Chapter 13

THE FALLACY OF THE DOCTRINE OF BREATH-CONTROL

When Dr. Mandl advanced the statement that the laryngeal muscles are too weak to withstand the pressure of a powerful expiratory blast, the theory of the vocal action therein embodied met with immediate acceptance. This idea is so plausible that it appeals to the thoughtful investigator as self-evident, and seems to call for no proof. The doctrine of breath-control was at once adopted, by the most influential vocal scientists, as the basic principle of tone-production.

Curiously, neither Dr. Mandl, nor any other advocate of breath-control, seems to have read an article by Sir Charles Bell dealing with this same action, the closing of the glottis against a powerful exhalation. This paper, "On the Organs of the Human Voice," was read before a meeting of the London Philosophical Society on February 2, 1832.

Dr. Bell dispels all the mystery concerning the closure of the glottis, and the holding of the breath against a powerful contraction of the expiratory muscles. He points out that this action occurs in accordance with the law of the distribution of pressure in a fluid body, commonly known as Pascal's law of fluid pressures.

Pascal's law is stated as follows:--"Pressure exerted anywhere upon a mass of fluid is transmitted undiminished in all directions, and acts with equal force on all equal surfaces, and in a direction at right angles to those surfaces." (Atkinson's _Ganot's Physics_, 4th ed., New York, 1869.)

The hydraulic press furnishes the familiar illustration of this law. Two vertical cylinders, one many times larger than the other, are connected by a pipe. The cylinders are fitted with pistons. Both the cylinders, and the pipe connecting them, are filled with water, oil, air, or any other fluid; the fluid can pass freely from one cylinder to the other, through the connecting pipe. Suppose a horizontal section of the smaller cylinder to measure one square inch, that of the larger to be one hundred square inches. A weight of one pound on the smaller piston will balance a weight of one hundred pounds on the larger. If a downward pressure of one pound be exerted on the smaller piston, the larger piston will exert an upward pressure of one hundred pounds. Conversely, a downward pressure of one hundred pounds, exerted on the larger piston, will effect an upward pressure of only one pound on the smaller piston.

A type of the hydraulic press is presented by the chest cavity and the larynx, considered as one apparatus. This fact is illustrated in the following quotation: "If a bladder full of water be connected with a narrow upright glass tube, heavy weights placed on the bladder will be able to uphold only a very small quantity of liquid in the tube, this arrangement being in fact a hydraulic press worked backwards. If the tube be shortened down so as to form simply the neck of the bladder, the total expulsive pressure exerted by the bladder upon the contents of the neck may seem to be very small when compared with the total pressure exerted over the walls of the bladder upon the whole contents." (_A Text Book of the Principles of Physics_, Alfred Daniell, London, 1884.)

That the glottis-closing muscles are too weak to withstand a powerful expiratory pressure is therefore an entirely erroneous statement. Owing to the small area of the under surfaces of the vocal cords, the air pressure against them is very small, in comparison with the total pressure exerted on the contents of the thorax by the expiratory contraction. The glottis-closing muscles are fully capable of withstanding this comparatively slight pressure. The doctrine of breath-control is therefore scientifically untenable. This doctrine has no place in Vocal Science.

As the basic doctrine of breath-control is unsound, the singer does not need any direct means for controlling the breath. The attempt to check the flow of the breath in any mechanical way is entirely uncalled for. This being the case, it is hardly to be expected that the systems devised to meet this fancied need would stand the test of scientific examination. Each of these systems of breath-control, opposed muscular action and ventricular, is in fact found on analysis to embody a misconception of scientific principles.

_Opposed-Action Breath-Control_

A curious misapprehension of mechanical processes is contained in the doctrine of breath-control by opposed muscular action. This can best be pointed out by a consideration of the forces brought to bear on a single rib in the acts of inspiration and expiration. One set of muscles contract to raise this rib in inspiration, an opposed set, by their contraction, lower the rib for the act of expiration. In the opposed-action system of breath-control, the action of the rib-raising muscles is continued throughout the expiration, as a check upon the pull in the opposite direction of the rib-lowering muscles. Theoretically, the downward pull is "controlled" by the upward pull. To express this idea in figures, let the expiratory or downward pull on the rib be said to involve the expenditure of five units of strength. According to the theory of opposed-action breath-control, this downward pull would have to be opposed by a slightly less upward pull, say four units of strength.

Thus graphically presented, the fallacy of the "opposed-muscular" theory is clearly exposed. The rib is lowered with a degree of strength equal to the excess of the downward over the upward pull. If the downward pull equals five units of strength, and the upward pull four units, the rib is lowered with a pull equivalent to one unit of strength. Exactly the same effect would be obtained if the downward and upward pulls were equal respectively to twenty and nineteen units, or to two and one units. Further, the result would be the same if the downward pull involved the exertion of one unit of strength, and there was no upward pull whatever. In every case, the actual result is equivalent to the excess of the downward over the upward pull.

In the case of the expiratory pressure of five units of strength being "controlled" by an inspiratory contraction of four units, nine units of strength are exerted, and the same result could be obtained by the exertion of one unit. There is a clear waste of eight units of strength. The power of the expiratory blast is just what it would be if one unit of strength were exerted in an "uncontrolled" expiration. The singer exerts just nine times as much strength as is necessary to effect the same result. This is why the practice of breath-control exercises is so extremely fatiguing.

So far as the effect of the expiratory blast on the vocal cords is concerned, "controlling" the breath has no influence whatever. The vocal cords respond to the effective air pressure; they are not affected in any way by the opposed contractions of the breath muscles. "Opposed-muscular" breath-control is a sheer waste of time and effort.

Probably no particular harm has ever resulted to any singer's throat from the practice of breath-control exercises. But the attempt to hold back the breath has a very bad effect on the singer's delivery. The "breath-control" type of singer is never found in the ranks of the great artists. There is something utterly unnatural about this holding back of the breath, repugnant to every singer endowed with the right idea of forceful and dramatic delivery. The vast majority of the successful pupils of "breath-control" teachers abandon, very early in their careers, the tiresome attempt to hold back the breath. These singers yield, probably unconsciously, to the instinctive impulse to sing freely and without constraint.

But in the ranks of the minor concert and church singers are many who try conscientiously to obey the instructions of the "breath-control" teachers. Singers of this type can always be recognized by a curious impression of hesitancy, or even timidity, conveyed by their tones. They seem afraid to deliver their phrases with vigor and energy; they do not "let their voices out." Frequently their voices are of excellent quality, and their singing is polished and refined. But these singers never give to the listener that sense of satisfaction which is felt on hearing a fine voice freely and generously delivered.

As for the particular fallacy contained in the theory of ventricular breath-control, that must be reserved for a later chapter. Suffice it to say here that this theory disregards the two basic mechanical principles of tone-production,--Pascal's law, and the law of the conservation of energy. The application of this latter physical law to the operations of the vocal organs is considered in Chapter VI of Part III.