Rudolph Koenig

Rudolph Koenig
Born(1832-11-26)26 November 1832
Died2 October 1901(1901-10-02) (aged 68)
Paris, France
Known forKoenig's manometric flame apparatus

Karl Rudolph Koenig (26 November 1832 – 2 October 1901) was born in Königsberg of Prussia. Koenig was a businessman, instrument maker, and German physicist, chiefly concerned with acoustic phenomena. He was best known for designing and building acoustical instruments such as the tuning fork and sound analyser.

Family and personal life[edit]

Karl Rudolph Koening was born on 26 November 1832, a descendant of a prominent Königsberg family. Koenig was raised along with his three sisters by his mother: Mathilde (Preuss) Koenig, who came from a craftsman and musical family background, and his father Johann Friedrich Koenig, a professor of mathematics and physics who had studied under the famous Friedrich Bessel.[1] In 1851, Koenig moved to Paris, living in an apartment along the Île Saint-Louis. He lived alone and was never married.[2]

Education[edit]

Rudolph had little education past high school. He attended primary school and had the usual high school at gymnasium. The extent of his formal education was completed in his hometown where his father was among the faculty.[1] Early on it was clear that Rudolph had a keen ear for music and a good sense toward art and literature. Past secondary school, Rudolph began to study physics and mathematics on his own. His self studies were focused early on tone and psychoacoustics.[3] Eventually, he turned to focus more on mechanics and physics. In 1968, he was awarded an honorary doctorate at the University of Koenigsberg.[4]

Career[edit]

Karl Rudolph Koenig was known to be a great craftsman, but a lesser known interest of his was physics. Sounds in particular were a fascination of his, to the point that he spent a large amount of time and money doing research on acoustics. Early on in life, he took a position as an apprentice in the workshop of violin maker Jean-Baptiste Vuillaume. Koenig spent seven years working under Vuillaume until 1858 when he started his own business.[3] In 1859, he released his first work on acoustic apparatus. Koenig's instruments, not just his tuning forks, are still used in the present day.[5]

The business started in his apartment which consisted of a living room, bedroom, and a workshop along with the laboratory. It was a small and quiet place where Koenig worked with his passion of acoustics and music. He would spend most of his free time and money on this same passion. In 1861, Koenig grasped an opportunity to expand and moved his business to Lycée Louis-le-Grand/[3]

Example of tuning fork by John Walker showing note (E) and frequency in hertz (659).

The business employed about three workers, however Koenig made almost all of his own instruments. Koenig was a meticulous worker and personally checked and tuned every instrument that was produced. He was well known in his time to make near perfect instrumentation of high quality.[3]

Although Koenig's lab and workshop were in a quiet place, this did not stop scientists and many other people such as Dayton C. Miller from coming to visit.[3]

Harmonic Motion[edit]

Koenig did not stop at just making instruments however. He would go on to study the graphic method for harmonic motion to which he devoted much time. He even further expanded to compound harmonic motion for both parallel and rectangular vibrations. These studies helped him to present his apparatus in London in 1862 at an international exhibition. This marked the beginning of using the graphic method for other purposes besides just in laboratories.[5]

Products[edit]

Karl Rudolph Koenig produced a variety of devices and acoustic instruments. These devices and instruments include a sound analyzer, tuning forks, double risen, wave machines, resonators, devices for sound visualization, and obtaining ultrasonic frequencies etc.[2]

Sound analyser with 8 resonator balls, by Koenig, 1880, Conservatoire national des Arts et Métiers.
Koenig's manometric flame apparatus (1862), used to visualize sound waves. Air pressure from an acoustic phone altered the flame provided by a Bunsen gas flame, which was amplified by a rotating mirror and recorded

One of Koenig's more interesting devices was a watch with the escapement consisting of a tuning fork that could calibrate the main frequencies of any sound. This apparatus helped Koenig establish the frequencies of musical tones and allowed him to build a musical scale.[4]

Another apparatus was a phonograph which could collect sounds by means of a pavilion. It could automatically record them in a rotating cylinder by means of a point. Some years later, Thomas Edison developed this device to build the Phonograph known today.[4]

Among many other products, Koenig also built measuring instruments which were composed of resonators. He also authored various works on limits of hearing, the physical characterization of vowels and the combination of tones.[4]

In the late 1800s Koenig found out that people were making cheap copies of his acoustical apparatus. He complained about these knock off instruments, stating that some even had his name on them despite the fact that he had nothing to do with their creation.[6]

Timeline[edit]

