higher acoustic impedance, and do not resonate with the harmonics. Concert flutes are expected to produce a "brilliant" sound, with a wide range of harmonics. To help this, they are thin tubes made of hard-drawn silver or gold alloys. These are more mechanically elastic than wood, and therefore vibrate in more modes. Theoretically, flutes constructed in thin tubes of elastic but heavy metals, such as alloys of gold, tungsten, platinum or osmium sound "richer" because they vibrate to a lower, therefore more audible range of harmonics. This effect also explains the good tone of bronze and brass flutes, which are less massive, but more elastic.

Appearance and development

The precursors of the modern flute were keyless wooden transverse flutes, similar to modern fifes. Later these were modified to be well-tempered, and include between 1 and 8 keys to aid in producing chromatic notes. The most common pitch for such flutes was and remains D, but other pitches sometimes occur. These simple system flutes continue to be used in folk music (particularly Irish traditional music) and in "historically informed" performances of baroque (and earlier) music.

Playing a flute

A maladjusted flute is much more difficult to play, and beginning flute-players should invest in a professional adjustment if their instrument is not new. The most common problem as a flute ages is that its pads rot and leak. Also, rough handling can bend the pads and make them leak. The return springs can also weaken, causing slow or unsynchronized opening of the holes. Also, the pad-closure mechanisms can become misaligned or misadjusted. Occasionally the alignment pins can fall out.

Beginning players frequently find themselves unable to produce a sound. The most common reasons are that the hole produced by the player's mouth is not aligned with the tone-hole or/and the player is blowing lots of air past the hole instead of angling a smaller airstream into the hole. The standard beginning technique is to feel for the tone hole with one's tongue, and then roll the flute away to the correct angle. It is important to blow less air than most beginners want to, but angle it into the hole.

Beginning flute players also often have improper embouchures: The correct embouchure is a small elliptical or slot-like hole formed by the lips and directed at the edge of the tone-hole opposite the player. The aim should be more outward, with faster air for higher, or more brilliant sounds (more high-frequency overtones), and lower, more into the hole, with slower air for lower-notes. One reliable way to aim is to move one's chin in and out, but it is best to develop the flexibility to change the relationship between one's lips and tongue and the lip plate, as needed for changes in air direction.

Correct breath control requires a player to emit large amounts of air at times, especially in softer and higher passages, but also requires a player to emit very small streams of air directly into the hole for loud notes in the lower register, which often do not speak if forced. All things being equal, a breathy sound is preferable to a pinched sound, but an efficient approach to airstream direction is best.

Flutes often have some of the most rapidly changing parts in orchestral music. To become able to play these parts, one should practice complex scales in different modes and keys.

More advanced flute players can also do a vibrato. A vibrato is what happens when a player blows a little extra air through the flute. This causes breath accents and also creates a temporarily sharper sound. Vibrato is often used in flute solos and in slow songs. The most common way to learn vibrato is to practice breath attacks as half notes, the quarter notes, then eighth notes, then triplets, then sixteenth notes. Eventually, when the breath attacks are too fast to exist as separate notes, they become an instant though not yet subtle vibrato.

In outdoor playing, wind can "blow out" players' embouchures, causing the air stream to become misplaced. It is normal practice for the piccolo and flute players of a marching band to face away from the wind in heavy weather. The section-leader of the flutes in the marching band normally makes this decision.

Construction and materials

Concert flutes have three parts: the head, the body, and the foot. The head contains a tuning-cork (or plug) for precision tuning, adjusted by the head-end knob. Gross, temporary adjustments of pitch are made by moving the head in and out of the head-joint. The player makes fine or rapid adjustments of pitch and timbre by adjusting the embouchure.

Often, a different head can make the flute play like a different flute. Some flute makers sell both end blown heads and transverse heads that can be interchanged. The same flute body can be used as a whistle/recorder style instrument, or as a transverse flute.

The most common mechanical options of flutes are "offset G" keys, "split E" modification, and a "B foot." All of Boehme's original models had offset G keys, which are mechanically simpler, and permit a more relaxed hand position, especially for younger players. Offset G keys are more common on less-expensive flutes, but available on almost all makes at every level of expense. The in-line G was originally invented because it was easier to manufacture, and was used by the better commercial flutes. The split E modification makes the 3rd octave E easier to play for some players. The B foot extends the range of the flute down one semitone to B below middle C.

Trill keys permit rapid alternation between two notes. Fingerings using the trill keys also permit a skilled player to reach four octaves of range, though the commonly used range is three octaves.

Less-expensive flutes are constructed of nickel alloys, possibly silver-plated. More expensive flutes are made of silver alloys. Flutes have been constructed of gold, platinum, wood, glass and many other materials.

The tubes are usually drawn, Tone-holes may be either drawn or soldered. The rest of the mechanism is constructed by lost-wax castings and machining, with mounting posts silver-soldered to the tube. On the best flutes, the castings are forged to increase their strength.

The head end is the most difficult part to construct, because it is a long thin parabola or hyperbola (note that some editors believe there are only parabolas, others that it varies by maker and model, whereas another editor would like to point out that Boehm used parabola as a metaphor, and flute head joints use neither hyperbolae or parabolae). The lip-rest and tone-hole have critical dimensions, edges and angles, which vary slightly in different models. Fortunately, once made, these never need adjustment.

The tube connecting the embouchure hole of the lip-plate to the head has a critical length. The shorter the hole, the more quickly a flute can be played. The longer the hole, the more beautiful the tone.

The holes are stopped by pads constructed of fish skin (gold-beater's skin) over felt, or in some very low-cost or ruggedized flutes, silicone rubber. A recent development are "precision" pads fitted by a factory-trained technician. Over time, fish skin pads rot, and must be replaced. At least one author prefers silicone rubber pads, especially for students' flutes, because they do not rot or change dimension.

Pads were originally bedded in wax or lacquer, which prevented leaks and permitted them to migrate to a perfect closure. Modern pads are held by screws, which are far sturdier.

Many flutes have open-holed "French" keys in order to facilitate alternate fingerings, and "extended techniques" such as quarter-tones, glissando and multiphonics, (plus to get a nice vibration feeling at the fingertips), which are difficult on a closed hole flute (note: multiphonics and microtones are possible on closed-hole -flute, but not on entire register and is hard to get; glissandos are limited to half tone only in this kind of flute). Many flute-players prefer these open hole keys (some ones says that it has better projection of the sound). Closed holes permit a more relaxed hand position for some players, which can help their playing.

Flutes should have axles and pad-retaining screws of a compatible electronegative material, such as silver or phosphor bronze, rather than steel, in order to prevent bimetallic corrosion. Unfortunately, this is rare. As a result, most flutes' steel axles, screws and mechanisms need periodic cleaning and relubrication to clear out the corroded steel. It appears as a black or grey-blue powder mixed in the lubricant.

The pad return springs are roughly the shape of a pin. These tiny springs are made of phosphor-bronze, stainless steel, and a gold alloy, usually 10 karat. Phosphor bronze is by far the most common material (often mistaken for "gold" by players) because it is relatively inexpensive, makes a good spring, and is resistant to corrosion. Unfortunately, it is prone to metal fatigue. Stainless steel also makes a good spring and is resistant to corrosion. Ten karat gold is the best choice for spring material, but is found mostly in high-end flutes because of its cost.
 
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