In 1777, the German physicist Ernst Chladni, who would later be crowned the Father of Acoustics, designed an experiment that revolutionized our understanding of sound. After placing grains of sand on a thin metal plate and drawing a violin bow along one edge, Chladni watched in wonder as the sand danced and jiggled into surprising shapes—all perfectly even and symmetrical, yet changing their formations depending on how the bow was used.

In their beauty and complexity, these shapes (which the physicist himself cannily called “Chladni figures”) seemed to be arranged by invisible hands. In one simple and elegant experiment, sound had become visible. Here at last was clear proof that sound was not produced by generating tiny particles of matter within air, as the dominant theorists of the seventeenth and eighteenth centuries had insisted, but was instead the result of vibrations from waves.

While earlier claims about the wave-like properties of sound (which in fact date back to Aristotle’s Physics) had fallen mostly on deaf ears, Chladni’s experiment provided undeniable evidence that sound was caused by waves that could move through both air and matter. Chladni’s ingenious demonstration also showed that sound could be observed in a variety of new ways and would no longer be consigned to the invisible aether.

Moreover, it was an easy experiment to replicate for anyone who could get their hands on a copper plate, a violin bow, and some sand. In fact, it was so widely reproduced that, in 1901, Annie Besant and Charles Leadbetter, in their wonderful (and completely bizarre) theosophical study *Thought-Forms*, could write that Chladni figures were “already familiar to every student of acoustics,” being “continually reproduced in every physical laboratory.”

The students of acoustics Besant and Leadbetter had in mind were educated through a vast collection of primers, textbooks, and popular introductions to science that were widely read across the nineteenth century. Despite being little known today, such texts were part of an important wave of science popularization, whose authors, according to the historian Bernard Lightman, “saw themselves as providing both entertainment and instruction to their readers.”

Written for a growing middle-class audience, such books and periodicals gave detailed descriptions of groundbreaking experiments, encouraging readers to imagine their own homes as sites of scientific discovery and playful experimentation. Genuine learning and rich enjoyment, these books proclaimed, could be had within the home, and any reader with patience, curiosity, and some basic equipment could follow along with the latest scientific revelations. In fact, even children could do so, and the experiments in these books were democratically pitched to the whole family.

Although they ranged over many scientific disciplines including chemistry, optics, physics, magnetism, and astronomy, it is their presentation of the emerging subfield of acoustics that is particularly intriguing, since it reveals many facets of nineteenth-century culture. These books speak to a widespread amateur fascination with science and reveal a desire to initiate even the very young into a world of intellectual discovery and delight.

In doing so, they set forth a new model of learning based on play, beauty, and pleasure that anticipates many later approaches to education. These popularizing books also offer a vision of science that has now largely been forgotten. While, in our own time, scientific understanding is usually thought of in terms of detachment and objectivity, here beauty and knowledge were often intertwined.

Finally, and perhaps most unexpectedly, these books prompted readers to reflect on questions of spirituality and transcendence, since they positioned the science of acoustics as a fresh avenue for moving beyond the material plane. These sonic experiments reflected new listening practices and new theories of sound that unfolded across the nineteenth century.

It is a century that has been described by the literary critic John Picker as the “auscultative age,” extending the term that René Laennec coined for the invention of his stethoscope to describe the Victorians’ “careful listening to a world at large and in flux.” The century also saw the birth of technologies designed to amplify, transmit, and record sound—the self-performing player piano, the phonograph, telephone, and radio, for instance.

Of all the senses that the Victorians cultivated, it was the sense of hearing that experienced the most dramatic transformation. The Victorians, according to Jonathan Sterne, underwent what he terms “ensoniment”: an acoustic Enlightenment. Part of this transformation included a new understanding of children’s sensitivity to sound.