In 1859, Koenig both published his first catalog, and inverted the phonograph which would play a crucial role for the graphical analysis of sound.[4] By inverting the phonograph, Rudolph made it easier to record and store sounds made by the vibrations of air particles.[7] Around 1860, along with Hermann von Helmholtz, Rudolph Koenig worked to devise an electronically controlled sound. After working alongside him, Koenig became the main maker and seller of Helmholtz's instruments.[8] Two years following this in 1862, he began to exhibit the nano-metric flame apparatus (see attached image and description for more information) at the London Exhibition. This was the first time his nano-metric flame apparatus was displayed to the public.[9]

In 1865,  Koenig published his second catalog, and was awarded a gold medal from the Societe d'Encouragement pOllr l'lndustrie ntuionale for the use of his instruments in working with the study of acoustics .In 1867, his apparatus collection was exhibited in Paris. After few exhibitions, many of Koenig's products began to be sold internationally. A few years following in 1868 he presented all this catalog at the Paris universal exhibition where about 70% of his production was sold.[4]

His wave-sirens as well as most of his other products were shown at Philadelphia exhibition in 1876 at the London Exhibition. The expansion into the United States was met with difficulties. Koenig's expectations for the expansion of his business were not working as he had hoped. He did have some help from his customers, but was not pleased with the results. This led to Koenig having to travel to America in order to retrieve his leftover products and bring them back. It was decided to no longer take part in the exhibition.[citation needed] Following all of this he decided to start doing more of his own research, and also began to write many scientific articles while improving upon his instruments.[citation needed] In 1882 Koenig published Quelques expériences d'acoustique which was the book over his research research of scientific works.[10]

After his death in 1901, some of Koenig's equipment was sent and is now maintained in Conservatoire des Arts et Métiers, Paris. The Smithsonian Institution has since began a collection of Koenig's apparatus including some of his tuning forks. These were donated to the museum by the U.S. Military Academy. Another large amount of Koenig's apparatuses is owned by the University of Toronto's physics department.[11]

See also[edit]

References[edit]

  1. ^ a b Pantalony, David (2009). Altered Sensations: Rudolph Koenig's Acoustical Workshop in Nineteenth-Century Paris. Breinigsville, PA USA: Springer. p. 2. ISBN 978-90-481-2816-7.
  2. ^ a b Greenslade, Thomas B. Jr. (1992). "The acoustical apparatus of Rudolph Koenig". The Physics Teacher. 30 (9): 518–524. Bibcode:1992PhTea..30..518G. doi:10.1119/1.2343629 – via ILLiad.
  3. ^ a b c d e Pantalony, David (2009). Altered Sensations Rudolph Koenig's Acoustical Workshop in Nineteenth-Century Paris. Breinigsville, PA USA: Springer. pp. 46–47. ISBN 978-90-481-2816-7.
  4. ^ a b c d e f Brenni, Paolo. "Nineteenth-century French scientific instrument makers, VI. The triumph of experimental acoustics: Albert Marloye (1795–1874) and Rudolph Koenig (1832–1901) (1995)". Bulletin of the Scientific Instrument Society. 44: 13–17.
  5. ^ a b Stevens, W. Le Conte (8 November 1901). "Rudolph Koenig". Science. 14 (358): 724–727. Bibcode:1901Sci....14..724L. doi:10.1126/science.14.358.724. ISSN 0036-8075. PMID 17781223.
  6. ^ Brenni, Paolo (1995). "The Triumph of Experimental Acoustics: Albert Marloye (1795–1874) and Rudolph Koenig (1832–1901)". Bulletin of the Scientific Instrument Society. 44: 14–16.
  7. ^ Pantalony, David. (2009). Altered sensations: Rudolph Koenig's acoustical workshop in nineteenth-century Paris. Dordrecht: Springer. p. 43. ISBN 978-90-481-2816-7. OCLC 489215799.
  8. ^ Pantalony, David (January 2005). "Rudolph Koenig's Workshop of Sound: Instruments, Theories, and the Debate over Combination Tones". Annals of Science. 62: 57–82. doi:10.1080/00033790410001712183. S2CID 143791144.
  9. ^ Brenni, Paolo (1995). "The Triumph of Experimental Acoustics: Albert Marloye (1795–1874)and Rudolph Koenig (1832–1901)". Bulletin of the Scientific Instrument Society. 44: 14.
  10. ^ Bibliothèque nationale de France
  11. ^ Greenslade, Thomas B. (December 1992). "The Acoustical Apparatus of Rudolph Koenig". The Physics Teacher. 30 (9): 518–519. Bibcode:1992PhTea..30..518G. doi:10.1119/1.2343629.

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