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History of radio

History of radio
The pre-history and early history of radio is the history of technology that produced radio instruments that use radio waves. Within the timeline of radio, many people contributed theory and inventions in what became radio.[1] Radio development began as "wireless telegraphy".[1] Later radio history increasingly involves matters of programming and content. Who invented the radio? In the history of radio and development of "wireless telegraphy", several people are claimed to have "invented the radio" leading to a great radio controversy. The most commonly accepted claims are: • Jagadish Chandra Bose • Guglielmo Marconi, who equipped ships with life-saving wireless communications, conducted a reported transatlantic radio communications experiments in 1901 and established the first commercial transatlantic radio service in 1907. • Alexander Stepanovich Popov • Nikola Tesla, who developed means to reliably produce radio frequency currents, publicly demonstrated the principles of radio, and transmitted long distance signals. In 1943 the US Supreme Court upheld Tesla’s patent number U.S. Patent 645,576. The reason it is not obvious who invented radio is that the technology is a product of many different discoveries and developments. Various scientists proposed that electricity and magnetism, both capable of causing attraction and repulsion of objects, were linked. In 1802 Gian Domenico Romagnosi suggested the relationship between electric current and magnetism, but his reports went unnoticed. In 1820 Hans Christian Ørsted performed a widely known experiment on man-made electric current and magnetism. He demonstrated that a wire carrying a current could deflect a magnetized compass needle. Ørsted’s experiments discovered the relationship between electricity and magnetism in a very simple experiment. Ørsted’s work influenced André-Marie Ampère to produce a theory of electromagnetism. During its early development and long after wide use of the technology, disputes persisted as to who could claim sole credit for this obvious boon to mankind. Closely related, radio was developed along with two other key inventions, the telegraph and the telephone.[1]

Wireless experiments of the 19th century
In the late 19th century it was clear to various scientists and experimenters that wireless communication was possible. Various theoretical and experimental innovations led to the development of radio and the communication system we know today. Some early work was done by local effects and experiments of electromagnetic induction. Many understood that there was nothing similar to the "ethereal telegraphy" [2][3] and telegraphy by induction; the phenomena being wholly distinct. Wireless telegraphy was beginning to take hold and the practice of transmitting messages without wires was being developed. Many people worked on developing the devices and improvements.

In 1831, Michael Faraday began a series of experiments in which he discovered electromagnetic induction. The relation was mathematically modelled by Faraday’s law, which subsequently became one of the four Maxwell equations. Faraday proposed that electromagnetic forces extended into the empty space around the conductor, but did not complete his work involving that proposal.
A Dynamical Theory of the Electromagnetic Field


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History of radio
and could not have transmitted and received radio waves.

Edison (1875)
Towards the end of 1875, while experimenting with the telegraph, Thomas Edison noted a phenomenon that he termed "etheric force", announcing it to the press on November 28. He abandoned this research when Elihu Thomson, among others, ridiculed the idea. The idea was not based on the electromagnetic waves described by Maxwell.

David E. Hughes
In 1878, David E. Hughes was the first to claim to have transmitted and received radio waves when he noticed that his induction balance caused noise in the receiver of his homemade telephone. He demonstrated his discovery to the Royal Society in 1880 but was told it was merely induction. His aim was not to communicate by radio and his equipment was not designed to do so.

James Clerk Maxwell, a theoretical physicist who developed a set of equations describing electromagnetic waves. These later later became known as Maxwell’s equations.

Between 1861 and 1865, based on the earlier experimental work of Faraday and other scientists, James Clerk Maxwell developed his theory of electromagnetism, which predicted the existence of electromagnetic waves. In 1873 Maxwell described the theoretical basis of the propagation of electromagnetic waves in his paper to the Royal Society, "A Dynamical Theory of the Electromagnetic Field."

In 1884, Temistocle Calzecchi-Onesti at Fermo in Italy invented a primitive device that responded to radio waves. It consisted of a tube filled with iron filings, called a "coherer". This device was a critical discovery because it would later be developed to become the first practical radio detector.

Edouard Branly
Between 1884 and 1886, Edouard Branly of France produced an improved version of the coherer.

William Henry Ward
In April 1872 William Henry Ward received U.S. Patent 126,356 for radio development. However, this patent did not refer to any known scientific theory of electromagnetism and could never have received and transmitted radio waves.

Edison (1885)
In 1885, Edison took out U.S. Patent 465,971 on a system of radio communication between ships (which later he sold to Marconi). The patent, however, was not based on the transmission and reception of electromagnetic waves.

Mahlon Loomis
A few months after Ward received his patent, Mahlon Loomis of West Virginia received U.S. Patent 129,971 for a "wireless telegraph" in July 1872. This patent utilizes atmospheric electricity to eliminate the overhead wire used by the existing telegraph systems. It did not contain diagrams or specific methods and it did not refer to or incorporate any known scientific theory. It is substantially similar to William Henry Ward’s patent

Between 1886 and 1888, Heinrich Rudolf Hertz studied Maxwell’s theory and validated it through experiment. He demonstrated the transmission and reception of the electromagnetic waves predicted by Maxwell and thus was the first person to intentionally transmit and receive radio. He discovered


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that the electromagnetic equations could be reformulated into a partial differential equation called the wave equation. Famously, he saw no practical use for his discovery. For more information see Hertz’s radio work.

History of radio

Claims have been made that Murray, Kentucky farmer Nathan Stubblefield developed radio between 1885 and 1892, before either Tesla or Marconi, but his devices seemed to have worked by induction transmission rather than radio transmission.

Landell de Moura
Between 1893 and 1894, Roberto Landell de Moura, a Brazilian priest and scientist, conducted experiments in wireless transmissions. He did not publicize his achievement until 1900, when he held a public demonstration of a wireless transmission of voice in São Paulo, Brazil on June 3.

Beginnings of radio
There are varying disputed claims about who invented radio, which in the beginning was called "wireless telegraphy". The key invention for the beginning of "wireless transmission of data using the entire frequency spectrum", known as the spark-gap transmitter, has been attributed to various men. Marconi equipped ships with lifesaving wireless communications and established the first transatlantic radio service. Tesla developed means to reliably produce radio frequency electrical currents, publicly demonstrated the principles of radio, and transmitted long distance signals.
The True Wireless

Nikola Tesla developed means to reliably produce radio frequencies, publicly demonstrated the principles of radio, and transmitted long distant signals. He holds the US patent for the invention of the radio, as defined as "wireless transmission of data".

