Guglielmo Marconi

Guglielmo Marconi Guglielmo Marconi
Born	March 25 1874(1874--) Palazzo Marescalchi, Bologna, Italy
Died	July 20 1937 (aged 63) Rome, Italy
Residence	Italy, UK
Nationality	Italian
Field	Electrical engineer
Institutions	Marconi Wireless Telegraph Co. Ltd.
Alma mater	None
Known for	Radio
Notable prizes	Nobel Prize for Physics (1909)
Religion	Roman Catholic

Guglielmo Marconi [guʎ'ʎe:lmo mar'ko:ni] (25 April 1874 - 20 July 1937) was an Italian inventor of mixed Italian and Irish ethnicity, best known for his development of a radiotelegraph system, which served as the foundation for the establishment of numerous affiliated companies worldwide. He shared the 1909 Nobel Prize in Physics with Karl Ferdinand Braun, "in recognition of their contributions to the development of wireless telegraphy".^[1] Later in life, Marconi was an active Italian Fascist^[2] and an apologist for their ideology (such as the attack by Italian forces in Ethiopia).

Birth and early years

Marconi was born near Bologna, Italy, the second son of Giuseppe Marconi, an Italian landowner, and his Irish wife, Annie Jameson, granddaughter of the founder of the Jameson Whiskey distillery. Marconi was educated in Bologna, Florence and, later, in Livorno. As a child Marconi didn't do well in school. Baptized as a Catholic, he was brought up Protestant by his mother and was a member of the Anglican Church.

Radio work

During his early years, Marconi had an interest in science and electricity. One of the scientific developments during this era came from Heinrich Hertz, who, beginning in 1888, demonstrated that one could produce and detect electromagnetic radiation—now generally known as "radio waves", at the time more commonly called "Hertzian waves" or "aetheric waves". Hertz's death in 1894 brought published reviews of his earlier discoveries, and a renewed interest on the part of Marconi. He was permitted to briefly study the subject under Augusto Righi, a University of Bologna physicist who had done research on Hertz's work.

Early experimental devices

Marconi began to conduct experiments, building much of his own equipment in the attic of his home at the Villa Griffone in Pontecchio, Italy. His goal was to use radio waves to create a practical system of "wireless telegraphy"—i.e. the transmission of telegraph messages without connecting wires as used by the electric telegraph. This was not a new idea—numerous investigators had been exploring wireless telegraph technologies for over 50 years, but none had proven commercially successful. Marconi did not discover any new and revolutionary principle in his wireless-telegraph system, but rather he assembled and improved an array of facts, unified and adapted them to his system.^[3] Marconi's system had the following components:^[4]

• A relatively simple oscillator, or spark producing radio transmitter, which was closely modeled after one designed by Righi, in turn similar to what Hertz had used;
• A wire or capacity area placed at a height above the ground;
• A coherer receiver, which was a modification of Edouard Branly's original device, with refinements to increase sensitivity and reliability;
• A telegraph key to operate the transmitter to send short and long pulses, corresponding to the dots-and-dashes of Morse code; and
• A telegraph register, activated by the coherer, which recorded the transmitted Morse code dots-and-dashes onto a roll of paper tape.

Similar configurations using spark-gap transmitters plus coherer-receivers had been tried by others, but many were unable to achieve transmission ranges of more than a few hundred metres. This was not the case for all researchers in the field of the wireless arts, though. ^[5][6]

At first, Marconi could only signal over limited distances. In the summer of 1895 he moved his experimentation outdoors. After increasing the length of the transmitter and receiver antennas, and arranging them vertically, and positioning the antenna so that it touched the ground, the range increased significantly.^[7] (Although Marconi may not have understood until later the reason, the "ground connections" allowed the earth to act as a waveguide resonator for the surface wave signal.^[8]) Soon he was able to transmit signals over a hill, a distance of approximately 1.5 kilometres (1 mile). By this point he concluded that with additional funding and research, a device could become capable of spanning greater distances and would prove valuable both commercially and militarily.