In his 1878 essay “Child’s Play,” Robert Louis Stevenson argued that children’s hearing is far more acute and developed than their other senses. He suggests that while children “have no great faculty for looking” (since “they do not use their eyes for the pleasure of using them, but for by-ends of their own”) and have a “sense of touch” that is not “so clean and poignant,” even printed texts were very often experienced sonically, suggesting yet another everyday aspect of Victorian listening.

But the long evenings of the pre-electric nineteenth century also allowed ample time for other pursuits, including amateur science. The authors of these books stressed that their experiments could be carried out by the entire family, and even the smallest children need not miss out on the fun.

And there was indeed fun to be had. Clearly, part of the appeal of these experiments was in their sheer entertainment value. These books often use the language of “scientific amusements,” “scientific recreations,” and even scientific “parlour magic” to stress how diverting and delightful science could be. A young child might easily create intricate “acoustic curves” with the help of a basic pendulum, or construct a small siren that allowed for instructive observations on differences in pitch.

The books contained advice for finding and listening to various kinds of harmonics, vibrating cords, and for observing sounds being reflected by small flames. Even a very simple experiment, such as swinging a whistle around on a string at various speeds, could yield valuable knowledge about vibration and frequency.

Arabella Buckley’s whimsical *Fairy-Land of Science* (1879), for instance, encourages children to experiment with all manner of scientific principles, and her chapter “The Voices of Nature and How We Hear Them” included details of many intriguing sonic demonstrations. At one point, she instructs her readers to “take a poker and tie a piece of string to it, and holding the ends of the string to your ears, strike the poker against the fender.”

After noting the way the sound travelled through the string, she then invites children to hold the string in their teeth and block their ears, demonstrating the power of bone to conduct sound waves in a simple but surely unforgettable experiment.

Elsewhere, she explains how birds produce such complexly beautiful trills and calls, and explores other miracles of the natural world. Like many popular science writers of the era, she encourages her young readers to poke around in their own ear to investigate its features: “Put your finger round your ear and feel how the gristly part is curved towards the front of your head,” Buckley writes. “This concha makes a curve much like the curve a deaf man makes with his hand behind his ear to catch the sound.” By following her lead, anyone could acquire anatomical as well as acoustic knowledge.

Written in the same spirit of playful discovery, John Henry Pepper’s *The Boys’ Playbook of Science* (1860) and *Scientific Amusements for Young People* (1861) offer countless experiments and demonstrations of acoustic principles, as does *Light Science for Leisure Hours* (1871) by Richard Proctor.

Other books, such as William Henry Stone’s *Elementary Lessons on Sound* (1879), Worthington Hooker’s *Science for the School and Family* (1863), and Rodolphe Radau’s *Wonders of Acoustics* (1870) emphasize sonic curiosities from history and the natural world, such as the ancient Horn of Alexander (which could reportedly be heard at a distance of many miles) and the complex interaction of echoes with rock formations.

Many of these popular science books include detailed illustrations (*The Boys’ Playbook,* for instance, boasted of 470 engravings) showing either disembodied hands or well-dressed Victorian youths carrying out different experiments.

One of the most compelling of all the nineteenth-century books that popularized acoustics is Alfred Marshall Mayer’s *Sound: A Series of Simple, Entertaining, and Inexpensive Experiments in the Phenomena of Sound, for the Use of Students of Every Age* (1879).

A professor of physics at the Stevens Institute of Technology in New Jersey, Mayer made important contributions to astronomy, optics, and acoustics, and wrote several books for the public that translated important scientific discoveries into language that any interested observer could follow.

Like many other popular science writers before him, he was careful to centre his book (as its subtitle suggests) around “simple, entertaining, and inexpensive experiments.” Mayer tells his young readers that for the relatively low outlay of “just $27.50” (around £670 or $894 in today’s currency), they, too, can have a working laboratory for the investigation of acoustics, with the capacity not merely to replicate the demonstrations described in *Sound,* but to invent instructive experiments of their own.

Mayer patiently introduces children to many of the cutting-edge principles and theories of sound that were circulating in the late nineteenth century, covering topics such as reflection, transmission, vibration, and velocity, along with many newly discovered techniques for rendering sound visible, among them the ubiquitous Chladni figures.