Nikola Tesla
In 1891 Tesla began his research into radio. He later published an article, "The True Wireless", concerning this research.[4] In 1892 he gave a lecture called "Experiments with Alternate Currents of High Potential and High Frequency", in London (Available at Project Gutenberg).[5] In 1893, at St. Louis, Missouri, Tesla gave a public demonstration of "wireless" radio communication. Addressing the Franklin Institute in Philadelphia and the National Electric Light Association, he described in detail the principles of radio communication.[6] The apparatus that Tesla used contained all the elements that were incorporated into radio systems before the development of the "oscillation valve", the early vacuum tube. Tesla initially used sensitive electromagnetic receivers,[7] that were unlike the less responsive coherers later used by Marconi and other early experimenters. Afterward, the principle of radio communication (sending signals through space to


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receivers) was publicized widely from Tesla’s experiments and demonstrations. Various scientists, inventors, and experimenters began to investigate wireless methods. For more information see Tesla’s wireless work.

History of radio

Alexander Popov

Oliver Lodge
Oliver Lodge transmitted radio signals on August 14, 1894 (one year after Tesla, five years after Heinrich Hertz and one year before Marconi) at a meeting of the British Association for the Advancement of Science at Oxford University.[8] (In 1995, the Royal Society recognized this scientific breakthrough at a special ceremony at Oxford University. For more information, see Past Years: An Autobiography, New York: Charles Scribner’s Sons, p231.) On 19 August 1894 Lodge demonstrated the reception of Morse code signalling via radio waves using a "coherer". He improved Edouard Branly’s coherer radio wave detector by adding a "trembler" which dislodged clumped filings, thus restoring the device’s sensitivity. [9] In August 1898 he got U.S. Patent 609,154, "Electric Telegraphy", that made wireless signals using Ruhmkorff coils or Tesla coils for the transmitter and a Branly coherer for the detector. This was key to the "syntonic" tuning concept. In 1912 Lodge sold the patent to Marconi.

Popov was the first man to demonstrate the practical applications of radio waves. In 1895, the Russian physicist Alexander Popov built a coherer. On May 7, 1895, Popov performed a public demonstration of transmission and reception of radio waves used for communication at the Russian Physical and Chemical Society, using his coherer:[13] this day has since been celebrated in Russia as "Radio Day". He did not apply for a patent for this invention. Popov’s early experiments were transmissions of only 600 yards (550 m). Popov was the first to develop a practical communication system based on the coherer, and is usually considered by the Russians to have been the inventor of radio.[14][15] Around March 1896 Popov demonstrated in public the transmission of radio waves, between different campus buildings, to the Saint Petersburg Physical Society. (This was before the public demonstration of the Marconi system around September 1896). Per other accounts, however, Popov achieved these results only in December, 1897; that is, after publication of Marconi’s patent.[16] In 1898 his signal was received 6 miles (9.7 km) away, and in 1899 30 miles away. In 1900, Popov stated at the Congress of Russian Electrical Engineers that, "the emission and reception of signals by Marconi by means of electric

Jagdish Chandra Bose
In November 1894, the Indian physicist, Jagdish Chandra Bose, demonstrated publicly the use of radio waves in Calcutta, but he was not interested in patenting his work.[10] Bose ignited gunpowder and rang a bell at a distance using electromagnetic waves, proving that communication signals can be sent without using wires. He was thus the first to send and receive radio waves over a significant distance but did not commercially exploit this achievement. The 1895 public demonstration by Bose in Calcutta was before Marconi’s wireless signalling experiment on Salisbury Plain in England in May 1897.[11][12] In 1896, the Daily Chronicle of England reported on his UHF experiments: "The inventor (J.C. Bose) has transmitted signals to a distance of nearly a mile and herein lies the first and obvious and exceedingly valuable application of this new theoretical marvel."


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oscillations was nothing new, as in America Nikola Tesla did the same experiments in 1893."[17][18] Later Popov experimented with ship-to-shore communication. Popov died in 1905 and his claim was not pressed by the Russian government until 1945.

History of radio
exceptional ability and invited him to join in a study of the electrical conduction of gases.

Guglielmo Marconi

Around 1895: 3-way near photofinish for first use of radio
• In February 1893, Tesla delivers "On Light and Other High Frequency Phenomena" before the Franklin Institute in Philadelphia. • In 1895, Marconi receives a telegraph message without wires a short distance (below a mile), but he did not send his voice over the airwaves. • In March 1895, Popov transmitted radio waves between campus buildings in Saint Petersburg, but did not apply for a patent. • In 1896, Tesla detected transmissions from his New York lab of low frequency (50,000 cycle per second) undamped waves with a receiver located at West Point, "a distance of about 30 miles (48 km)." [19]

Ernest Rutherford
The New Zealander Ernest Rutherford, 1st Baron Rutherford of Nelson was instrumental in the development of radio. In 1895 he was awarded an Exhibition of 1851 Science Research Scholarship to Cambridge. He arrived in England with a reputation as an innovator and inventor, and distinguished himself in several fields, initially by working out the electrical properties of solids and then using wireless waves as a method of signalling. Rutherford was encouraged in his work by Sir Robert Ball, who had been scientific adviser to the body maintaining lighthouses on the Irish coast; he wished to solve the difficult problem of a ship’s inability to detect a lighthouse in fog. Sensing fame and fortune, Rutherford increased the sensitivity of his apparatus until he could detect electromagnetic waves over a distance of several hundred meters. The commercial development, though, of wireless technology was left for others, as Rutherford continued purely scientific research. Thomson quickly realised that Rutherford was a researcher of

Guglielmo Marconi was an electrical engineer and Nobel laureate known for the development of a practical wireless telegraphy system. In 1896, Guglielmo Marconi was awarded a patent for radio with British Patent 12039, Improvements in Transmitting Electrical Impulses and Signals and in Apparatus Therefor. This was the initial patent for the radio, though it used various earlier techniques of various other experimenters (primarily Tesla) and resembled the instrument demonstrated by others (including Popov). During this time spark-gap wireless telegraphy was widely researched. In 1896, Bose went to London on a lecture tour and met Marconi, who was conducting wireless experiments for the British post office. In 1897, Marconi established the radio station at Niton, Isle of Wight, England. In 1897, Tesla applied for two key radio patents in the USA. Those two patents were issued in early 1900. In 1898, Marconi opened a radio factory in Hall Street, Chelmsford, England, employing around 50 people. In 1899, Bose


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announced his invention of the "ironmercury-iron coherer with telephone detector" in a paper presented at Royal Society, London.