Finding limited interest in his work in Italy, in early 1896 at the age of 21, Marconi traveled to London, England, accompanied by his mother to seek support for his work. (Marconi spoke fluent English in addition to Italian.) While there, he gained the interest and support of William Preece, the Chief Electrical Engineer of the British Post Office. The apparatus that Marconi possessed at that time was strikingly similar to that of one in 1882 by A. E. Dolbear, of Tufts College, which used a spark coil generator and a carbon granular rectifier for reception.^[9][10] A series of demonstrations for the British government followed—by March, 1897, Marconi had transmitted Morse code signals over a distance of about 6 kilometres (4 miles) across the Salisbury Plain. On 13 May 1897, Marconi sent the first ever wireless communication over water. It transversed the Bristol Channel from Lavernock Point (South Wales) to Flat Holm Island, a distance of 14 kilometres (8.7 miles). The message read "Are you ready". ^[11]

Impressed by these and other demonstrations, Preece introduced Marconi's ongoing work to the general public at two important London lectures: "Telegraphy without Wires", at the Toynbee Hall on 11 December 1896; and "Signalling through Space without Wires", given to the Royal Institute on 4 June 1897.

Numerous additional demonstrations followed, and Marconi began to receive international attention. In July, 1897 he carried out a series of tests at La Spezia in his home country, for the Italian government. A test for Lloyds between Ballycastle and Rathlin Island, Ireland, was conducted on 6 July, 1898. The English channel was crossed on 27 March 1899, from Wimereux, France to South Foreland Lighthouse, England, and in the fall of 1899, the first demonstrations in the United States took place, with the reporting of the America's Cup international yacht races at New York. According to the Proceedings of the United States Naval Institute by the United States Naval Institute, the Marconi instruments were tested around 1899 and the tests concerning his wireless system found that the "[...] coherer, principle of which was discovered some twenty years ago, [was] the only electrical instrument or device contained in the apparatus that is at all new". ^[12]

Transatlantic transmissions

Around the turn of the century, Marconi began investigating the means to signal completely across the Atlantic, in order to compete with the transatlantic telegraph cables. Marconi soon made the announcement that on 12 December 1901, using a 122-metre (400-foot) kite-supported antenna for reception, the message was received at Signal Hill in St John's, Newfoundland (now part of Canada) signals transmitted by the company's new high-power station at Poldhu, Cornwall. The distance between the two points was about 3,500 kilometres (2,100 miles). Heralded as a great scientific advance, there was also some skepticism about this claim, partly because the signals had been heard faintly and sporadically. There was no independent confirmation of the reported reception, and the transmission, consisting of the Morse code letter S sent repeatedly were difficult to discern from atmospheric noise. (A detailed technical review of Marconi's early transatlantic work appears in John S. Belrose's work of 1995.)^[14] The Poldhu transmitter was a two-stage circuit.^[15][16] The first-stage possessed lower voltage and provided the energy for the second stage in resonance. Nikola Tesla, a rival in transalantic transmission, stated after being told of Marconi's reported transmission that "Marconi [... was] using seventeen of my patents."^[17][18]

Feeling challenged by skeptics, Marconi prepared a better organized and documented test. In February, 1902, the SS Philadelphia sailed west from Great Britain with Marconi aboard, carefully recording signals sent daily from the Poldhu station. The test results produced coherer-tape reception up to 2,496 kilometres (1,551 miles), and audio reception up to 3,378 kilometres (2,099 miles). Interestingly, the maximum distances were achieved at night, and these tests were the first to show that for mediumwave and longwave transmissions, radio signals travel much farther at night than in the day. During the daytime, signals had only been received up to about 1,125 kilometres (700 miles), less than half of the distance claimed earlier at Newfoundland, where the transmissions had also taken place during the day. Because of this, Marconi had not fully confirmed the Newfoundland claims, although he did prove that radio signals could be sent for hundreds of kilometres, despite some scientists's belief they were essentially limited to line-of-sight distances.