But in addition to imparting scientific knowledge, it is striking to note how many of these demonstrations are described in aesthetic terms, as being “beautiful,” “lovely,” or “harmonious.” Mayer clearly perceived both aesthetic and intellectual value in his experiments, and he encouraged his young readers to do the same.

After one involving a pendulum that registered the vibrations of different musical intervals, for instance, Mayer advised them to frame the curves produced by the pendulum by fixing them onto glass, which will both “make beautiful ornaments for the window or mantel, and will remind you that you are becoming an experimenter.”

Another “very beautiful and striking experiment” involved sprinkling silica powder into a wooden whistle, while elsewhere he describes the pleasure of discovering “beautiful little luminous flowers, like forget-me-nots” that are produced by a singing cone piped directly into a König’s flame.

While science in the twenty-first century is often regarded as a dispassionate and purely rational endeavour, in these books beauty and scientific knowledge go hand in hand.

It is hard to know what age group Mayer imagined himself to be addressing. Some of the simpler experiments could be carried out by young children (perhaps with adult supervision), such as the construction of a so-called “talking machine” from an orange with a peanut nose, black bean eyes, and completed (in a slightly unsettling touch) with a “baby’s cap.” By puffing air through a small tube, and carefully controlling the “mouth” aperture, a highly realistic imitation of a baby’s “Mama!” could be achieved. (The accompanying line drawing bears an uncanny resemblance to Sesame Street’s Grover.)

Others are considerably more complex, and would surely require the dexterity and understanding of a teenager. (Several of the illustrations feature a youth of somewhere between ten and fifteen years, neatly dressed in a blazer, tie, and striped trousers.) It must be said, too, that many of Mayer’s experiments and demonstrations are highly dangerous. Bunsen burners, heliostats, gas flames of various kinds, fragile glass tubes, and even volatile substances like lycopodium and silica powder are commonly used.

Mayer’s introduction to acoustics is representative of many of the books in this genre, especially in its palpable enthusiasm for scientific discovery. The experiments in all of these popular science books on sound are often pitched to the reader as delightful diversions—entertaining escapes from daily life.

Yet as delightful as such experiments were, many of the authors also went to great lengths to stress their educational value. Amateur experimenters were not just acquiring sophisticated party tricks for the sake of amusement, but were also gaining genuine knowledge of acoustic principles.

Playing around with different kinds of pendulums, for instance, may well be enjoyable in and of itself, but was also imparting knowledge about sound waves. In the same way, clapping near small flames revealed important principles of sonic reflection, while using whistles and “lamp chimneys” instructed young scientists about the effects of vibrating columns of air.

Here in these books was a new vision of what education might be—real knowledge, the authors insisted, might arise naturally from play. Simply by encouraging their natural curiosity, children could be gently nudged in the direction of scientific discovery. To read these books even today is to recapture a childlike thrill in the process of learning.

Such pedagogical principles were far from the norm during the nineteenth century, which largely took a joyless, authoritarian approach to educating the young. The Victorian vision of institutional education was characterized by “harsh and coercive lessons,” writes Elizabeth Gargano, centred on “rote recitations and enforced silence.”

Many popular science books of this era stand in stark contrast to such principles, offering a very different vision of education that is based on a harmony between play and learning. Instead of the austere silences of institutional education, such books are alive with sound and show readers precisely how to produce unusual acoustic phenomena.

During the early years of the twentieth century, such a vision would be central to many new and radical approaches to educating children, including those of Maria Montessori, Rudolf Steiner, and the Reggio Emilia community. Joy, play, tactile discovery, and self-directed learning were at the heart of such novel ways of learning.

The popular scientific books for children that were so successful in the nineteenth century may well have anticipated these later advances in educational theory and practice. It is clear that these scientific instructionals reveal much about Victorian attitudes to science, children, entertainment, and learning.

But there is another intriguing dimension to these forgotten texts: their insistence that sound itself, when properly understood, can allow for mysterious experiences of transcendence and spiritual communion. Many of these authors understood hearing as an inherently spiritual sense, an intuition that animated many other reverential and quasi-mystical conceptions of sound that were advanced across the nineteenth century.

They stressed the “mysterious” and “angelic” properties of sound waves, telling young readers of the unearthly ways in which they interact with the human ear. It is no accident that several books (such as Buckley’s) invoke a realm of fairies and magic, and encourage new ways of perceiving and attending to the sensory world.

For many scientific writers, sound itself was part of a divine, ethereal realm that had only recently, through experimental science, drawn slightly closer. Something about sound itself readily moved the Victorian mind in a spiritual direction.

Whether the grains of sand in Chladni’s experiment that seemed to be moved by unseen hands, or the mysterious forces that seemed to be channeled in other demonstrations, sound itself stood in for powerful forces of other kinds. Now that sound could be seen, perhaps other once-invisible energies might also reveal themselves.

It is not too much of a leap from thinking about the effect of sound waves on matter to that of spirit on matter. In this way, the newly discovered visibility of sound in the Victorian age has obvious parallels with the Christian doctrine of the Incarnation: here, too, albeit on a far smaller and more manageable scale, a once-distant and invisible force was given physical form.

The fact that spiritualism and theosophy were first becoming popular and widely practiced during this period also testifies to a broader interest in the ethereal realm. And since many artistic practices and new technologies were quickly pressed into the service of exploring such a realm, it is no surprise that science was too.

The newly discovered materiality of sound prompted many strange claims about its spiritual power: in 1837, Charles Babbage famously declared that “The air itself is one vast library on whose pages are forever written all that man has ever said or woman whispered”—a cosmic vision of all speech and sound as being potentially retrievable.

The Victorians speculated that modern acoustic science might well be bringing lost or once-hidden realms nearer, such that we might someday be able to hear “the grass grow and the squirrel’s heart beat,” as the narrator of George Eliot’s *Middlemarch* (1872) imagines.

It is telling, too, that the authors of popular books on acoustics often wrote with an air of initiating the young into a world of profound mystery, as though imparting great and secret knowledge. In *Sound and Music* (1879), the Reverend J. A. Zahm even included a poem that stresses the spiritual significance of sound, writing of God’s voice at the moment of creation moving through “soundless realms of space” and setting in motion a world that is now “vibrant,” containing shadowy whispers of “choral raptures grand” that resound in the heavens.

For Zahm at least, exploring sound was a project of spiritual significance, promising illumination far beyond mere scientific knowledge. To read these surprising, delightful, and often beautiful popular science books is to be made aware of the enormous gulf that has opened up between professional scientists and the public.

As science became increasingly specialized in the twentieth century, the public were no longer able to follow along with new findings, let alone have any hope of reproducing important experiments. Of course, contemporary publishers still put out science primers, textbooks, and explainers, but something vital has vanished.

The frontier of scientific discovery has receded from view, moving far beyond what non-specialists can comprehend. These nineteenth-century popularizing books arose during a brief period in which even children could somewhat keep pace with scientific advancement. They offer a crucial window into what has been lost, and reveal how new understandings of sound filtered through Victorian culture and beyond.

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### Victorian Soundscapes

Far from the hushed restraint we associate with the Victorians, their world pulsated with sound. This book shows how, in more ways than one, Victorians were hearing things. The representations close listeners left of their soundscapes offered new meanings for silence, music, noise, voice, and echo that constitute an important part of the Victorian legacy to us today.

In chronicling the shift from Romantic to modern configurations of sound and voice, Picker draws upon literary and scientific works to recapture the sense of aural discovery figures such as Babbage, Helmholtz, Freud, Bell, and Edison shared with the likes of Dickens, George Eliot, Tennyson, Stoker, and Conrad.
https://publicdomainreview.org/essay/science-of-sound/