Chapter 2

The flute is an instrument of _embouchure_--that is to say, one in which a stream of air is driven from the player's lips against an edge of the blow hole to produce the sound. The oboe and bassoon have double reeds, and the clarinet a single reed, made of a species of cane, as intermediate agents of sound production. There are other flutes than that of _embouchure_--those with flageolet or whistle heads, which, having become obsolete, shall be reserved for later notice. There are no real tenor or bass flutes now, those in use being restricted to the upper part of the scale. The present flute dates from 1832, when Theobald Boehm, a Bavarian flute player, produced the instrument which is known by his name. He entirely remodeled the flute, being impelled to do so by suggestions from the performance of the English flautist, Charles Nicholson, who had increased the diameter of the lateral holes, and by some improvements that had been attempted in the flute by a Captain Gordon, of Charles the Tenth's Swiss Guard. Boehm has been sufficiently vindicated from having unfairly appropriated Gordon's ideas. The Boehm flute, since 1846, is a cylindrical tube for about three-fourths of its length from the lower end, after which it is continued in a curved conical prolongation to the cork stopper. The finger holes are disposed in a geometrical division, and the mechanism and position of the keys are entirely different from what had been before. The full compass of the Boehm flute is chromatic, from middle C to C, two octaves above the treble clef C, a range of three octaves, which is common to all concert flutes, and is not peculiar to the Boehm model. Of course this compass is partly produced by altering the pressure of blowing. Columns of air inclosed in pipes vibrate like strings in sections, but, unlike strings, the vibrations progress in the direction of length, not across the direction of length. In the flute, all notes below D, in the treble clef, are produced by the normal pressure of wind; by an increasing pressure of overblowing the harmonics, D in the treble clef, and A and B above it, are successively attained. The fingerholes and keys, by shortening the tube, fill up the required intervals of the scale. There are higher harmonics still, but flautists generally prefer to do without them when they can get the note required by a lower harmonic. In Boehm's flute, his ingenious mechanism allows the production of the eleven chromatic semitones intermediate between the fundamental note of the flute and its first harmonic, by holes so disposed that, in opening them successively, they shorten the column of air in exact proportion. It is, therefore, ideally, an equal temperament instrument and not a D major one, as the conical flute was considered to be. Perhaps the most important thing Boehm did for the flute was to enunciate the principle that, to insure purity of tone and correct intonation, the holes must be put in their correct theoretical positions; and at least the hole below the one giving he sound must be open, to insure perfect venting. Boehm's flute, however, has not remained as he left it. Improvements, applied by Clinton, Pratten, and Carte, have introduced certain modifications in the fingering, while retaining the best features of Boehm's system. But it seems to me that the reedy quality obtained from the adoption of the cylindrical bore which now prevails does away with the sweet and characteristic tone quality of the old conical German flute, and gives us in its place one that is not sufficiently distinct from that of the clarinet.

The flute is the most facile of all orchestral wind instruments; and the device of double tonguing, the quick repetition of notes by taking a staccato T-stop in blowing, is well known. The flute generally goes with the violins in the orchestra, or sustains long notes with the other wood wind instruments, or is used in those conversational passages with other instruments that lend such a charm to orchestral music. The lower notes are not powerful. Mr. Henry Carte has, however, designed an alto flute in A, descending to violin G, with excellent results. There is a flute which transposes a minor third higher than the ordinary flute; but it is not much used in the orchestra, although used in the army, as is also a flute one semitone higher than the concert flute. The piccolo, or octave flute, is more employed in the orchestra, and may double the melody in the highest octave, or accentuate brilliant points of effect in the score. It is very shrill and exciting in the overblown notes, and without great care may give a vulgar character to the music, and for this reason Sir Arthur Sullivan has replaced it in the score of "Ivanhoe" by a high G flute. The piccolo is exactly an octave higher than the flute, excepting the two lowest notes of which it is deficient. The old cylindrical ear-piercing fife is an obsolete instrument, being superseded by a small army flute, still, however, called a fife, used with the side drum in the drum and fife band.

The transverse or German flute, introduced into the orchestra by Lulli, came into general use in the time of Handel; before that the recorders, or flute douces, the flute à bec with beak or whistle head, were preferred. These instruments were used in a family, usually of eight members, viz., as many sizes from treble to bass; or in three, treble, alto or tenor, and bass. A fine original set of those now rare instruments, eight in number, was shown in 1890 in the music gallery of the Royal Military Exhibition, at Chelsea; a loan collection admirably arranged by Captain C.B. Day. They were obtained from Hesse Darmstadt, and had their outer case to preserve them exactly like the recorder case represented in the painting by Holbein of the ambassadors, or rather, the scholars, recently acquired for the National Gallery. The flageolet was the latest form of the treble, beak, or whistle head flute. The whistle head is furnished with a cavity containing air, which, shaped by a narrow groove, strikes against the sharp edge and excites vibration in the conical pipe, on the same principle that an organ pipe is made to sound, or of the action of the player's mouth and lips upon the blowhole of the flute. As it will interest the audience to hear the tone of Shakespeare's recorder, Mr. Henry Carte will play an air upon one.