On 17 December 1902, a transmission from the Marconi station in Glace Bay, Nova Scotia, Canada, became the first radio message to cross the Atlantic in an eastward direction. On 18 January 1903, a Marconi station built near Wellfleet, Massachusetts in 1901 sent a message of greetings from Theodore Roosevelt, the President of the United States, to King Edward VII of the United Kingdom, marking the first transatlantic radio transmission originating in the United States. However, consistent transatlantic signalling was difficult to establish.

Marconi began to build high-powered stations on both sides of the Atlantic to communicate with ships at sea, in competition with other inventors. In 1904 a commercial service was established to transmit nightly news summaries to subscribing ships, which could incorporate them into their on-board newspapers. A regular transatlantic radiotelegraph service was finally announced in 1907, but even after this the company struggled for many years to provide reliable communication.

Titanic

The two radio operators aboard the Titanic were not employed by the White Star Line but by the Marconi International Marine Communication Company. Following the sinking of the ocean liner, survivors were rescued by the Carpathia. When it docked in New York, Marconi went aboard with a reporter from the New York Times.^[19] On 18 June 1912, Marconi gave evidence to the Court of Inquiry into the loss of the Titanic regarding the marine telegraphy's functions and the procedures for emergencies at sea.^[20]

Patent disputes

''Main articles: invention of radio and history of radio.

Marconi's work built upon the discoveries of numerous other scientists and experimenters. His original "two-circuit" equipment, consisting of a spark-gap transmitter plus a coherer-receiver, was similar to those used by other experimenters, and in particular to that employed by Oliver Lodge in a series of widely reported demonstrations in 1894. There were claims that Marconi was able to signal for greater distances than anyone else when using the spark-gap and coherer combination, but these have been disputed (notably by Tesla).^[21]

In 1900 Alexander Stepanovich Popov stated to the Congress of Russian Electrical Engineers that: "[...] the emission and reception of signals by Marconi by means of electric oscillations [was] nothing new. In America, the famous engineer Nikola Tesla carried the same experiments in 1893."^[22]

The Fascist regime in Italy credited Marconi with the first improvised arrangement in the development of radio.^[23] There was controversy whether his contribution was sufficient to deserve patent protection, or if his devices were too close to the original ones developed by Hertz, Popov, Branley, Tesla, and Lodge to be patentable.

While Marconi did pioneering demonstrations for the time, his equipment was limited by being essentially untuned, which greatly restricted the number of spark-gap radio transmitters which could operate simultaneously in a geographical area without causing mutually disruptive interference. (Continuous-wave transmitters were naturally more selective and less prone to this deficiency). Marconi addressed this defect with a patent application for a much more sophisticated "four-circuit" design, which featured two tuned-circuits at both the transmitting and receiving antennas. This was issued as British patent number 7,777 on 26 April 1900. However, this patent came after significant earlier work had been done on electrical tuning by Nikola Tesla. (As a defensive move, in 1911 the Marconi Company purchased the Lodge-Muirhead Syndicate, whose primary asset was Oliver Lodge's 1897 tuning patent.) Thus, the "four-sevens" patent and its equivalents in other countries was the subject of numerous legal challenges, with rulings which varied by jurisdiction, from full validation of Marconi's tuning patent to complete nullification.

In 1943, a lawsuit regarding Marconi's numerous other radio patents was resolved in the United States. The court decision was based on the prior work conducted by others, including Nikola Tesla, Oliver Lodge, and John Stone Stone, from which some of Marconi patents (such as U.S. Patent 763,772 ) stemmed. The U. S. Supreme Court stated that,

The Tesla patent No. 645,576, applied for September 2, 1897 and allowed March 20, 1900, disclosed a four-circuit system, having two circuits each at transmitter and receiver, and recommended that all four circuits be tuned to the same frequency. [... He] recognized that his apparatus could, without change, be used for wireless communication, which is dependent upon the transmission of electrical energy.^[24]

In making their decision, the court noted,

Marconi's reputation as the man who first achieved successful radio transmission rests on his original patent, which became reissue No. 11,913, and which is not here [320 U.S. 1, 38] in question. That reputation, however well-deserved, does not entitle him to a patent for every later improvement which he claims in the radio field. Patent cases, like others, must be decided not by weighing the reputations of the litigations, but by careful study of the merits of their respective contentions and proofs."^[25]

The court also stated that,

It is well established that as between two inventors priority of invention will be awarded to the one who by satisfying proof can show that he first conceived of the invention."^[26]

The case was resolved in the U.S. Supreme Court by overturning most of Marconi's patents. At the time, the United States Army was involved in a patent infringement lawsuit with Marconi's company regarding radio, leading observers to posit that the government nullified Marconi's other patents to render moot claims for compensation (as, it is speculated, the government's initial reversal to grant Marconi the patent right in order to nullify any claims Tesla had for compensation). In contrast to the United States system, Mr. Justice Parker of the British High Court of Justice upheld Marconi's "four-sevens" tuning patent. These proceedings made up only a part of a long series of legal struggles, as major corporations jostled for advantage in a new and important industry.

Continuing work

	Have I done the world good, or have I added a menace?[27]

Over the years, the Marconi companies gained a reputation for being technically conservative, in particular by continuing to use inefficient spark-transmitter technology, which could only be used for radiotelegraph operations, long after it was apparent that the future of radio communication lay with continuous-wave transmissions, which were more efficient and could be used for audio transmissions. Somewhat belatedly, the company did begin significant work with continuous-wave equipment beginning in 1915, after the introduction of the oscillating vacuum tube (valve). In 1920, employing a vacuum tube transmitter, the Chelmsford Marconi factory was the location for the first entertainment radio broadcasts in the United Kingdom—one of these featured Dame Nellie Melba. In 1922 regular entertainment broadcasts commenced from the Marconi Research Centre at Writtle.

Later Years

	His Excellency the Senator Marchese Guglielmo Marconi, president of the Royal Academy of Italy, Member of the Fascist Grand Council

In 1914 Marconi was made a Senator in the Italian Senate and appointed Honorary Knight Grand Cross of the Royal Victorian Order in the UK. During World War I, Italy joined the Allied side of the conflict, and Marconi was placed in charge of the Italian military's radio service. In 1924, he was made a marchese by King Victor Emmanuel III.

Marconi joined the Italian Fascist party in 1923. In 1930, Italian dictator Benito Mussolini appointed him President of the Accademia d'Italia, which made Marconi a member of the Fascist Grand Council. Marconi was a participant in rallies that fostered fascist beliefs and composed fascist propaganda. Marconi also made speeches as an apologist for the actions of the fascist regime in Italy.

In 1935, Italian forces occupied the African nation of Ethiopia, resulting in near universal condemnation of Italy. Marconi made numerous radio speeches supporting the unprovoked attack, notorious enough that the BBC banned him from speaking on the subject. Marconi was pro-war in the era between the First and Second World War, and he was condemned for such beliefs by many.^[28]

Marconi died in Rome in 1937 at age 63, and Italy held a state funeral for Marconi. As a tribute, all radio stations throughout the world observed two minutes of silence. His remains are housed in the Villa Griffone at Sasso Marconi, Emilia-Romagna, which assumed that name in his honour in 1938.

Personal life and other facts

Family

• On 16 March 1905, Marconi married Beatrice O'Brien (1882-1976), daughter of Edward Donough O'Brien, 14th Baron Inchiquin, Ireland. They had three daughters (one of whom lived only a few weeks), and a son. They divorced in 1924 and the marriage was annulled in 1927.
• On 15 June 1927, Marconi married Maria Cristina Bezzi-Scali (1900-1994) — they would have a single daughter.
• Marconi's children were Degna (1908-1998), Gioia (1916-1996), Giulio (1910-1971), and Elettra (born 1930).
• Marconi had a brother, Alfonso, and a stepbrother, Luigi.

Miscellaneous

• Premier Benito Mussolini was Marconi's best man when he married his second wife in 1927.^[29][30]
• Marconi's Italian military service consisted of serving in the Italian Army (commissioned 1914 as Lieutenant) and the Italian Navy (Commander).
• A section of the town of Copiague, USA, was once named Marconiville after Guglielmo Marconi. On Great Neck Road there is an old gate which still reads "Marconiville".
• Marconi Stallions, a football club in Australia is named after Guglielmo Marconi.
• Villa Marconi, a retirement home located in Nepean, Ontario is named after Marconi. The home has a large Italian population.
• The Dutch radio academy bestows the Marconi Awards annually for outstanding radio programmes, presenters and stations.
• La Scuola D'Italia, a private Italian school in New York's Upper East Side, is named after Marconi.

Patents

British Patents

• British patent No. 12,039, Date of Application 2 June 1896; Complete Specification Left, 2 March 1897; Accepted, 2 July 1897 (later claimed by Oliver Lodge to contain his own ideas which he failed to patent)

US Patents

• U.S. Patent 586,193  "Transmitting electrical signals", (using Ruhmkorff coil and Morse code key) filed December 1896, patented July, 1897
• U.S. Patent 624,516  "Apparatus employed in wireless telegraphy".
• U.S. Patent 627,650  "Apparatus employed in wireless telegraphy".
• U.S. Patent 647,007  "Apparatus employed in wireless telegraphy".
• U.S. Patent 647,008  "Apparatus employed in wireless telegraphy".
• U.S. Patent 647,009  "Apparatus employed in wireless telegraphy".
• U.S. Patent 650,109  "Apparatus employed in wireless telegraphy".
• U.S. Patent 650,110  "Apparatus employed in wireless telegraphy".
• U.S. Patent 668,315  "Receiver for electrical oscillations".
• U.S. Patent 760,463  "Wireless signaling system".
• U.S. Patent 792,528  "Wireless telegraphy". Filed Oct 13, 1903; Issued 13, 1905.
• U.S. Patent 676,332  "Apparatus for wireless telegraphy" (later practical version of system)
• U.S. Patent 757,559  "Wireless telegraphy system". Filed Nov 19, 1901; Issued Apr 19, 1904.
• U.S. Patent 760,463  "Wireless signaling system". Filed Sep 10, 1903; Issued May 24, 1904.
• U.S. Patent 763,772  "Apparatus for wireless telegraphy" (Four tuned system; this innovation was predated by N. Tesla, O. Lodge, and J. S. Stone)
• U.S. Patent 786,132  "Wireless telegraphy". Filed Oct 13, 1903
• U.S. Patent 792,528  "Wireless telegraphy". Filed Oct 13, 1903; Issued Jun 13, 1905.
• U.S. Patent 884,986  "Wireless telegraphy". Filed Nov 28, 1902; Issued Apr 14, 1908.
• U.S. Patent 884,987  "Wireless telegraphy".
• U.S. Patent 884,988  "Detecting electrical oscillations". Filed Feb 2, 1903; Issued Apr 14, 1908.
• U.S. Patent 884,989  "Wireless telegraphy".
• U.S. Patent 935,381  "Transmitting apparatus for wireless telegraphy". Filed Apr 10, 1908; Issued Sep 28, 1909.
• U.S. Patent 935,382  "Apparatus for wireless telegraphy".
• U.S. Patent 935,383  "Apparatus for wireless telegraphy". Filed Apr 10, 1908; Issued Sep 28, 1909.
• U.S. Patent 954,640  "Apparatus for wireless telegraphy". Filed Mar 31, 1909; Issued Apr 12, 1910.
• U.S. Patent 997,308  "Transmitting apparatus for wireless telegraphy". Filed Jul 15, 1910; Issued Jul 11, 1911.
• U.S. Patent 1,102,990  "Means for generating alternating electric currents". Filed Jan 27, 1914; Issued Jul 7, 1914.
• U.S. Patent 1,148,521  "Transmitter for wireless telegraphy". Filed Jul 20, 1908.
• U.S. Patent 1,226,099  "Transmitting apparatus for use in wireless telegraphy and telephony". Filed Dec 31, 1913; Issued May 15, 1917.
• U.S. Patent 1,271,190  "Wireless telegraph transmitter".
• U.S. Patent 1,377,722  "Electric accumulator". Filed Mar 9, 1918
• U.S. Patent 1,148,521  "Transmitter for wireless telegraphy". Filed Jul 20, 1908; Issued Aug 3, 1915.
• U.S. Patent 1,981,058  "Thermionic valve". Filed Oct 14, 1926; Issued Nov 20, 1934.