History of radio
service between the Isle of Wight and Bournemouth in 1898. In 1906, Domenico Mazzotto wrote: "In Spain the Minister of War has applied the system perfected by the commander of military engineering, Julio Cervera Baviera (English patent No. 20084 (1899))."[23] Cervera thus achieved some success in this field, but his radiotelegraphic activities ceased suddenly, the reasons for which are unclear to this day.[24]

Julio Cervera Baviera

Turn of the century
Around the turn of the century, the SlabyArco wireless system was developed by Adolf Slaby and Georg von Arco. In 1900, Reginald Fessenden made a weak transmission of voice over the airwaves. Around 1900, Tesla opened the Wardenclyffe Tower facility and advertised services. In 1901, Marconi conducted the first successful transatlantic experimental radio communications. In 1903, Wardenclyffe Tower neared completion. Various theories exist on how Tesla intended to achieve the goals of this wireless system (reportedly, a 200 kW system). Tesla claimed that Wardenclyffe, as part of a World System of transmitters, would have allowed secure multichannel transceiving of information, universal navigation, time synchronization, and a global location system. In 1904, The U.S. Patent Office reversed its decision, awarding Marconi a patent for the invention of radio, possibly influenced by Marconi’s financial backers in the States, who included Thomas Edison and Andrew Carnegie. This also allowed the U.S. government (among others) to avoid having to pay the royalties that were being claimed by Tesla for use of his patents. For more information see Marconi’s radio work. In 1907, Marconi established the first commercial transatlantic radio communications service, between Clifden, Ireland and Glace Bay, Newfoundland.

Julio Cervera Baviera Recent studies in Spain credit Julio Cervera Baviera as the inventor of the radio (in 1902).[20] [21] Cervera Baviera obtained patents in England, Germany, Belgium, and Spain. In May-June 1899, Cervera had, with the blessing of the Spanish Army, visited Marconi’s radiotelegraphic installations on the English Channel, and worked to develop his own system. He began collaborating with Marconi on resolving the problem of a wireless communication system, obtaining some patents by the end of 1899. Cervera, who had worked with Marconi and his assistant George Kemp in 1899, resolved the difficulties of wireless telegraph and obtained his first patents prior to the end of that year. On March 22, 1902, Cervera founded the Spanish Wireless Telegraph and Telephone Corporation and brought to his corporation the patents he had obtained in Spain, Belgium, Germany and England.[22] He established the second and third regular radiotelegraph service in the history of the world in 1901 and 1902 by maintaining regular transmissions between Tarifa and Ceuta for three consecutive months, and between Javea (Cabo de la Nao) and Ibiza (Cabo Pelado). This is after Marconi established the radiotelegraphic

Early radio telegraphy and telephony
British Marconi
Using various patents, the company called British Marconi was established and began communication between coast radio stations and ships at sea. This company along with its subsidiary American Marconi, had a


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History of radio
Massachusetts. Ships at sea heard a broadcast that included Fessenden playing O Holy Night on the violin and reading a passage from the Bible.

Karl Braun
In 1909, Marconi and Karl Ferdinand Braun were awarded the Nobel Prize in Physics for "contributions to the development of wireless telegraphy".

Charles David Herrold
Donald Manson working as an employee of the Marconi Company (England, 1906) stranglehold on ship to shore communication. It operated much the way American Telephone and Telegraph operated until 1983, owning all of its equipment and refusing to communicate with non-Marconi equipped ships. Many inventions improved the quality of radio, and amateurs experimented with uses of radio, thus the first seeds of broadcasting were planted. In April 1909 Charles David Herrold, an electronics instructor in San Jose, California constructed a broadcasting station. It used spark gap technology, but modulated the carrier frequency with the human voice, and later music. The station "San Jose Calling" (there were no call letters), continued to eventually become today’s KCBS in San Francisco. Herrold, the son of a Santa Clara Valley farmer, coined the terms "narrowcasting" and "broadcasting", respectively to identify transmissions destined for a single receiver such as that on board a ship, and those transmissions destined for a general audience. (The term "broadcasting" had been used in farming to define the tossing of seed in all directions.) Charles Herrold did not claim to be the first to transmit the human voice, but he claimed to be the first to conduct "broadcasting". To help the radio signal to spread in all directions, he designed some omnidirectional antennas, which he mounted on the rooftops of various buildings in San Jose. Herrold also claims to be the first broadcaster to accept advertising (he exchanged publicity for a local record store for records to play on his station), though this dubious honour usually is foisted on WEAF (1922).

The company Telefunken was founded on May 27, 1903 as "Telefunken society for wireless telefon" of Siemens & Halske (S & H) and the Allgemeine Elektrizitäts-Gesellschaft (General Electricity Company) as joint undertakings for radio engineering in Berlin. It continued as a joint venture of AEG and Siemens AG, until Siemens left in 1941. In 1911, Kaiser Wilhelm II sent Telefunken engineers to West Sayville, New York to erect three 600-foot (180-m) radio towers there. Nikola Tesla assisted in the construction. A similar station was erected in Nauen, creating the only wireless communication between North America and Europe.

Reginald Fessenden
The invention of amplitude-modulated (AM) radio, so that more than one station can send signals (as opposed to spark-gap radio, where one transmitter covers the entire bandwidth of the spectrum) is attributed to Reginald Fessenden and Lee de Forest. On Christmas Eve 1906, Reginald Fessenden used an Alexanderson alternator and rotary spark-gap transmitter to make the first radio audio broadcast, from Brant Rock,

RMS Titanic (April 2, 1912).


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In 1912, the RMS Titanic sank in the northern Atlantic Ocean. After this, wireless telegraphy using spark-gap transmitters quickly became universal on large ships. In 1913, the International Convention for the Safety of Life at Sea was convened and produced a treaty requiring shipboard radio stations to be manned 24 hours a day. A typical high-power spark gap was a rotating commutator with six to twelve contacts per wheel, nine inches (229 mm) to a foot wide, driven by about 2000 volts DC. As the gaps made and broke contact, the radio wave was audible as a tone in a crystal set. The telegraph key often directly made and broke the 2000 volt supply. One side of the spark gap was directly connected to the antenna. Receivers with thermionic valves became commonplace before spark-gap transmitters were replaced by continuous wave transmitters.