The oboe takes the next place in the wood wind band. The principle of sound excitement, that of the double reed, originating in the flattening of the end of an oat or wheat straw, is of great antiquity, but it could only be applied by insertion in tubes of very narrow diameter, so that the column of air should not be wider than the tongue straw or reed acting upon it. The little reed bound round and contracted below the vibrating ends in this primitive form permitted the adjustment of the lower open end in the tube, it might be another longer reed or pipe which inclosed the air column; and thus a conical pipe that gradually narrows to the diameter of the tongue reed must have been early discovered, and was the original type of the pastoral and beautiful oboe of the modern orchestra. Like the flute, the oboe has only the soprano register, extending from B flat or natural below middle C to F above the treble clef, two octaves and a fifth, which a little exceeds the flute downward. The foundation of the scale is D major, the same as the flute was before Boehm altered it. Triebert, a skillful Parisian maker, tried to adapt Boehm's reform of the flute to the oboe, but so far as the geometrical division of the scale was concerned, he failed, because it altered the characteristic tone quality of the instrument, so desirable for the balance of orchestral coloration. But the fingering has been modified with considerable success, although it is true by a much greater complication of means than the more simple contrivances that preceded it, which are still preferred by the players. The oboe reed has been much altered since the earlier years of this century. It was formerly more like the reed of the shawm, an instrument from which the oboe has been derived; and that of the present bassoon. It is now made narrower, with much advantage in the refinement of the tone. As in the flute, the notes up to C sharp in the treble clef are produced by the normal blowing, and simply shortening the tube by opening the sound holes. Beyond that note, increased pressure, or overblowing, assisted by a harmonic "speaker" key, produces the first harmonic, that of the octave, and so on. The lowest notes are rough and the highest shrill; from A to D above the treble clef, the tone quality of the oboe is of a tender charm in melody. Although not loud, its tone is penetrating and prominent. Its staccato has an agreeable effect. The place of the oboe in the wood wind band between the flute and the clarinet, with the bassoon for a bass, is beyond the possibility of improvement by any change.

Like the flute, there was a complete family of oboes in the sixteenth and early in the seventeenth century; the little schalmey, the discant schalmey, from which the present oboe is derived; the alto, tenor, pommer, and bass pommers, and the double quint or contrabass pommer.

In all these old finger hole instruments the scale begins with the first hole, a note in the bagpipe with which the drones agree, and not the entire tube. From the bass and double quint pommers came ultimately the bassoon and contra-bassoon, and from the alto pommer, an obsolete instrument for which Bach wrote, called the oboe di caccia, or hunting oboe, an appellation unexplained, unless it had originally a horn-like tone, and was, as it has been suggested to me by Mr. Blaikley, used by those who could not make a real hunting horn sound. It was bent to a knee shape to facilitate performance. It was not exactly the cor Anglais or English horn, a modern instrument of the same pitch which is bent like it, and of similar compass, a fifth below the usual oboe. The tenoroon, with which the oboe di caccia has been compared, was a high bassoon really on octave and a fifth below. It has been sometimes overlooked that there are two octaves in pitch between the oboe and bassoon, which has led to some confusion in recognizing these instruments. There was an intermediate instrument a third lower than the oboe, used by Bach, called the oboe d'amore, which was probably used with the cornemuse or bagpipe, and another, a third higher than the oboe, called musette (not the small bagpipe of that name). The cor Anglais is in present use. It is a melancholy, even mournful instrument, its sole use in the orchestra being very suitable for situations on the stage, the effect of which it helps by depressing the mind to sadness. Those who have heard Wagner's "Tristan und Isolde" will remember, when the faithful Kurwenal sweeps the horizon, and sees no help coming on the sea for the dying Tristan, how pathetically the reed pipe of a careless peasant near, played in the orchestra on a cor Anglais, colors the painful situation.

