Editing Electrical telegraph (section)

===First working systems===
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[[File:Dial of Ronalds' electric telegraph.jpg|thumb|Revolving alphanumeric dial created by [[Francis Ronalds]] as part of his electric telegraph (1816)]]
The first working telegraph was built by the English inventor [[Francis Ronalds]] in 1816 and used static electricity.<ref>{{Cite book |title=Pioneers of Electrical Communication |url=https://archive.org/details/b29977101 |last=Appleyard |first=R. |publisher=Macmillan |year=1930}}</ref> At the family home on [[Kelmscott House|Hammersmith Mall]], he set up a complete subterranean system in a {{convert|175|yd|m|adj=on}} long trench as well as an {{convert|8|mi|km|spell=in|adj=on}} long overhead telegraph. The lines were connected at both ends to revolving dials marked with the letters of the alphabet and electrical impulses sent along the wire were used to transmit messages. Offering his invention to the [[British Admiralty|Admiralty]] in July 1816, it was rejected as "wholly unnecessary".<ref>{{Cite journal |last=Ronalds |first=B.F. |date=2016 |title=Sir Francis Ronalds and the Electric Telegraph |journal=International Journal for the History of Engineering & Technology |volume=86 |pages=42–55 |doi=10.1080/17581206.2015.1119481 |s2cid=113256632}}</ref> His account of the scheme and the possibilities of rapid global communication in ''Descriptions of an Electrical Telegraph and of some other Electrical Apparatus''<ref>{{Cite book |last=Ronalds |first=Francis |title=Descriptions of an Electrical Telegraph and of some other Electrical Apparatus |publisher=Hunter |year=1823 |location=London |url=https://archive.org/details/descriptionsane00ronagoog}}</ref> was the first published work on electric telegraphy and even described the risk of [[Submarine communications cable#Bandwidth problems|signal retardation]] due to induction.<ref>{{Cite journal |last=Ronalds |first=B.F. |date=Feb 2016 |title=The Bicentennial of Francis Ronalds's Electric Telegraph |journal=Physics Today |volume=69 |issue=2 |pages=26–31 |doi=10.1063/PT.3.3079 |bibcode=2016PhT....69b..26R |doi-access=free}}</ref> Elements of Ronalds' design were utilised in the subsequent commercialisation of the telegraph over 20 years later.<ref>{{Cite book |title=Sir Francis Ronalds: Father of the Electric Telegraph |last=Ronalds |first=B.F. |publisher=Imperial College Press |year=2016 |isbn=978-1-78326-917-4 |location=London}}</ref>

{{main|Electric telegraphy in Imperial Russia }}
[[File:Pavel Shilling.jpg|thumb|left|[[Pavel Schilling]], an early pioneer of electrical telegraphy]]
The [[Schilling telegraph]], invented by [[Baron Schilling]] von Canstatt in 1832, was an early [[needle telegraph]]. It had a transmitting device that consisted of a keyboard with 16 black-and-white keys.{{sfn|Fahie|1884|pages=307–325}} These served for switching the electric current. The receiving instrument consisted of six [[galvanometer]]s with magnetic needles, suspended from [[silk]] [[Yarn|threads]]. The two stations of Schilling's telegraph were connected by eight wires; six were connected with the galvanometers, one served for the return current and one for a signal bell. When at the starting station the operator pressed a key, the corresponding pointer was deflected at the receiving station. Different positions of black and white flags on different disks gave combinations which corresponded to the letters or numbers. Pavel Schilling subsequently improved its apparatus by reducing the number of connecting wires from eight to two.
	 	