History of radio
• Benjamin Franklin: First to experiment with an elevated conductor. • Hans Christian Ørsted: discovered that a magnetic field surrounds a wire carrying current. • Joseph Henry: transmitted radiant energy from a capacitor through a coil and detected it 100 feet (30 m) away, December 1840. • Charles Herrold: advanced radio broadcasting. • David E. Hughes: early experiments with transmission and reception. • Mahlon Loomis: first to use the combination of an aerial wire and ground connection. • Guglielmo Marconi: commercialized radio. • James Clerk Maxwell: developed a set of equations expressing the basic laws of electricity and magnetism. • Jozef Murgaš: extensive work in the late 1890s. • G. W. Pierce: circuits for crystal oscillators for fixed-frequency operation. • William Henry Preece: early experiments in electromagnetism and wireless telephony. • Augusto Righi: continued Hertz’s experiments. • Harry Shoemaker: 1901 to 1905; 40 patents. • Adolphus Slaby: European pioneer. • John Stone Stone: 1901 to 1904; 70 patents. • Nathan Stubblefield: wireless telephony demonstrations around 1902; U.S. Patent 887,357, 1908. • Nikola Tesla: 1891 to 1914; 27+ patents related to the transmission of electrical energy without wires.

Harold J. Power
On March 8, 1916, Harold Power with his radio company American Radio and Research Company (AMRAD), broadcast the first continuous broadcast in the world from Tufts University under the call sign 1XE (it lasted 3 hours). The company later became the first to broadcast on a daily schedule, and the first to broadcast radio dance programs, university professor lectures, the weather, and bedtime stories [25].

Other innovators
Many scientists and inventors contributed to the invention of wireless telegraphy and telephony. Individuals that helped to further the science include, among others: • Georg von Arco: European pioneer. • Edouard Branly: invention of the Branly coherer around 1890. • Temistocle Calzecchi-Onesti: constructed a tuning "tube". • Archie Frederick Collins: Arc transmitter for voice broadcasts, 1899. • Amos Dolbear: Earth transmission, U.S. Patent 350,299. • Thomas Alva Edison: "Etheric Force" experiments 1875; U.S. Patent 465,971, 1891. • Michael Faraday: discovered electromagnetic induction. • Reginald Fessenden: advanced "continuous" wave transmission.

Audio broadcasting (1919 to 1950s)
See also: Old-time radio

Crystal sets
The most common type of receiver before vacuum tubes was the crystal set, although some early radios used some type of amplification through electric current or battery. Inventions of the triode amplifier, motor-generator, and detector enabled audio radio. The use of amplitude modulation (AM), with which more than one station can


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History of radio
nights per week until 1924 when he ran into financial troubles. On 27 August 1920, regular wireless broadcasts for entertainment began in Argentina, pioneered by the group around Enrique Telémaco Susini, and spark gap telegraphy stopped. On 31 August 1920 the first known radio news program was broadcast by station 8MK, the unlicensed predecessor of WWJ (AM) in Detroit, Michigan. In 1922 regular wireless broadcasts for entertainment began in the UK from the Marconi Research Centre 2MT at Writtle near Chelmsford, England. Early radios ran the entire power of the transmitter through a carbon microphone. In the 1920s, the Westinghouse company bought Lee De Forest’s and Edwin Armstrong’s patent. During the mid 1920s, Amplifying vacuum tubes (US)/thermionic valves (UK) revolutionized radio receivers and transmitters. Westinghouse engineers developed a more modern vacuum tube.

In the 1920s, the United States government publication, "Construction and Operation of a Simple Homemade Radio Receiving Outfit", showed how almost any person handy with simple tools could a build an effective crystal radio receiver. simultaneously send signals (as opposed to spark-gap radio, where one transmitter covers the entire bandwidth of spectra) was pioneered by Fessenden and Lee de Forest. To this day there is a small but avid base of fans of this technology who study and practice the art and science of designing and making crystal sets as a hobby; the Boy Scouts of America have often undertaken such craft projects to introduce boys to electronics and radio, and quite a number of them having grown up remain staunch fans of a radio that ’runs on nothing, forever’. As the only energy available is that gathered by the antenna system, there are inherent limitations on how much sound even an ideal set could produce, but with only moderately decent antenna systems remarkable performance is possible with a superior set.

Licensed commercial public radio stations
The question of the ’first’ publicly-targeted licensed radio station in the U.S. has more than one answer and depends on semantics. Settlement of this ’first’ question may hang largely upon what constitutes ’regular’ programming. • It is commonly attributed to KDKA in Pittsburgh, Pennsylvania, which in October 1920 received its license and went on the air as the first US licensed commercial broadcasting station. (Their engineer Frank Conrad had been broadcasting from his own station since 1916.) Technically, KDKA was the first of several already-extant stations to receive a ’limited commercial’ license. • On February 17, 1919, station 9XM at the University of Wisconsin in Madison had already broadcast the first human speech to the public at large. That station is still on the air today as WHA. • 9XM sent music over the air two years earlier, was originally licensed in 1914 and sent its first transmission in 1916. • On August 20, 1920, at least two months before KDKA, E.W. Scripps’s WBL (now WWJ) in Detroit started broadcasting. It has carried a regular schedule of programming to the present.

The first vacuum tubes
During the mid 1920s, amplifying vacuum tubes (or thermionic valves in the UK) revolutionized radio receivers and transmitters. John Ambrose Fleming developed an earlier tube known as an "oscillation valve" (it was a diode). Lee De Forest placed a screen, the "grid" electrode, between the filament and plate electrode. The Dutch engineer Hanso Schotanus à Steringa Idzerda made the first regular wireless broadcast for entertainment from his home in The Hague on 6 November 1919. He broadcast his popular program four


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• There is the history noted above of Charles David Herrold’s radio services (eventually KCBS) going back to 1909. Broadcasting was not yet supported by advertising or listener sponsorship. The stations owned by manufacturers and department stores were established to sell radios and those owned by newspapers to sell newspapers and express the opinions of the owners. In the 1920s, Radio was first used to transmit pictures visible as television. During the early 1930s, single sideband (SSB) and frequency modulation (FM) were invented by amateur radio operators. By 1940, they were established commercial modes. Westinghouse was brought into the patent allies group, General Electric, American Telephone and Telegraph, and Radio Corporation of America, and became a part owner of RCA. All radios made by GE and Westinghouse were sold under the RCA label 60% GE and 40% Westinghouse. ATT’s Western Electric would build radio transmitters. The patent allies attempted to set up a monopoly, but they failed due to successful competition. Much to the dismay of the patent allies, several of the contracts for inventor’s patents held clauses protecting "amateurs" and allowing them to use the patents. Whether the competing manufacturers were really amateurs was ignored by these competitors. These features arose: • Commercial (United States) or governmental (Europe) station networks • Federal Radio Commission • Federal Communications Commission • CCIR • Birth of the soap opera • Race towards shorter waves and FM

History of radio
station in California in 1909 and was carrying audio by 1910.