The bassoon is the legitimate bass to the oboe and to the wood wind in general. It was evolved in the sixteenth century from the pommers and bombards: the tenors and basses of the shawm or oboe family. With the older instruments, the reeds were not taken hold of immediately by the lips, but were held in a kind of cup, called _pirouette_, which only allowed a very small part of the reed to project. In the oboe and bassoon the player has the full control of the reed with the lips, which is of great importance, both in expression and intonation. The bassoon economizes length, by being turned back upon itself, and, from its appearance, obtains in Italy and Germany the satirical appellation of "fagotto" or "fagott." It is made of wood, and has not, owing to many difficulties as yet unsurmounted, undergone those changes of construction that have partly transformed other wood wind instruments. From this reason--and perhaps the necessity of a bassoon player becoming intimately familiar with his instrument--bassoons by some of the older makers--notably, Savory--are still sought after, in preference to more modern ones. The instrument, although with extraordinary advantages in tone, character, and adaptability, that render it valuable to the composer, is yet complicated and capricious for the performer; but its very imperfections remove it from the mechanical tendencies of the age, often damaging to art; and, as the player has to rely very much upon his ear for correct intonation, he gets, in reality, near to the manipulation of the stringed instruments. The bassoons play readily with the violoncellos, their united tone being often advantageous for effect. When not so used, it falls back into its natural relationship with the wood wind division of the orchestra. The compass of the bassoon is from B flat, an octave below that in the bass clef, to B flat in the treble clef, a range of three octaves, produced by normal pressure, as far as the bass clef F. The F below the bass clef is the true lowest note, the other seven semitones descending to the B flat being obtained by holes and keys in the long joint and bell. These extra notes are not overblown. The fundamental notes are extended as in the oboes and flutes by overflowing to another octave, and afterward to the twelfth. In modern instruments yet higher notes, by the contrivance of small harmonic holes and cross fingerings, can be secured. Long notes, scales, arpeggios, are all practicable on this serviceable instrument, and in full harmony with clarinets, or oboes and horns, it forms part of a rich and beautiful combination. There is a very telling quality in the upper notes of the bassoon of which composers have made use. Structurally, a bassoon consists of several pieces, the wing, butt, long joints, and bell, and when fitted together, they form a hollow cone of about eight feet long, the air column tapering in diameter from three-sixteenths of an inch at the reed to one and three-quarter inches at the bell end.

The bending back at the butt joint is pierced in one piece of wood, and the prolongation of the double tube is usually stopped by a flattened oval cork, but in some modern bassoons this is replaced by a properly curved tube. The height is thus reduced to a little over four feet, and the holes, assisted by the artifice of piercing them obliquely, are brought within reach of the fingers. The crook, in the end of which the reed is inserted, is about twelve inches long, and is adjusted to the shorter branch.

The contra-bassoon is an octave lower than the bassoon, which implies that it should go down to the double B flat, two octaves below that in the bass clef, but it is customary to do without the lowest as well as the highest notes of this instrument. It is rarely used, but should not be dispensed with. Messrs. Mahillon, of Brussels, produce a reed contra-bass of metal, intended to replace the contra-bassoon of wood, but probably more with the view of completing the military band than for orchestral use. It is a conical brass tube of large proportions, with seventeen lateral holes of wide diameter and in geometrical relation, so that for each sound one key only is required. The compass of this contra-bass lies between D in the double bass octave and the lower F of the treble clef.

The sarrusophones of French invention are a complete family, made in brass and with conical tubes pierced according to geometric relation, so that the sarrusophone is more equal than the oboe it copies and is intended, at least for military music, to replace. Being on a larger scale, the sarrusophones are louder than the corresponding instruments of the oboe family. There are six sarrusophones, from the sopranino in E flat to the contra-bass in B flat; and to replace the contra-bassoon in the orchestra there is a lower contrabass sarrusophone made in C, the compass of which is from the double bass octave B flat to the higher G in the bass clef.

Before leaving the double reed wind instruments, a few words should be said of a family of instruments in the sixteenth century as important as the schalmeys, pommers, and bombards, but long since extinct. This was the cromorne, a wooden instrument with cylindrical column of air; the name is considered to remain in the cremona stop of the organ. The lower end is turned up like a shepherd's crook reversed, from whence the French name "tournebout." Cromorne is the German "krummhorn;" there is no English equivalent known.

The tone, as in all the reed instruments of the period, was strong and often bleating. The double reed was inclosed in a _pirouette_, or cup, and the keys of the tenor or bass, just the same as with similar flutes and bombards, were hidden by a barrel-shaped cover, pierced with small openings, apparently intended to modify the too searching tone as well as to protect the touch pieces which moved the keys. The compass was limited to fundamental notes, and from the cylindrical tube and reed was an octave lower in pitch than the length would show. In all these instruments provision was made in the holes and keys for transposition of the hands according to the player's habit of placing the right or left hand above the other. The unused hole was stopped with wax. There is a fine and complete set of four cromornes in the museum of the Conservatoire at Brussels.

We must also place among double-reed instruments the various bagpipes, cornemuses, and musettes, which are shawm or oboe instruments with reservoirs of air, and furnished with drones inclosing single reeds. I shall have more to say about the drone in the third lecture. In restricting our attention to the Highland bagpipe, with which we are more or less familiar, it is surprising to find the peculiar scale of the chaunter, or finger pipe, in an old Arabic scale, still prevailing in Syria and Egypt. Dr. A.J. Ellis' lecture on "The Musical Scales of Various Nations," read before the Society of Arts, and printed in the _Journal_ of the Society, March 27, 1885, No. 1688, vol. xxxiii., and in an appendix, October 30, 1885, in the same volume, should be consulted by any one who wishes to know more about this curious similarity.

