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In _[=a]_ (as in _fate_) there is some modification of the last, the tongue and larynx being more raised. The pitch of this vowel is higher than is that of the more open _a_.
In the case of _[=e]_ (as in _me_) the flask is relatively small, and the neck is long and narrow, the larynx much raised, the lips drawn back against the teeth, and the tongue greatly elevated, so as to form the narrow neck of the flask. The pitch of this vowel is high.
[Ill.u.s.tration: FIG. 57 (Beaunis). Shows the relative position of parts in sounding _I_. In sounding _E_ the position is a good deal like that for _I_.]
When sounding _[=i]_ (as in _mine_) the cavity of the mouth behind resembles a small-bellied flask with a long, narrow neck, the larynx is at its highest, and the lips a.s.sume a position much as in the case of _[=e]_; between the hard palate and the back of the tongue there is only a narrow pa.s.sage--a mere furrow. The pitch of this vowel is also high.
It is thus seen that every vowel has its characteristic quality and pitch, the order as regards the latter being from below upward, _u_, _o_, _a_, _[=a]_, _e_, _i_.
That the mouth cavity really can act as a resonance-chamber can be easily demonstrated by holding a small vibrating tuning-fork before the open mouth, and varying the shape and size of the cavity till the sound of the fork is observed to be suddenly increased in volume. The cavity then is a resonance-chamber for the fork, and thus intensifies its sound; in other words, the air in the mouth cavity vibrates in harmony with the tuning-fork.
To demonstrate in a simple manner that each vowel has its own pitch, the mouth cavity is put into the form usual in sounding the vowel, and the finger is filliped against the cheek, when a tone answering in pitch to that of the vowel in question results. The demonstration is easier with the lower-pitched, broader vowels, but the correctness of the order of the pitch mentioned above can thus be shown to be established.
Some very important principles for the speaker and singer hinge upon the above-mentioned facts. It follows, for example, that it is impossible to give a vowel its _perfect_ sound in any but one position of the mouth parts, so that for a singer to utter a word containing the vowel _[=u]_ (_oo_) at a high pitch is a practical impossibility. The listener may know what syllable is meant, and overlook the defect either from habit or from an uncritical att.i.tude, but composers of vocal music should bear such facts in mind and not impose impossibilities on singers. At the same time, the vocalist, in order to satisfy a modern audience, is obliged to sound every word and every syllable as correctly as possible, even if the tone suffer somewhat thereby. It is wonderful how fully the best poets have, with the insight of genius, adapted their words (vowels) to the ideas they wish to convey, and had all composers of vocal music done the same, the path of the singer would not have been strewn with so many thorns. The difficulties in the case of the speaker are similar, but less marked, as his range is so much more limited as regards pitch.
[Ill.u.s.tration: FIG. 58 (Beaunis). Shows the relative position of the parts in sounding _OU_.]
This subject has also most important bearings on the learning of languages. One is born with tendencies toward certain mouth positions, etc., and from infancy he is constantly using the resonance-chambers in certain characteristic ways. In the course of years these positions, etc., become such fixed habits that it is difficult to change them, so that for this as well as many other reasons the learning of languages by persons beyond a certain age is a difficult matter. But to all students of a foreign tongue it is really essential to explain the physical mechanism by which the various sounds are made. The author has known an adult to struggle for months with French and German p.r.o.nunciation, and get into a state of discouragement, fearing that he never would be able to learn the languages in which he wished to speak and sing, when a few moments spent in explaining just what we have written above for vowels, and what we have earlier and shall now more fully set forth in this chapter as regards consonants, have been followed by the lifting of the cloud from the mind and of a load of heaviness from the heart.
The learner should (1) hear the sound (elemental--a vowel, say) from the lips of the teacher, and actually perceive just what that sound is--_i.e._, he must really hear it; (2) observe the shape of the resonance-chambers; (3) try to produce the same shape of his own, and under the guidance of his ear and his eye (watching the mouth of the teacher) so utter the sound correctly. This sound should be fixed in the mind, and the ear trained by comparing it with other sounds, as the wise teacher will do, and require imitations. Any language can be p.r.o.nounced correctly in a short time, if this method be followed. It is, indeed, the only one that rests on science and common sense. The student when away from the teacher, after he has once learned to form the vowels correctly, should practise with a hand-gla.s.s before him for some time, at least.
The learning of a new language is the acquiring of a new mouth, or, at all events, entirely new methods of using the old one. In reality, however, this is not so fully the case as it at first seems. In all the languages one wishes to acquire, the same vowels occur, and for the learner it is often a question of lower or higher pitch, or greater or less breadth, though all this involves the formation of new habits and the fighting of old ones, and often in the case of the adult the struggle is a long-continued and severe one. Some nations speak at a lower pitch than others, and if a foreigner enunciate ever so well, yet at the pitch of his own and not that of the new language, his utterance may seem foreign. The Germans speak at a much lower pitch than Americans, and their tongue, even when grammatically spoken by the latter, is apt to have a sort of foreign flavor. It slightly disturbs the listener, who is not accustomed to hear his mother-tongue transposed into another key, so to speak.
We have known a learner to derive great benefit from having it pointed out to him that certain of his vowel sounds would at once cease to be incorrect if their pitch were altered. Of course, in doing this, there were at once many changes made in the resonance-chambers, in order to get the changed pitch. Pitch, accent, and duration of the sound throw much light on the subject of dialect, as a little a.n.a.lysis of Irish or Scotch will show.
Consonants are, as we have already said, noisy nuisances for the singer, but indispensable for word-formation, and so for human intercourse. Each has also its own pitch, and investigators have come to a measurable degree of agreement on this subject.
To ill.u.s.trate: Madame Seiler found that _r_ and _s_ are separated from each other by an interval of many octaves: [Ill.u.s.tration: C], _r_; [Ill.u.s.tration: b-flat"'], _s_. The latter, _s_, cannot be sounded without more or less of a hissing sound, suggesting escape of air, which is very unpleasant to the ear, and, unfortunately, these hissing sounds are very common in English, so that the speaker or singer is called upon to use all his art to overcome this disagreeable effect.
This is also prominent in _whispering_--_i.e._, the escape of breath, with its corresponding effect on the ear. Whispering is effected chiefly, if not solely, by the resonance-chambers, the vocal bands taking only the slightest part, if any at all.
The physiologist Brucke, treating of the utterance of consonants, considered that they were formed by the more or less complete closure of certain doors in the course of the outgoing blast of air, and we have already referred to a consonant as an unpleasant interrupter, musically considered. Perhaps we should be disposed to compare them to the people that talk during the performance at a concert, did we not wish to avoid bringing such useful members of the speech community into undeserved disrepute.
Consonants, like vowels, have their own mouth positions. This follows from their having pitch, but, in addition, they require the use of the tongue, lips, etc., in a special way. The princ.i.p.al articulation positions are the following: (1) Between the lips; (2) between the tongue and the hard palate; (3) between the tongue and the soft palate; (4) between the vocal bands.
To indicate this, certain terms have been employed, and as they are in common use by those who treat of this subject, it will be well to explain them.
_Explosives_ are consonants in uttering which there is complete closure with a sudden opening of the resonance-chambers in front, as in _b_ and _p_.
[Ill.u.s.tration: FIG. 59 (Beaunis). Representation of the relative position of the parts and the resulting shape of the sounding chamber when the consonants indicated are formed vocally. Verification of the truthfulness of the ill.u.s.trations will prove profitable.]
_Vibratives_ call for an almost complete closure of the door and a vibration of its margin, as in _r_.
_Aspirates_ partly close the opening, which is at once suddenly opened again, as in _f_, _v_, etc.
_Resonants_ close the mouth, so the sound must find its way out through the nose, as in _m_, _n_, _ng_.
The above may be put in tabular form as follows:
Articulation Positions. Explosives. Aspirates. Vibrates. Resonants.
1 _b, p_ _f, v, w_ _m_ 2 _t, d_ _s, z, l, sch, th_ _n_ 3 _k, g_ _j, ch_ Palatal _r_ _ng_ 4 _h_
Of course the above is only one of many possible cla.s.sifications, and expresses only a part of the whole truth, for the formation of a single consonant is a very complicated process, the exact nature of which can only be very imperfectly a.n.a.lyzed and expressed in words.
In complexity of action the resonance-chambers are wonderful beyond any instrument devised by man, and the more one studies the subject, the greater the wonder becomes at the amount and complexity of the work done in a single day's speaking. It is also easy to understand how difficult it is to attain to absolutely perfect results. To enable one's fellow-creatures to understand him in even his mother-tongue involves an amount of effort and energy, a complexity and facility in function, that can only be reached after months of practice in infancy; but to attain to that degree of perfection that makes an artist in speaking, how much greater is the expenditure in vital capital! Is not the result when attained worth the best efforts of the most talented individual?
CHAPTER XVI.
FURTHER THEORETICAL AND PRACTICAL CONSIDERATION OF VOWELS AND CONSONANTS.
The reader will now be prepared to consider the answer to be given to the question as to the _vowels_ most suitable for practice in intonation. Plainly, _a_ (_ah_) puts the resonance-chambers into the easiest and best position to form a good pure tone. The pitch of the vowel is intermediate--not very low and not high in the scale. For the higher tones, evidently, _[=a]_, _e_, and _i_ are better than _a_ (_ah_), much less _o_ and _u_, which are quite out of the question, comparatively speaking.
However, as music must be sung with vowels in every position, it is plainly necessary to learn to sound all the vowels well throughout the scale. In fact, one might wisely, after preliminary practice on _a_, begin a scale below with _u_, then go on to _o_, _a_, _[=a]_, _e_, and _i_.
Some have recommended that the vocalist begin his scale practices with _a_, and when the higher middle tones are reached, that he use _[=a]_, and for head tones _[=a]_ and _e_, an advice which is obviously sound, as it is based on scientific principles.
Sounds that are very expressive in public utterance, whether in speech or song, are _l_ and especially _r_. In ordinary speech most persons use only the guttural _r_, in the formation of which the soft palate takes a prominent part; but for the speaker and the singer the lingual _r_ is often much more effective. It is produced by the vibration of the tip of the tongue, and can only be formed well, in most cases, after long-continued and persevering practice.
Certain consonants tend to nasality. These are _m_, _n_, _ng_, and of these all persons who are disposed to this production to the point of excess must especially beware. These letters, with such people, should be given a rapid and forward production, while singers with hard and metallic voices will do well to sing syllables beginning with these consonants, such as _maw_, _naw_, _ang_, _eng_, etc.
According to the teachings of physics, the quality of a tone is determined largely by the number and variety of the _overtones_ accompanying the fundamental tone. Practically all musical tones, whether vocal or instrumental, are made up of the ground tone and certain others less loud and prominent, and the latter are the overtones. These may be very numerous, and some are favorable and others unfavorable to excellence in quality. It has been thought, as the result of scientific investigation, that when the first octave of the fundamental tone and its fifth interval are prominent, the voice is soft, and with the fifth and seventh well in evidence, the voice is bright and clear.
It might be said that the voice-user should endeavor to keep out of his voice certain overtones, especially those which are not within the range of our modern harmonies. A harsh voice is one in which such unharmonic intervals preponderate.
The most beautiful quality of tone is produced by keeping intensity within limits, and by a sudden, elastic attack, a point on which we dwelt at some length before; but this only emphasizes the importance of all who use the voice employing, not only when beginners, but throughout their career, exercises with vowels alone. Only in this way will the a.s.sociation between the hearing of pure tones and their production be established.
Such exercises are also necessary to give good carrying power to the voice. If more attention were given to this point, and less to the production of mere volume of sound, it would be well for the best musical art. Naturally, the higher the pitch of tones, within certain limits, the greater their carrying power, and the reverse, of course, with the lower tones; so that it is very important that the speaker and singer use all reasonable means to produce these lower tones well, else they are m.u.f.fled, and the words a.s.sociated with them are not heard. This principle should be borne in mind especially by tenors and light sopranos, in whom the lower tones are not usually the best, or the easiest to produce; so that a good attack and careful and neat syllable-formation, with all attention to both vowels and consonants, should be especially studied, and, above all, in tones below about G on the treble clef. The tendency to close the mouth, especially in a descending scale, below this point, and to confound blurring with soft (_piano_) singing, is common. A _piano_ tone should be formed with especial care as to attack, open mouth, etc., and all words a.s.sociated with the duller, lower-pitched vowels be spoken with the greatest distinctness, both in singing and speaking. At the same time, the barytone and contralto should not boast themselves over the tenor or soprano, if they are more successful with lower tones and the words a.s.sociated with them, for the latter cla.s.s of singers can often revel like birds in regions not approachable by the deeper-voiced singers.
Each in its own order!
It follows that if the organs of speech are used so as to produce vowels, consonants, and their combinations, with unusual and, for practical purposes, unnecessary distinctness, the actual performance, as demanded by a critical ear, will be easier. One that can run two hundred yards as readily as another can one hundred is in a better position for the shorter sprint than the other man; hence the wisdom of the singer and speaker practising first with unusual and indeed unnecessary distinctness, so far as the listener is concerned, in order that he may satisfy even the critical with _ease_--that all-important principle in art.
All persons must, of necessity, speak in some register, and even an ear but little cultivated can recognize that the pitch and quality of the tones of adult males, adult females, and children differ greatly from each other.
Madame Seiler has thus expressed herself on this subject:
"Women use mostly tones of the second chest and first falsetto registers, sometimes also those of the first chest register. Men speak an octave lower than women, and use mostly the upper half of the chest register. In public speaking, as well as on the stage, the second chest register is used by men, and sometimes also the lowest tones of the voice. The second falsetto and head registers are used only by little children."
It will be remembered that Madame Seiler's "second chest" corresponds to the upper chest tones of some writers, and that "falsetto" is equivalent to "middle," as generally employed.
Ordinary speech is economical, and a range of very few tones, usually not more than two to four intervals of the scale, suffices, but on the stage, and by some of our best public speakers, twice this range may be exceeded. In nature, the cat, under the excitement of a heated interview with a fellow-vocalist, may pa.s.s through an entire octave.
SUMMARY.
The shape of the resonance-chambers varies in the formation of vowels and consonants, which may be cla.s.sified accordingly, or according to their pitch.