See also

General:Invention of radio, List of people on stamps of Ireland, Jagdish Chandra Bose

Notes

Further reading

External links

General

• Canadian Heritage Minute featuring Marconi
• Guglielmo Marconi documentary narrated by Walter Cronkite
• Nobel Prize: Guglielmo Marconi biography
• Marconi Corporation's Marconi Calling
• Review of Signor Marconi's Magic Box
• Information about Marconi and his yacht Elettra
• Comitato Guglielmo Marconi International, Bologna, ITALY
• I diari di laboratorio di Guglielmo Marconi
• Marconi il 5 marzo 1896, presenta a Londra la prima richiesta provvisoria di brevetto, col numero 5028 e col titolo "Miglioramenti nella telegrafia e relativi apparati"
• Raccolta dei brevetti marconiani registrati in Gran Bretagna e Francia tra il 1896 e il 1924
• Sparks Telegraph Key Review An exhaustive listing of wireless telegraph key manufacturers including photos of most Marconi keys
• Cherished Television, Part one: The Pioneers
• Marconi Belmar station, InfoAge. (See also, Marconi Period of Significance Historic Buildings)
• Marconi on the 2000 Italian Lire banknote.
• Marconi's Use of Kites to Assist Wireless Communication http://www.best-breezes.squarespace.com/guglielmo-marconi/
• Marconi's Case File at The Franklin Institute with info about his 1918 Franklin Medal for application of radio waves to communications
• History of Marconi House
• Marconi Memorial in Washington, DC

Transatlantic "signals"

• BBC Reference to his first transmission over water
• Faking the Waves, 1901
• Marconi and His South Wellfleet Wireless (Cape Cod National Seashore

Priority of invention

vs Tesla

• PBS: Marconi and Tesla: Who invented radio?
• The Guglielmo Marconi Case Who is the True Inventor of Radio
• U.S. Supreme Court, "Marconi Wireless Telegraph co. of America v. United States". 320 U.S. 1. Nos. 369, 373. Argued April 9-12, 1943. Decided June 21, 1943.
• 21st Century Books: Priority in the Invention of Radio — Tesla vs. Marconi

vs Popov

• Who started the electronic era?

Awards
Preceded by Ernst Alexanderson	IRE Medal of Honor 1920	Succeeded by Reginald Fessenden
Academic offices
Preceded by Jan Smuts	Rector of the University of St Andrews 1934 - 1937	Succeeded by Robert MacGregor Mitchell

•  • [ e] Nobel Prize in Physics Laureates
Wilhelm Rntgen (1901) • Hendrik Lorentz / Pieter Zeeman (1902) • Henri Becquerel / Pierre Curie / Marie Curie (1903) • Lord Rayleigh (1904) • Philipp Lenard (1905) • J. J. Thomson (1906) • Albert Michelson (1907) • Gabriel Lippmann (1908) • Guglielmo Marconi / Ferdinand Braun (1909) • Johannes van der Waals (1910) • Wilhelm Wien (1911) • Gustaf Daln (1912) • Kamerlingh Onnes (1913) • Max von Laue (1914) • W. L. Bragg / W. H. Bragg (1915) • Charles Barkla (1917) • Max Planck (1918) • Johannes Stark (1919) • Charles Guillaume (1920) • Albert Einstein (1921) • Niels Bohr (1922) • Robert Millikan (1923) • Manne Siegbahn (1924) • James Franck / Gustav Hertz (1925)

Persondata
NAME	Marconi, Guglielmo Marchese
ALTERNATIVE NAMES
SHORT DESCRIPTION	Electrical engineer
DATE OF BIRTH	March 25 1874(1874--)
PLACE OF BIRTH	Palazzo Marescalchi, Bologna, Italy
DATE OF DEATH	July 20 1937
PLACE OF DEATH	Rome, Italy