We have now arrived at the clarinet. Although embodying a very ancient principle--the "squeaker" reed which our little children still make, and continued in the Egyptian arghool--the clarinet is the most recent member of the wood wind band. The reed initiating the tone by the player's breath is a broad, single, striking or beating reed, so called because the vibrating tongue touches the edges of the body of the cutting or framing. A cylindrical pipe, as that of the clarinet, drops, approximately, an octave in pitch when the column of air it contains is set up in vibration by such a reed, because the reed virtually closes the pipe at the end where it is inserted, and like a stopped organ pipe sets up a node of maximum condensation or rarefaction at that end. This peculiarity interferes with the resonance of the even-numbered partials of the harmonic scale, and permits only the odd-numbered partials, 1, 3, 5, and so on, to sound. The first harmonic, as we find in the clarinet, is therefore the third partial, or twelfth of the fundamental note, and not the octave, as in the oboe and flute.

In the oboe the shifting of the nodes in a conical tube open at its base, and narrowing to its apex, permits the resonance of the complete series of the harmonic scale, 1, 2, 3, 4, 5, and upward. The flute has likewise the complete series, because through the blowhole it is a pipe open at both ends. But while stating the law which governs the pitch and harmonic scale of the clarinet, affirmed equally by observation and demonstration, we are left at present with only the former when regarding two very slender, almost cylindrical reed pipes, discovered in 1889 by Mr. Flinders Petrie while excavating at Fayoum the tomb of an Egyptian lady named Maket. Mr. Petrie dates these pipes about 1100 B.C., and they were the principal subject of Mr. Southgate's recent lectures upon the Egyptian scale.

Now Mr. J. Finn, who made these ancient pipes sound at these lectures with an arghool reed of straw, was able upon the pipe which had, by finger holes, a tetrachord, to repeat that tetrachord a fifth higher by increased pressure of blowing, and thus form an octave scale, comprising eight notes. "Against the laws of nature," says a friend of mine, for the pipe having dropped more than an octave through the reed, was at its fundamental pitch, and should have overblown a twelfth.

But Mr. Finn allows me to say with reference to those reeds, perhaps the oldest sounding musical instruments known to exist, that his experiments with straw reeds seem to indicate low, medium, and high octave registers. The first and last difficult to obtain with reeds as made by us. He seeks the fundamental tones of the Maket pipes in the first or low register, an octave below the normal pitch. By this the fifths revert to twelfths. I offer no opinion, but will leave this curious phenomenon to the consideration of my friends, Mr. Blaikley, Mr. Victor Mahillon, and Mr. Hermann Smith, acousticians intimate with wind instruments.

The clarinet was invented about A.D. 1700, by Christopher Denner, of Nuremberg. By his invention, an older and smaller instrument, the chalumeau, of eleven notes, without producible harmonics, was, by an artifice of raising a key to give access to the air column at a certain point, endowed with a harmonic series of eleven notes a twelfth higher. The chalumeau being a cylindrical pipe, the upper partials could only be in an odd series, and when Denner made them speak, they were consequently not an octave, but a twelfth above the fundamental notes. Thus, an instrument which ranged, with the help of eight finger holes and two keys, from F in the bass clef to B flat in the treble had an addition given to it at once of a second register from C in the treble clef to E flat above it. The scale of the original instrument is still called chalumeau by the clarinet player; about the middle of the last century it was extended down to E. The second register of notes, which by this lengthening of pipe started from B natural, received the name of clarinet, or clarionet, from the clarino or clarion, the high solo trumpet of the time it was expected that this bright harmonic series would replace.

This name of clarinet, or clarionet, became accepted for the entire instrument, including the chalumeau register. It is the communication between the external air and the upper part of the air column in the instrument which, initiating a ventral segment or loop of vibration, forces the air column to divide for the next possible partial, the twelfth, that Denner has the merit of having made practicable. At the same time the manipulation of it presents a difficulty in learning the instrument. It is in the nature of things that there should be a difference of tone quality between the lower and upper registers thus obtained; and that the highest fundamental notes, G sharp, A and B flat, should be colorless compared with the first notes of the overblown series. This is a difficulty the player has to contend with, as well as the complexity of fingering, due to there being no less than eighteen sound holes. Much has been done to graft Boehm's system of fingering upon the clarinet, but the thirteen key system, invented early in this century by Iwan Muller, is still most employed. The increased complication of mechanism is against a change, and there is even a stronger reason, which I cannot do better than translate, in the appropriate words of M. Lavoix fils, the author of a well-known and admirable work upon instrumentation: