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John Stone Stone (September 24, 1869 – May 20, 1943) was an American mathematician, physicist and inventor. He initially worked in
telephone A telephone is a telecommunications device that permits two or more users to conduct a conversation when they are too far apart to be easily heard directly. A telephone converts sound, typically and most efficiently the human voice, into e ...
research, followed by influential work developing early radio technology, where he was especially known for improvements in
tuning Tuning can refer to: Common uses * Tuning, the process of tuning a tuned amplifier or other electronic component * Musical tuning, musical systems of tuning, and the act of tuning an instrument or voice ** Guitar tunings ** Piano tuning, adjusti ...
. Despite his often advanced designs, the Stone Telegraph and Telephone Company failed in 1908, and he spent the remainder of his career as an engineering consultant.


Biography


Early years

Stone was born in Dover (now
Manakin The manakins are a Family (biology), family, Pipridae, of small Tyranni, suboscine passerine birds. The group contains some 54 species distributed through the American tropics. The name is from Middle Dutch ''mannekijn'' "little man" (also the so ...
) village, in Goochland County,
Virginia Virginia, officially the Commonwealth of Virginia, is a state in the Mid-Atlantic and Southeastern regions of the United States, between the Atlantic Coast and the Appalachian Mountains. The geography and climate of the Commonwealth ar ...
, the son of Charles Pomeroy Stone, an American Civil War Union general and engineer, and Annie Jeannie toneStone. From 1870 until 1883, General Stone held the post of Chief of Staff to the
khedive of Egypt The Khedivate of Egypt ( or , ; ota, خدیویت مصر ') was an autonomous Vassal and tributary states of the Ottoman Empire, tributary state of the Ottoman Empire, established and ruled by the Muhammad Ali Dynasty following the defeat and e ...
, and, while growing up in Cairo, John Stone Stone became fluent in Arabic, French, German and Spanish in addition to English. His father tutored him in mathematics, and following the family's return to the United States, Stone attended
Columbia Grammar & Preparatory School Columbia Grammar & Preparatory School ("Columbia Grammar", "Columbia Prep", "CGPS", "Columbia") is the oldest nonsectarian independent school in New York City, located on the Upper West Side of Manhattan (5 West 93rd Street). The school serves gr ...
in New York City, after which he studied civil engineering for two years at the
Columbia University Columbia University (also known as Columbia, and officially as Columbia University in the City of New York) is a private research university in New York City. Established in 1754 as King's College on the grounds of Trinity Church in Manhatt ...
School of Mines, followed by two years at
Johns Hopkins University Johns Hopkins University (Johns Hopkins, Hopkins, or JHU) is a private university, private research university in Baltimore, Maryland. Founded in 1876, Johns Hopkins is the oldest research university in the United States and in the western hem ...
, where he studied mathematics, physics and theoretical and applied electricity.


Telephone work

After completing his education, in 1890 he began working at the American Bell Telephone Co. in Boston, Massachusetts, in the experimental department of its Research and Development Laboratory. While there, drawing on the work of
Oliver Heaviside Oliver Heaviside FRS (; 18 May 1850 – 3 February 1925) was an English self-taught mathematician and physicist who invented a new technique for solving differential equations (equivalent to the Laplace transform), independently developed vec ...
, he made a rigorous mathematical analysis of the company's development of a long-distance telephone link between New York and Chicago. His later work involved electrical resonance, which he initially investigated for its potential use in an automatic telephone exchange. In 1892, he attempted to wirelessly transmit audio using "high frequency transmissions". This effort was unsuccessful, but the work proved applicable to the development of "wired wireless" (also known as "carrier current") transmissions over telephone lines, although his patent application was later ruled to have been anticipated by Major George O. Squier. In 1893, he developed a "common battery" system for telephone use, which provided, from a central location, the electric current needed to operate subscribers' phones. From 1896 to 1906 he also gave an annual short course of instruction in electrical resonance at the
Massachusetts Institute of Technology The Massachusetts Institute of Technology (MIT) is a private land-grant research university in Cambridge, Massachusetts. Established in 1861, MIT has played a key role in the development of modern technology and science, and is one of the ...
to graduating classes in physics and electrical engineering.


Radio development

In 1899, Stone resigned from his telephone company position and began to work in Boston as an independent consulting engineer, although he was also retained by his former employer as a "Consultant and Expert in patent causes". His first client was Herman W. Ladd, who was attempting to perfect his "Telelocograph" system for using radio signals as "wireless lighthouses" and for navigational direction-finding. Ladd's approach turned out to be impractical, but the work gave Stone insight about the difficulties facing the embryonic technology of radiotelegraphic signalling, and he recognized that his earlier work on resonant circuits on telephone lines could be applied to improve radio transmitter and receiver designs. Moreover, unlike most other early radio experimenters, Stone had the mathematical background needed to fully analyze electrical circuits. In late 1900, the Stone Wireless Telegraphy Syndicate was started in Boston, with an initial funding of $10,000, to do experimental work in devising a commercial system. Stone used his knowledge of electrical tuning to develop a "high selectivity" approach to reduce the amount of interference caused by static and signals from other stations. Starting with Tesla-style open-core electrical transformers, he developed adjustable "selective four-circuit tuning" that employed "loose coupling" to help insure that the transmitter and receiver were operating on a single common frequency. (In some cases an extra intermediary "weeding out" circuit was added, for additional selectivity. In contrast, transmitters operated by most other companies employed "close coupling" that produced signals on two separate frequencies). He also took special care to mathematically analyze transmitter and receiver designs to increase efficiency and reduce losses. In early 1900, he applied for a U.S. patent for his tuning work, which was divided into three patents that were issued in 1901 and 1902. In mid-1902 the Stone Telegraph and Telephone Company, also based in Boston, was formed, in order to begin commercial operations. Stone acted as Chief Engineer, and two stations separated by sixteen kilometers (ten miles) were constructed at Cambridge and Lynn, Massachusetts. Beginning in 1905, demonstration radiotelegraph stations, using spark transmitters and electrolytic detectors, were installed for evaluation by the U.S. Navy. By the end of 1906, the government had purchased five ship and three land installations. The company's first commercial radiotelegraph link was between the Isle of Shoals and Portsmouth, New Hampshire, which operated during the summer of 1905, replacing a failed Western Union telegraph cable. In 1907 Stone founded, and served as the president of, the Society of Wireless Telegraph Engineers (SWTE), which was created as an educational resource for his company's employees. (This organization would be merged with the New York-based "The Wireless Institute" in 1912, creating the
Institute of Radio Engineers The Institute of Radio Engineers (IRE) was a professional organization which existed from 1912 until December 31, 1962. On January 1, 1963, it merged with the American Institute of Electrical Engineers (AIEE) to form the Institute of Electrical a ...
.) In 1906 the company tested a ship-borne "direction-finder" designed by Stone that, although fairly accurate, proved impractical as it required the entire ship to turn in order to take readings. Operating as a small independent concern, Stone found that he could not keep up with the advances in the industry, and in 1908 his company suspended operations, and was placed into receivership. Its assets, including its valuable portfolio of patents, were sold to Lee DeForest's Radio Telephone Company, for $10,000 cash and $300,000 of stock. In early 1911, he moved to New York City, once again working as a consultant. He also gained prominence as an independent expert, testifying in numerous radio patent cases. In 1912, he acted as an intermediary, making arrangements for Lee DeForest to demonstrate an early version of his three-electrode
audion The Audion was an electronic detecting or amplifying vacuum tube invented by American electrical engineer Lee de Forest in 1906.De Forest patented a number of variations of his detector tubes starting in 1906. The patent that most clearly covers ...
vacuum-tube to AT&T engineers, who re-engineered the device into an amplifier that was capable of establishing transcontinental telephone service. In 1914-1915 Stone served as president of the Institute of Radio Engineers.


Later life

In 1919 he permanently moved to San Diego, California, where his ailing mother resided. Here he became "an associate at large of the Department of Development & Research of the American Telephone and Telegraph Company" until his retirement in 1934. Once married and divorced, Stone died in San Diego, California on May 20, 1943, and was buried in Mt. Hope cemetery alongside his mother Jeanne Stone and sister Egypta Stone Wilson. Shortly after his death, the U.S. Supreme Court upheld a 1935 decision by the Court of Claims, which ruled that his 1900 tuning patent had priority over the U.S. counterpart (763,772) to Marconi's "four sevens" patent.