Note Some of the dates listed here may not be accurate. Feel free to make corrections to either of the lists.

USA and Canadian territory
This list includes the United States of America, the republic composed of 50 states, one federal district, and several insular territories, and the Canadian provinces, which consists of ten provinces with three territories.

Other countries
This list includes countries outside of the United States of America and the Canadian provinces. • * Date unconfirmed

FM and television start
In 1933, FM radio was patented by inventor Edwin H. Armstrong. FM uses frequency modulation of the radio wave to minimize static and interference from electrical equipment and the atmosphere, in the audio program. In 1937, W1XOJ, the first experimental FM radio station, was granted a construction permit by the FCC. In the 1930s, standard analog television transmissions started in Europe, and then in the 1940s in North America.

Marconi/Tesla priority dispute

Dates of first radio stations
This is a listing of radio stations in broadcast networks. The earliest radio stations were simply radio telegraph systems which did not carry audio are not listed. The included first radio station encompass AM and FM stations; these include both commercial, public and nonprofit varieties found throughout the world.
Note The first claimed audio transmission that could be termed to be from a broadcast station occurred on Christmas Eve in 1906, and was made by Reginald Fessenden. Charles Herrold started broadcasting from a

Timeline of Marconi/Tesla dispute In 1943, Tesla’s patent (number 645576) was reinstated as holding priority in the "invention" of modern radio by the U.S. Supreme Court shortly after Tesla’s death. The validity of the patent was never in question in the case. This decision was based on the fact that prior art existed before the establishment of Marconi’s patent. Ignoring Tesla’s prior art, the decision may have enabled the U.S. government to avoid having to pay damages that were being claimed by the Marconi Company for use of its patents during World War I (as,


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State Alabama Territory of Alaska Alberta Arizona Arkansas British Columbia California Colorado Connecticut Delaware Florida Georgia Guam Territory of Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Manitoba Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Brunswick New Hampshire New Jersey New Mexico New York Newfoundland North Carolina Date 1922 1924 1922 1922 1920 1922 1921 1921 1922 1922 1921 1922 1954 1922 1922 1921 1921 1922 1922 1921 1922 1922 1922 1922 1920 1920 1922

History of radio

1925 3 1921 1922 1921 1922 1923 1922 1921 1922 1922 1924 1922


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North Dakota Northwest Territories Nova Scotia Ohio Oklahoma Ontario Oregon Panama Canal Zone Pennsylvania Philippines Prince Edward Island Puerto Rico Quebec Rhode Island Saskatchewan South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington Washington, D.C. West Virginia Wisconsin Wyoming Yukon Territory it is speculated, the government’s initial reversal to grant Marconi the patent right in order to nullify any claims Tesla had for compensation). 1922 1958 1920 1922 1921 1922 1922 1923 1920 1922 1924 1922 1920 1922 1922

History of radio

1930 4 1922 1922 1920 1922 1920 1923 1920 1923 1923 1922 1930 5 1923 covered by the Copenhagen plan. After some amplitude modulation experience with VHF, it was realized that FM radio was a much better alternative for VHF radio than AM. Because of this history FM Radio is still referred to as "UKW Radio" in Germany. Other European nations followed a bit later, when the superior sound quality of FM and the ability to run many more local stations because of the more limited range of VHF broadcasts were realized.

FM in Europe
After World War II, the FM radio broadcast was introduced in Germany. In 1948, a new wavelength plan was set up for Europe at a meeting in Copenhagen. Because of the recent war, Germany (which did not exist as a state and so was not invited) was only given a small number of medium-wave frequencies, which are not very good for broadcasting. For this reason Germany began broadcasting on UKW ("Ultrakurzwelle", i.e. ultra short wave, nowadays called VHF) which was not


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Country The Netherlands Argentina Malaya Mexico New Zealand Russia Uruguay Ceylon France Switzerland Great Britain Chile Cuba Panama Venezuela Germany Czechoslovakia China Australia Brazil Belgium Denmark Finland Italy Netherlands East Indies South Africa Spain Sweden Austria Colombia Costa Rica Estonia Lithuania Luxembourg Serbia Poland Norway Afghanistan Egypt Date 1919 1920 1921 1921 1921 1921 1921 1922 1922 1922 1922 1922 1922 1922 1922 1923 1923 1923 1923 1923 1923 1923 1923 1923 1923 5 1923 1923 1923 1923 1929 1924 1924 1924 1924 1924 1924 1924* 1925* 1925

History of radio


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Japan Fiji Latvia Peru Portugal Romania Hungary Ireland Netherlands Antilles Croatia British Guiana Free City of Danzig Dominican Republic El Salvador Greece Guatemala Lithuania Algeria Basutoland Belgian Congo Bolivia Dutch New Guinea Greenland Haiti India Kenya Liberia Mauritius St. Helena Siam Singapore Suriname Turkey French Indochina Honduras Hong Kong Morocco Western Samoa Bulgaria Falkland Islands 1925 1925* 1925 1925 1925 1925 1925 1925 1925 1926 1926 1926 1926 1926 1926 1926 1926 1927* 1927 1927 1927 1927* 1927 1927 1927 1927 1927 1927 1927* 1927 1927 1927* 1927 1927 1928 1928 1928* 1928* 1929 1929 6

History of radio


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Mozambique North Yemen British Honduras Bermuda Iceland Israel Tunisia Vatican City Ethiopia Madagascar Nicaragua Nigeria Ecuador British Leeward Islands French West Africa Macau Saudi Arabia Southern Rhodesia British Windward Islands Mongolia Papua New Guinea Sierra Leone Andorra Gold Coast Malta Paraguay Bahamas Iraq Gilbert and Ellice Islands Lebanon Albania Cyprus Jamaica Pitcairn Islands Trinidad and Tobago French Equatorial Africa Libya Aden Bechuanaland British Somaliland 1929 1929*

History of radio

1930s *?* 1930 1930* 1930 1930* 1931 7 1931 1931* 1931* 1931 1931 1932* 1932* 1932 1932 1932 1934* 1934 1934 1934 1935* 1935 1935 7 1936 1936 8* 1936* 1937 1937 1938 9* 1938 1938 1938 1938 1939 1939 1940 10 1940 1940


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Iran Anglo-Egyptian Sudan Bahrain Northern Rhodesia Seychelles Syria Brunei Spanish Guinea Transjordan Nepal Sao Tome and Principe Cape Verde Islands Kuwait Tanganyika Portuguese Timor Maldives Nauru Qatar South West Africa Oman Bhutan 1940* 1940* 1941 1941 1945 1945 1947* 1947 1948 1950 1950 1951 1951 1951 1960 1962 1968 12 1968 13 1969 14 1970 1973

History of radio

Later 20th century developments
In 1954 Regency introduced a pocket transistor radio, the TR-1, powered by a "standard 22.5V Battery". In the early 1960s, VOR systems finally became widespread for aircraft navigation; before that, aircraft used commercial AM radio stations for navigation. (AM stations are still marked on U.S. aviation charts). In 1960 Sony introduced their first transistorized radio, small enough to fit in a vest pocket, and able to be powered by a small battery. It was durable, because there were no tubes to burn out. Over the next twenty years, transistors displaced tubes almost completely except for very high power, or very high frequency, uses.

• Late 1960s: The USA long-distance telephone network began to convert to a digital network, employing digital radios for many of its links. • 1970s: LORAN became the premier radio navigation system. Soon, the U.S. Navy experimented with satellite navigation. • 1987: The GPS constellation of satellites was launched. • Early 1990s: amateur radio experimenters began to use personal computers with audio cards to process radio signals. • 1994: The U.S. Army and DARPA launched an aggressive successful project to construct a software radio that could become a different radio on the fly by changing software. • Late 1990s: Digital transmissions began to be applied to broadcasting.

Color television and digital
• 1963: Color television was commercially transmitted, and the first (radio) communication satellite, Telstar, was launched.

Telex on radio
Telegraphy did not go away on radio. Instead, the degree of automation increased. On land-lines in the 1930s, Teletypewriters automated encoding, and were adapted to pulse-code dialing to automate routing, a


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service called telex. For thirty years, telex was the absolute cheapest form of long-distance communication, because up to 25 telex channels could occupy the same bandwidth as one voice channel. For business and government, it was an advantage that telex directly produced written documents. Telex systems were adapted to short-wave radio by sending tones over single sideband. CCITT R.44 (the most advanced pure-telex standard) incorporated character-level error detection and retransmission as well as automated encoding and routing. For many years, telex-on-radio (TOR) was the only reliable way to reach some third-world countries. TOR remains reliable, though less-expensive forms of e-mail are displacing it. Many national telecom companies historically ran nearly pure telex networks for their governments, and they ran many of these links over short wave radio.

History of radio
for promotion, others feared it would cut into profits from record sales and live performances. Many companies had their major stars sign agreements that they would not appear on radio.[26][27] Indeed, the music recording industry had a severe drop in profits after the introduction of the radio. For a while, it appeared as though radio was a definite threat to the record industry. Radio ownership grew from 2 out of 5 homes in 1931 to 4 out of 5 homes in 1938. Meanwhile record sales fell from $75 million in 1929 to $26 million in 1938 (with a low point of $5 million in 1933). Although it should be noted that the economics of the situation were also affected by the fact this took place during the Great Depression.[28] The copyright owners of these songs were concerned that they would see no gain from the popularity of radio and the ‘free’ music it provided. Luckily, everything they needed to make this new medium work for them already existed in previous copyright law. The copyright holder for a song had control over all public performances ‘for profit.’ The problem now was proving that the radio industry, which was just figuring out for itself how to make money from advertising and currently offered free music to anyone with a receiver, was making a profit from the songs. The test case was against Bamberger Department Store in Newark, New Jersey in 1922. The store was broadcasting music throughout its store on the radio station WOR. No advertisements were heard, except for at the beginning of the broadcast which announced “L. Bamberger and Co., One of America’s Great Stores, Newark, New Jersey.” It was determined through this and previous cases (such as the lawsuit against Shanley’s Restaurant) that Bamberger was using the songs for commercial gain, thus making it a public performance for profit, which meant the copyright owners were due payment. With this ruling the American Society of Composers, Authors and Publishers (ASCAP) began collecting licensing fees from radio stations in 1923. The beginning sum was $230 for all music protected under ASCAP, but for larger stations the price soon ballooned up to $5,000. Edward Samuel’s reports in his book The Illustrated Story of Copyright that “radio and TV licensing represents the single greatest source of revenue for ASCAP and its composers […] and

21st century development
Internet radio
Internet radio consists of sending radio-style audio programming over streaming Internet connections: no radio transmitters need be involved at any point in the process. • Early technology wars: Push or pull, streaming media or multicast

Digital audio broadcasting
Digital audio broadcasting (DAB): appears to be set to grow in importance relative to FM radio for airborne broadcasts in several countries.

Related articles
• • • • • • Digital audio broadcasting XM Radio Sirius Satellite Radio Wireless LANs Personal area networks Digital Radio Mondiale

Legal issues with radio
When radio was first introduced in the 1930’s many predicted the end of records. Radio was a free medium for the public to hear music for which they would normally pay. While some companies saw radio as a new avenue


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average member of ASCAP gets about $150-$200 per work per year, or about $5,000-$6,000 for all of a member’s compositions. Not long after the Bamberger ruling, ASCAP had to once again defend their right to charge fees in 1924. The Dill Radio Bill would have allowed radio stations to play music without paying and licensing fees to ASCAP or any other music-licensing corporations. The bill did not pass.[29]

History of radio
11. Radio broadcasts from the Trust Territory of the Pacific Islands had also been available. 12. Broadcasts had also been received from Saudi Arabia and Bahrain. 13. Broadcasts had previously been received from South Africa 14. Malta had also received radio broadcasts from Italy. The British adopted a radio service on the island to counter Fascist propaganda.

Exotic technologies
• Meteor scatter • Earth-Moon-Earth communication


See also
• • • • • • • • • • • Amateur radio history History of science and technology History of television Timeline of radio Birth of public radio broadcasting Radio Act of 1912 Radio Act of 1927 Spark gap transmitter Wireless Ship Act of 1910 Category:Radio pioneers Category:Radio people

Notes and Citations
1. Broadcasts had also been available from Louisiana and Alabama since 1922. 2. Broadcasts were also available from North Carolina and Georgia. 3. Broadcasts were also available from Colorado since 1921. 4. Radio broadcasting in Java briefly ceased after a station was destroyed by lightning. 5. Broadcasts from Argentina had also been available as is the case today. 6. Radio broadcasting had also been received from Italy, since Vatican City lies within the vicinity of Rome as is the case today. 7. Radio broadcasts did exist in the Bahamas prior to 1936. Before then, they were received from the United States. 8. Also received radio broadcasts from nearby Yugoslavia. 9. Broadcasting in Aden ceased in 1946-1947 and again from 1948-1955. 10. Andorra also received radio broadcasts from Spain.