On 21 October 1832, Schilling managed a short-distance transmission of signals between two telegraphs in different rooms of his apartment. In 1836, the British government attempted to buy the design but Schilling instead accepted overtures from [[Nicholas&nbsp;I of Russia]]. Schilling's telegraph was tested on a {{convert|5|km|mi|adj=mid|-long}} experimental underground and underwater cable, laid around the building of the main Admiralty in Saint Petersburg and was approved for a telegraph between the imperial palace at [[Peterhof Palace|Peterhof]] and the naval base at [[Kronstadt]]. However, the project was cancelled following Schilling's death in 1837.{{sfn|Huurdeman|2003|p=54}} Schilling was also one of the first to put into practice the idea of the [[binary coding|binary]] system of signal transmission.{{sfn|Fahie|1884|pages=307–325}} His work was taken over and developed by [[Moritz von Jacobi]] who invented telegraph equipment that was used by Tsar [[Alexander III of Russia|Alexander III]] to connect the Imperial palace at [[Tsarskoye Selo]] and [[Kronstadt Naval Base]].
	
In 1833, [[Carl Friedrich Gauss]], together with the physics professor [[Wilhelm Eduard Weber|Wilhelm Weber]] in [[Göttingen]], installed a {{convert|1200|m|ft|adj=mid|-long}} wire above the town's roofs. Gauss combined the [[Schweigger multiplier|Poggendorff-Schweigger multiplicator]] with his magnetometer to build a more sensitive device, the [[galvanometer]]. To change the direction of the electric current, he constructed a [[commutator (electric)|commutator]] of his own. As a result, he was able to make the distant needle move in the direction set by the commutator on the other end of the line.

[[File:Diagram of alphabet used in a 5 needle Cooke and Wheatstone Telegraph, indicating the letter G.png|thumb|left|Diagram of alphabet used in a 5-needle Cooke and Wheatstone Telegraph, indicating the letter G]]At first, Gauss and Weber used the telegraph to coordinate time, but soon they developed other signals and finally, their own alphabet. The alphabet was encoded in a binary code that was transmitted by positive or negative voltage pulses which were generated by means of moving an induction coil up and down over a permanent magnet and connecting the coil with the transmission wires by means of the commutator. The page of Gauss's laboratory notebook containing both his code and the first message transmitted, as well as a replica of the telegraph made in the 1850s under the instructions of Weber are kept in the faculty of physics at the [[University of Göttingen]], in Germany.

Gauss was convinced that this communication would be of help to his kingdom's towns. Later in the same year, instead of a [[voltaic pile]], Gauss used an [[Electromagnetic induction|induction]] pulse, enabling him to transmit seven letters a minute instead of two. The inventors and university did not have the funds to develop the telegraph on their own, but they received funding from [[Alexander von Humboldt]]. [[Carl August Steinheil]] in [[Munich]] was able to build a telegraph network within the city in 1835–1836. In 1838, Steinheil installed a telegraph along the [[Nuremberg–Fürth railway line]], built in 1835 as the first German railroad, which was the first [[earth-return telegraph]] put into service.

By 1837, [[William Fothergill Cooke]] and [[Charles Wheatstone]] had co-developed a [[Cooke and Wheatstone telegraph|telegraph system]] which used a number of needles on a board that could be moved to point to letters of the alphabet. Any number of needles could be used, depending on the number of characters it was required to code. In May 1837 they patented their system. The patent recommended five needles, which coded twenty of the alphabet's 26 letters.

[[File:Wallace Study-Telegraph.jpg|thumb|Morse key and sounder]]
[[Samuel Morse]] independently developed and patented a recording electric telegraph in 1837. Morse's assistant [[Alfred Vail]] developed an instrument that was called the register for recording the received messages. It embossed dots and dashes on a moving paper tape by a stylus which was operated by an electromagnet.{{sfn|Calvert|2008}} Morse and Vail developed the [[Morse code]] signalling [[alphabet]]. 

On 24 May 1844, Morse sent to Vail the historic first message “[[Baltimore-Washington telegraph line|WHAT HATH GOD WROUGHT]]" from the [[United States Capitol|Capitol]] in Washington to the [[B&O Railroad Museum|old Mt. Clare Depot]] in [[Baltimore]].<ref>Howe, p. 7</ref><ref>{{Citation |last=History.com Staff |title=Morse Code & the Telegraph |publisher=A+E Networks |year=2009 |url=http://www.history.com/topics/inventions/telegraph}}</ref>
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