Legacy

John Stone Stone was issued about 120 patents in the United States, and a similar number in other countries, covering telegraph and telephone devices and radio technology. He won the
Franklin Institute The Franklin Institute is a science museum and the center of science education and research in Philadelphia, Pennsylvania. It is named after the American scientist and statesman Benjamin Franklin. It houses the Benjamin Franklin National Memori ...
Edward Longstreth Medal The Franklin Institute is a science museum and the center of science education and research in Philadelphia, Pennsylvania. It is named after the American scientist and statesman Benjamin Franklin. It houses the Benjamin Franklin National Memori ...
in 1913. He was also awarded the Institute of Radio Engineers' Medal of Honor in 1923, "For his valuable pioneer contributions to the radio art", and at the presentation ceremony, Frederick A. Kolster acknowledged his contributions with the following: "No man has contributed more to the advancement of the Radio Science than has John Stone Stone, and no man is more thoroughly entitled to the full and grateful appreciation of the entire Radio World."


Other activities

Among his political and other activities, he served as a member of the
American Defense Society The American Defense Society (ADS) was a nationalist American political group founded in 1915. The ADS was formed to advocate for American intervention in World War I against the German Empire. The group later stood in opposition to the Bolshevi ...
's Board of Trustees. He was also a fellow of the
American Academy of Arts and Sciences The American Academy of Arts and Sciences (abbreviation: AAA&S) is one of the oldest learned societies in the United States. It was founded in 1780 during the American Revolution by John Adams, John Hancock, James Bowdoin, Andrew Oliver, and ...
, a fellow of the
American Association for the Advancement of Science The American Association for the Advancement of Science (AAAS) is an American international non-profit organization with the stated goals of promoting cooperation among scientists, defending scientific freedom, encouraging scientific respons ...
; past president and vice-president of the Society of Wireless Telegraph Engineers; vice-president of the Wireless Telegraph Association of America; member of the American Electrochemical Society; Associate of the
American Institute of Electrical Engineers The American Institute of Electrical Engineers (AIEE) was a United States-based organization of electrical engineers that existed from 1884 through 1962. On January 1, 1963, it merged with the Institute of Radio Engineers (IRE) to form the Instit ...
; member of the Society of Arts of the Massachusetts Institute of Technology; member of the Mathematical and Physical Club; the Alpha Delta Phi Fraternity,"The Johns Hopkins Chapter"
''Catalogue of the Alpha Delta Phi Society'' (1899), page 641. the Johns Hopkins Alumni Association of New England and a hereditary member of the
Aztec Club of 1847 The Aztec Club of 1847 is a military society founded in 1847 by United States Army officers of the Mexican–American War. It exists as a hereditary organization including members who can trace a direct lineal connection to those originally eligib ...
. He was also a member of the St. Botolph, Technology and
Papyrus Papyrus ( ) is a material similar to thick paper that was used in ancient times as a writing surface. It was made from the pith of the papyrus plant, '' Cyperus papyrus'', a wetland sedge. ''Papyrus'' (plural: ''papyri'') can also refer to a ...
clubs of Boston, the National Arts Club of New York, the Army and Navy Club, and
Cosmos Club The Cosmos Club is a 501(c)(7) private social club in Washington, D.C. that was founded by John Wesley Powell in 1878 as a gentlemen's club for those interested in science. Among its stated goals is, "The advancement of its members in science, ...
of Washington, D.C.National cyclopaedia of American biography. (1892).


Publications by John Stone Stone


"Theory of Wireless Telegraphy"
''Transactions of the 1904 Saint Louis International Electrical Congress'', Volume III, pages 555–577.
"Interference In Wireless Telegraphy"
''Transactions of the Canadian Society of Civil Engineers''. Montreal: Canadian Society of Civil Engineers, March 9, 1905, pages 164–182.
"The Periodicities and Damping Coefficients of Coupled Oscillators"
Read before the Society of Wireless Telegraph Engineers. ''Electrical Review & Western Electrician'', December 3, 1910 (No. 19098), pages 1145–1149. (ed., Deduces expressions for the damping coefficients and periodicities of two coupled oscillators which will yield correct results in all practical cases.)
"Notes on the Oscillation Transformer"
''Electrical World'', January 19, 1911 (No. 20296) pages 175–177. (ed., Mathematical determination of the constants of oscillation transformers used in wireless telegraphy.)
"Maximum Current In The Secondary of a Transformer"
''Society of Wireless Telegraph Engineers held at Boston, Massachusetts'', American Institute of Physics, American Physical Society, & Cornell University, ''Physical Review'', Lancaster, Pennsylvania. tc. Published for the American Physical Society by the American Institute of Physics tc. Volume XXXII No. 4 (April 1911), pages 398–405.
"An Expert's Views"
(April 18, 1912, correspondence), ''Electrician and Mechanic'', June 1912, page 418. Boston, Massachusetts, Sampson Publishing Co.
"The Practical Aspects of The Propagation of High-frequency Electric Waves Along Wires"
''Journal of the Franklin Institute'', Vol. CLXXIV No. 4 (October 1912), pages 353–384. *
"The Resistance of the Spark and Its Effect on the Oscillations of Electrical Oscillators"
''Proceedings of the Institute of Radio Engineers'', Volume 2 By Institute of Radio Engineers, May 13, 1914, pages 307–324. (ed., Abstract of paper read before the Institute of Radio Engineers)


Patents

* - ''Electric cable'' (1892) * - ''Development and distribution of electricity'' (1892) * - ''Resonant electric circuit'' (1897) *Stone, M S, ''Electric Circuit'', US patent 0 578 275, filed September 10, 1896, issued March 2, 1897. * - ''Differential electromagnet'' (1899) * - ''Method of selective electric signaling'' (1902) * - ''Apparatus for selective signalling'' (1902) * - ''Apparatus for amplifying electromagnetic signal waves'' (1902) * - ''Apparatus for amplifying electromagnetic signal waves'' (1902) * - ''Apparatus for selective electric signaling'' (1902) * - ''Method of determining the direction of space-telegraph signals'' (1902) * - ''Method of electrical distribution'' (1902) * - ''Method of relaying space telegraph signals'' (1902) * - ''Method of relaying space telegraph signals'' (1902) * - ''Method of tuning vertical wire oscillators'' (1902) * - ''Tuned electric oscillator'' (1902) * - ''Method of relaying space telegraph signals'' (1902) * - ''Apparatus for relaying space telegraph signals'' (1902) * - ''Method of electrical distribution'' (1902) * - ''Electrical distribution and selective distribution'' * - ''Method of electrical distribution and selective distribution'' * - ''Electrical apparatus and circuit for electrical distribution and selective distribution'' * - ''Apparatus for simultaneously transmitting and receiving space telegraph signals'' (1904) * - ''Wireless telegraph receiving device'' (1904) * - ''Method of receiving space telegraph signals'' (1904) * - ''Method of increasing the effective radiation of electromagnetic waves'' (1904) * - ''Apparatus for increasing the effective radiation of electromagnetic waves'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1904) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1905) * - ''Space telegraphy'' (1908) * - ''Space telegraphy'' (1908) * - ''Space telegraphy'' (1908) * - ''Space telegraphy'' (1908) * - ''Space telegraphy'' (1908) * - ''Secret communication system'' (1925) * - ''Signaling system'' (1926) * - ''Directive antenna array'' (1928) * - ''Radio receiving system'' (1931) * - ''Radio receiving system'' (1934) * - ''Frequency selective communication system'' (1935) * - ''Composite oscillator for electromagnetic wave'' (1936)


