Mysteries of Sound – INDIE ROCK CAFE

In Upper Black Eddy, Pennsylvania, Ringing Rocks Park‘s namesake is also its main attraction.

This rare park attracts locals and tourists specifically on a quest to discover one of Nature’s many intrigues – ringing rocks.

The adaptly-named park has the worldwide distinction of being one of few natural areas where boulders emit sounds, at varying tones, when banged on using a hammer or another rock.

While there appears there is no official scientific understanding of how the rocks ‘ring’ when struck, the theory is that rare minerals like diabase, along with crystalline structures, inside the rock are the keys to the mystery.

Diabase, also known as dolerite, contains subvolcanic holocrystalline and mafic rock, and is equivalent to volcanic basalt and plutonic gabbro.

The iron-rich diabase, together with crystalline, in the large boulders at Ringing Rocks vibrate when struck, producing melodic resonant tones.

Futhermore, fracture lines within the rocks, coupled with mineral alignments, enhance the transmission of sound waves, thereby amplifying the overall ‘ringing’ effect.

Some artists have gravitated to the natural allure of these resonant boulders and set to lay down a musical legacy – however small – harnessing the park’s unique acoustic qualitifies for their own recordings.

One local musical group named Square Peg Round Hole have done just that at Ringing Rocks, creating acoustic harmonies by syncing varying tones of rocks into creating ‘natural song.’

Square Peg Round Hole, we’re sure, are not the only ones. There’s no good way to track who used ringing rocks for recordings.

But we do know is that ‘playing’ rocks for musical sake is not something new. Not new at all, in fact.

Back in the 1840s, a family of rock ringers from the English countryside entertained audiences in quite a unique way.

Newspapers from the time ran advertisements declaring the family, no kidding, as the ‘original monstre rock band’ performing ‘solid rock.’

The creation of a Keswick, England stonemason named Joseph Richardson, the ‘original monstre rock band’ soon became a headlining act.

In 1841, Richardson and his three sons began performing concerts, slinging and walloping mallets on the harmonicon and amazing audiences with their innovative classical repertoire.

One newspaper, The Athenaeum, exuberantly proclaimed the Richardson’s performance as ‘fabled things made real’ and hailing Richardson himself as a ‘shipwreck Mozart’ for his ability to create beauty from the crudest and most unlikely materials.

According to the family descendants’ official website, the band performed on February 23, 1848 at Buckingham Palace “before a whole host of European royalty, aristocracy and dignitaries.

“It must have been an overwhelming experience for Joseph and his three sons, but, by all accounts, they were so professional by that time that they carried off the performance with aplomb.”

“Queen Victoria, although she had heard the Band play before, was very impressed and, together with Albert, requested a couple of encores. Although she commented that she didn’t really like the addition of the Swiss Bells (which had been added since her last hearing), she gave the performance her royal approval.”

Initially, it took some years before the band was ready to go on stage, not because of nerves, but because their main instrument was still being created.

From 1827 to 1840, Richardson gathered and meticulously chipped pieces of metamorphic rock called hornfels.

Imagine that; after 13 years of deliberate and patient work, he completed his five-octave ‘rock harmonicon,’ comprising of a total of 61 stones aligned 12 feet long.

Richardson’s harmonicon was hewn of rocks from the volcanic mountain of Skiddaw, and is considered part of the lithophone family of instruments – such as a modern xylophone or glockenspiel – featuring stone bars shaped, assembled and tuned accordingly.

The largest rock was approximately three feet long and measured at an octave below middle C, while the smallest stone was only six inches long.

The stone was laid upon twisted straw across a pair of wooden bars. An assortment of specialized leather and wooden mallets were used to actually play the instrument.

Differently than ‘ringing rocks,’ Richardson’s harmonicon was actually constructed specificially because the hornfels he used were meant to dampen the vibrations immediately due to the greater density and minerals of internal structure.

Sound plays a much larger role in the ebb and flow of life on our planet than most people fully appreciate.

More specifically, sounds warn, inform and guide us, trigger emotions and help us make better sense of the world around us and our place in the order of things.

The mysteries and wonders of the spectrums of sound generally intrigues us.

From loving warbles of a morning dove at the first light of dawn to the golden silence of a summer afternoon breeze to the ferocious crackles of thunder to the plip-plop of the falling rain, sounds fill our lives.

One of the most exciting and beautiful expressions of sound is found within the scientific artform of cymatics.

Cymatics was first documented in the 1880s by German physicist and musician Ernst Chladni. He demonstrated the process of using sound vibrations via varying frequencies to manifest geometeric patterns of sand.

Chlandi took a metal plate, spread sand along the top and then ran a violin bow on the edges. As he did this, the sand settled into distinct geometric patterns, depending on the frequencies of the sound waves.

No magic tricks. No hoaxing. Simply a mystery of science.

Later, during the 1960’s, Swiss physician Hans Jenny expanded upon Chladni’s experiments, delving into the study of vibrational phenomena and coining the term “cymatics”.

Then, visual artist Jeff Louviere stumbled upon the works of Jenny and Chladni. Intrigued, he and his partner, photographer Vanessa Brown, conducted a series of experiments exploring the visual manifestations of sound on matter.

Their endeavors culminated in the production of Resonantia (‘echo’ in Latin), a multimedia project featuring a dozen images generated by the cymatics process.

Importantly, it is not necessary to be a scientist to experiment with cymatics. Cymatics is able to be tested by anyone.

By using a metal plate with tiny piles of sand on it, hooked up to a machine that transmits sound, this YouTuber was able to demonstrate that different frequencies caused the sand grains to form their own unique, and consistent, geometrics patterns, as demonstrated in the video below.

The question that cannot be overlooked is: how do the grains of sand ‘know’ how to formulate into unique patterns based on the type of sound waves being received? It doesn’t matter who or where you are in the world, when conducted properly, the same geometric patterns correspond to a specific frequency.

Is this the language, the expression, of God? What else in our known existence could be instructing these sand grains to work together to form specific and perfect geometric patterns?

In essence, each individual grain of sand is a receiver and performs a function in unison with neighboring grains of sand depending on which frequency is presented.

Are the sand grains, somehow, one collective consciousness working together in some mysterious way that humans are unable to comprehend the reason, yet see clearly the end result?

How else is this amazing behavior of Nature possible? The metal plate is simply a conduit, essentially the transmitter of the message.

The images themselves are a creative example of physics at work. “It’s kind of a classic demonstration in acoustics,” says Trevor Cox, a professor of acoustic engineering at the University of Salford in England. “These are actual physical patterns.”

Every object has a characteristic frequency, or frequencies, at which it vibrates most, with the least input of energy. Those vibrations are associated with standing wave patterns called modes.

“What’s happening is, the sand is moving away from the bits [on the plate] where it’s vibrating a lot” says Cox, and it’s settling in places where there are no vibrations (these places are called “nodes”). And, “if you up the frequency, you’ll find the patterns get really complicated,” because more of those nodes occur.

All sounds on Earth are pressurized acoustic vibrations, or disturbances, in and through either a liquid (water), gas (air) or solid form, and as a result, manifest into different and specific sound wave patterns that affect everything else within their reach.

Regardless of how technical the actual science and mathematics behind cymatics are, it remains a challenge to apply an everyday explanation and logic to this wonderfully beautiful enigma of the world around us.

Category: Mysteries of Sound

The Mysterious Beauty of Sound, Vol. II – From Ringing Rocks to Victorian ‘Monstre Rock’

The Mysterious Beauty of Sound – The Cymatics Effect