[1] ^ The Invention of Radio a/radio.htm [2] "Wireless telegraphy". Scientific American, June 19, 1897, page 386. Uses the term to connote "aether’s conduction". [3] "The Slaby system of wireless duplex telegraphy". Scientific American, March 9, 1901, pages 146-147. Uses the term to connote "aether’s conduction". [4] "The True Wireless" by Nikola Tesla [5] "Nikola Tesla". [6] "On Light and Other High Frequency Phenomena". Philadelphia/St. Louis; Franklin Institute in 1893. [7] Corum, K. L., and J. F. Corum, "Tesla’s Colorado Springs Receivers (A Short Introduction)". [8] Sir Oliver Lodge Invented Radio - Not Marconi". [9] Peter Rowlands (ed.) and J. Patrick Wilson (ed.) "Oliver Lodge and the Invention of Radio" ISBN 1-873694-02-4 [10] "Jagadish Chandra Bose". [11] "The Work of Jagdish Chandra Bose: 100 years of mm-wave research". [12] "Jagadish Chandra Bose", [13] "Early Radio Transmission Recognized as Milestone". IEEE. portal/site/tionline/ menuitem.130a3558587d56e8fb2275875bac26c8/ index.jsp?&pName=institute_level1_article&TheCat= legacy/inst2005/may05/ 5w.fhistory.xml&. Retrieved on July 16 2006. [14] "Popov’s Contribution to the Development of Wireless Communication, 1895". IEEE History Center, IEEE Milestone.


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History of radio

[15] "Russia’s Popov: Did he "invent" radio?". • Lichty Lawrence W., and Topping Malachi The First Electronic Church of America. C., eds. American Broadcasting: A Source [16] Л.Н.Никольский. Кто "изобрел" радио? Book on the History of Radio and [17] "The Guglielmo Marconi Case Who is the Television (Hastings House, 1975). True Inventor of Radio". [18] "The Electronic Era; When? Where? Secondary sources Who? How? Why?". First Electronic • Aitkin, Hugh G. J. The Continuous Wave: Church Of America. Technology and the American Radio, [19] "Nikola Tesla On His Work with 1900-1932 (Princeton University Press, Alternating Currents and Their 1985). Application to wireless Telegraphy, • Anderson, Leland. "Nikola Tesla On His Telephony, and Transmission of Power", Work With Alternating Currents and Their Leland I. Anderson, Twenty First Century Application to Wireless Telegraphy, Books, 2002, pp. 25-29. Telephony, and Transmission of Power", [20] Noticias, Últimas noticias, El español Sun Publishing Company, LC 92-60482, Julio Cervera Baviera, y no Marconi, fue ISBN 0-9632652-0-2 (ed. excerpts quien inventó la radio, según el profesor available online) Ángel Faus . Universidad de Navarra • Anderson, Leland I. Priority in the [21] Un estudio asegura que fue el español Invention of Radio — Tesla vs. Marconi, Cervera Baviera y no Marconi el inventor Antique Wireless Association monograph, de la radio - comunicación - 1980, examining the 1943 decision by the [22] News, Latest news, The Spaniard Julio US Supreme Court holding the key Cervera Baviera, and not Marconi, was Marconi patent invalid (9 pages). (21st the inventor of the radio, according to Century Books) professor Ángel Faus . University of • Archer, Gleason L. Big Business and Radio Navarra (The American Historical Society, Inc., [23] Domenico Mazzotto, Wireless Telegraphy 1939) and Telephony. Translated by Selimo • Archer, Gleason L. History of Radio to Romeo Bottone (Whittaker & Co., 1906), 1926 (The American Historical Society, 217. Inc., 1938). [24] • Barnouw, Erik. The Golden Web (Oxford librosapendice_1_981ff066.pdf?PHPSESSID=c3606fd8d59137417f50e69e7d8f8566 University Press, 1968); The Sponsor [25] "North Hall." Concise Encyclopedia of (1978); A Tower in Babel (1966). Tufts History. Ed. Anne Sauer [1] • Belrose, John S., "Fessenden and Marconi: [26] liebowitz.dvi Their Differing Technologies and [27] frontline: the way the music died: inside Transatlantic Experiments During the the music industry: chronology First Decade of this Century". technology and the music industry | PBS International Conference on 100 Years of [28] Creativity Wants to be Paid Radio (5-7 September 1995). [29] Chapter Two • Briggs, Asa. The BBC — the First Fifty

Primary sources
• De Lee Forest. Father of Radio: The Autobiography of Lee de Forest (1950). • Gleason L. Archer Personal Papers (MS108), Suffolk University Archives, Suffolk University; Boston, MA. Gleason L. Archer Personal Papers (MS108) finding aid • Kahn Frank J., ed. Documents of American Broadcasting, fourth edition (PrenticeHall, Inc., 1984).

Years (Oxford University Press, 1984). • Briggs, Asa. The History of Broadcasting in the United Kingdom (Oxford University Press, 1961). • Brodsky, Ira. "The History of Wireless: How Creative Minds Produced Technology for the Masses" (Telescope Books, 2008) • Butler, Lloyd (VK5BR), "Before Valve Amplification - Wireless Communication of an Early Era" • Coe, Douglas and Kreigh Collins (ills), "Marconi, pioneer of radio". New York, J. Messner, Inc., 1943. LCCN 43010048