See also

;Main:
Invention of radio The invention of radio communication was preceded by many decades of establishing theoretical underpinnings, discovery and experimental investigation of radio waves, and engineering and technical developments related to their transmission and d ...
,
electromagnetic wave In physics, electromagnetic radiation (EMR) consists of waves of the electromagnetic (EM) field, which propagate through space and carry momentum and electromagnetic radiant energy. It includes radio waves, microwaves, infrared, (visib ...
s,
mutual inductance Inductance is the tendency of an electrical conductor to oppose a change in the electric current flowing through it. The flow of electric current creates a magnetic field around the conductor. The field strength depends on the magnitude of th ...
,
high frequency High frequency (HF) is the ITU designation for the range of radio frequency electromagnetic waves (radio waves) between 3 and 30 megahertz (MHz). It is also known as the decameter band or decameter wave as its wavelengths range from one to ten ...
,
alternating current Alternating current (AC) is an electric current which periodically reverses direction and changes its magnitude continuously with time in contrast to direct current (DC) which flows only in one direction. Alternating current is the form in whic ...
;General:
bolometer A bolometer is a device for measuring radiant heat by means of a material having a temperature-dependent electrical resistance. It was invented in 1878 by the American astronomer Samuel Pierpont Langley. Principle of operation A bolometer ...
,
Lloyd Espenschied Lloyd Espenschied (April 27, 1889 – June 21, 1986) was an American electrical engineer who invented the modern coaxial cable with Herman Andrew Affel. Early life and education Lloyd Espenschied was born in Baden, North St. Louis, Miss ...
,
Boston Navy Yard The Boston Navy Yard, originally called the Charlestown Navy Yard and later Boston Naval Shipyard, was one of the oldest shipbuilding facilities in the United States Navy. It was established in 1801 as part of the recent establishment of t ...
;Radio:
spark gap transmitter A spark-gap transmitter is an obsolete type of radio transmitter which generates radio waves by means of an electric spark."Radio Transmitters, Early" in Spark-gap transmitters were the first type of radio transmitter, and were the main type use ...
,
break key The Break key (or the symbol ⎉) of a computer keyboard refers to breaking a telegraph circuit and originated with 19th century practice. In modern usage, the key has no well-defined purpose, but while this is the case, it can be used by softwar ...
,
wireless telegraph Wireless telegraphy or radiotelegraphy is transmission of text messages by radio waves, analogous to electrical telegraphy using cables. Before about 1910, the term ''wireless telegraphy'' was also used for other experimental technologies for ...
,
antenna Antenna ( antennas or antennae) may refer to: Science and engineering * Antenna (radio), also known as an aerial, a transducer designed to transmit or receive electromagnetic (e.g., TV or radio) waves * Antennae Galaxies, the name of two collid ...


Further reading


Stone, John Stone
. In Homans, J. E., In Linen, H. M., & In Dearborn, L. E. (1918). The cyclopedia of American biography. New York: The press association compilers, inc. * * J. S. Stone,
Interference Due To Static Charges
Transactions of the Canadian Society of Civil Engineers, Volumes 18-19 By Canadian Society of Civil Engineers * Stone's systems of selective wireless telegraph i
The Electrical world and engineer. (1903). New York: McGraw Pub. Co Page 700
;General information *
Stone, John Stone
. The National cyclopedia of American biography: Being the history of the United States as illustrated in the lives of the founders, builders, and defenders of the republic, and of the men and women who are doing the work and moulding the thought of the present time. (1910). New York: J. T. White. Page 106. * Clark, G. H. (1946)
''The life of John Stone Stone: Mathematician, physicist, electrical engineer and great inventor''
San Diego, Calif: Lithographed by Frye & Smith, ltd. * Homans, J. E., Linen, H. M., & Dearborn, L. E. (1900). The cyclopedia of American biography. New York: The press association compilers. "
John Stone Stone
'". Page 369 - 370. * Anderson, L. I. (ed.),
John Stone Stone, Nikola Tesla's Priority in Radio and Continuous-Wave Radiofrequency Apparatus
.
The AWA Review The Antique Wireless Association (AWA) is chartered as a non-profit educational organization in New York State and is an IRS 501(c)(3) tax-exempt corporation based in Bloomfield, New York. It was originally established in 1952 by Bruce Kelley, Geor ...
, Vol. 1. 1986. 24 pages, illustrated. (ed., available at Twenty First Century Books) * Fleming, J. A. (1910)
The principles of electric wave telegraphy
London: New York tc. "
Patents of John Stone Stone for Electric Wave Wireless Telegraphy
'", Page 613 - 618. * The Encyclopedia Americana; A library of universal knowledge. (1918). New York: Encyclopedia Americana Corp. "
Electric Wave Localizer
'". Page 355 - 356. * Collins, A. F. (1905)
Wireless telegraphy; Its history, theory and practice
New York: McGraw Pub.


References


External links


"What Everyone Should Know About Radio History"
(part II) by Prof. J. H. Morecroft, ''Radio Broadcast'', August 1922, pages 294–302. * "

'". Adventures in Cybersound. * "
John Stone Stone 1869 - 1943
'" IEEE History Center. IEEE, 2003. {{DEFAULTSORT:Stone, John Stone Columbia School of Engineering and Applied Science alumni American electronics engineers IEEE Medal of Honor recipients Johns Hopkins University alumni Radio pioneers 1869 births 1943 deaths Columbia Grammar & Preparatory School alumni