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• Covert, Cathy and Stevens John L. Mass Media Between the Wars (Syracuse University Press, 1984). • Craig, Douglas B. Fireside Politics: Radio and Political Culture in the United States, 1920–1940 (2005) • Crook, Tim. International Radio Journalism: History, Theory and Practice Routledge, 1998 • Douglas, Susan J., Listening in : radio and the American imagination : from Amos ’n’ Andy and Edward R. Murrow to Wolfman Jack and Howard Stern , New York, N.Y. : Times Books, 1999. • Ewbank Henry and Lawton Sherman P. Broadcasting: Radio and Television (Harper & Brothers, 1952). • Garratt, G. R. M., "The early history of radio : from Faraday to Marconi", London, Institution of Electrical Engineers in association with the Science Museum, History of technology series, 1994. ISBN 0-85296-845-0 LCCN gb 94011611 • Geddes, Keith, "Guglielmo Marconi, 1874-1937". London : H.M.S.O., A Science Museum booklet, 1974. ISBN 0-11-290198-0 LCCN 75329825 (ed. Obtainable in the U.S.A. from Pendragon House Inc., Palo Alto, California.) • Gibson, George H. Public Broadcasting; The Role of the Federal Government, 1919-1976 (Praeger Publishers, 1977). • Hancock, Harry Edgar, "Wireless at sea; the first fifty years. A history of the progress and development of marine wireless communications written to commemorate the jubilee of the Marconi International Marine Communication Company limited". Chelmsford, Eng., Marconi International Marine Communication Co., 1950. LCCN 51040529 /L • Jackaway, Gwenyth L. Media at War: Radio’s Challenge to the Newspapers, 1924-1939 Praeger Publishers, 1995 • Journal of the Franklin Institute. "Notes and comments; Telegraphy without wires", Journal of the Franklin Institute, December, 1897, pages 463-464. • Katz, Randy H., "Look Ma, No Wires": Marconi and the Invention of Radio". History of Communications Infrastructures. • Lazarsfeld, Paul F. The People Look at Radio (University of North Carolina Press, 1946).

History of radio
• Maclaurin, W. Rupert. Invention and Innovation in the Radio Industry (The Macmillan Company, 1949). • Marconi’s Wireless Telegraph Company, "Year book of wireless telegraphy and telephony", London : Published for the Marconi Press Agency Ltd., by the St. Catherine Press / Wireless Press. LCCN 14017875 sn 86035439 • Marincic, Aleksandar and Djuradj Budimir, "Tesla contribution to radio wave propagation". (PDF) • Masini, Giancarlo. "Guglielmo Marconi". Turin: Turinese typographical-publishing union, 1975. LCCN 77472455 (ed. Contains 32 tables outside of the text) • Massie, Walter Wentworth, "Wireless telegraphy and telephony popularly explained". New York, Van Nostrand, 1908. • McChesney, Robert W. Telecommunications, Mass Media, and Democracy: The Battle for the Control of U.S. Broadcasting, 1928-1935 Oxford University Press, 1994 • McCourt, Tom. Conflicting Communication Interests in America: The Case of National Public Radio Praeger Publishers, 1999 • McNicol, Donald. "The Early Days of Radio in America". The Electrical Experimenter, April, 1917, pages 893, 911. • Peers, Frank W. The Politics of Canadian Broadcasting, 1920–1951 (University of Toronto Press, 1969). • Pimsleur, J. L. "Invention of Radio Celebrated in S.F.; 100th birthday exhibit this weekend ". San Francisco Chronicle, 1995. • The Prestige, 2006, Touchstone Pictures. • The Radio Staff of the Detroit News, WWJThe Detroit News (The Evening News Association, Detroit, 1922). • Ray, William B. FCC: The Ups and Downs of Radio-TV Regulation (Iowa State University Press, 1990). • Rosen, Philip T. The Modern Stentors; Radio Broadcasting and the Federal Government 1920-1934 (Greenwood Press, 1980). • Rubin, Julian "Guglielmo Marconi: The Invention of Radio". January 2006. • Rugh, William A. Arab Mass Media: Newspapers, Radio, and Television in Arab Politics Praeger, 2004


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• Scannell, Paddy, and Cardiff, David. A Social History of British Broadcasting, Volume One, 1922-1939 (Basil Blackwell, 1991). • Schramm Wilbur, ed. Mass Communications (University of Illinois Press, 1960). • Schwoch James. The American Radio Industry and Its Latin American Activities, 1900-1939 (University of Illinois Press, 1990). • Seifer, Marc J., "The Secret History of Wireless". Kingston, Rhode Island. • Slater, Robert. This ... is CBS: A Chronicle of 60 Years (Prentice Hall, 1988). • Smith, F. Leslie, John W. Wright II, David H. Ostroff; Perspectives on Radio and Television: Telecommunication in the United States Lawrence Erlbaum Associates, 1998 • Sterling, Christopher H. Electronic Media, A Guide to Trends in Broadcasting and Newer Technologies 1920–1983 (Praeger, 1984). • Sterling, Christopher, and Kittross John M. Stay Tuned: A Concise History of American Broadcasting (Wadsworth, 1978). • Stone, John Stone. "John Stone Stone on Nikola Tesla’s Priority in Radio and Continuous-Wave Radiofrequency Apparatus". Twenty First Century Books, 2005. • Sungook Hong, "Wireless: from Marconi’s Black-box to the Audion", Cambridge, MA: MIT Press, 2001, ISBN 0-262-08298-5 • Waldron, Richard Arthur, "Theory of guided electromagnetic waves". London, New York, Van Nostrand Reinhold, 1970. ISBN 0-442-09167-2 LCCN 69019848 //r86 • Weightman, Gavin, "Signor Marconi’s magic box : the most remarkable invention of the 19th century & the amateur inventor whose genius sparked a revolution" 1st Da Capo Press ed., Cambridge, MA : Da Capo Press, 2003. • White, Llewellyn. The American Radio (University of Chicago Press, 1947). • White, Thomas H. "Pioneering U.S. Radio Activities (1897-1917)", United States Early Radio History.

History of radio
• Wunsch, A. David "Misreading the Supreme Court: A Puzzling Chapter in the History of Radio".

External links
• "A Comparison of the Tesla and Marconi Low-Frequency Wireless Systems ". Twenty First Century Books, Breckenridge, Co. • Marconi’s Early Wireless Experiments, 1895 IEEE History Center • Sparks Telegraph Key Review • Early Radio History • Radio waves, the Hertzian Radiation: what it is and how it happens. • Information on the development of Radio at Camp Evans, NJ • "The Invention of Radio". • Zenonas Langaitis — Old radios from Lithuania * (Europa, Baltic States, past USSR • "The Invention of the Radio". Through the wires, a century of communication, • "Presentation of the Edison Medal to Nikola Tesla". Minutes of the Annual Meeting of the American Institute of Electrical Engineers. Held at the Engineering Society Building, New York City, Friday evening, May 18, 1917. • "Guglielmo Marconi and Early Systems of Wireless Communication". (PDF file) • Timeline of the First Thirty Years of Radio 1895 – 1925; An important chapter in the Death of Distance. Nova Scotia, Canada, March 14, 2006. • Ontario Plaques - The Rogers Batteryless Radio • Brazilian experimenter Roberto Landell de Moura • Portuguese Radio History: Telefonia Sem Fios - História da Rádio em Portugal • Cybertelecom :: Radio History (legal and regulatory) • Canadian Broadcasting Corporation archives

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History of radio

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