Page:Collier's New Encyclopedia v. 09.djvu/173

LEFT SXJBMAEINE TELEGRAPHY 139 STJBPCENA, or SUBPENA SUBMARINE TELEGRAPHY, the transmission of messages by electricity under the sea. The sending of messages by telegraph from one country to an- other, through wires buried many thou- sand feet beneath the water has come into general use since 1851, though the conception of its possibility dated back many years prior to that time. The very first suggestion that was ever made about a submarine cable was that made in the year 1795 by Salvia, a Spaniard, before the Academy of Sciences at Barcelona. Two years later this .same Spaniard proposed to connect Bar- celona and the island of Majorca by a submarine telegraph line. In 1803 Al- dini, who was a nephew of the cele- brated Galvini, made some interesting experiments in the transmission of elec- tric signals under the sea near Calais, France. In 1812 Schilling ignited pow- der by electricity transmitted through a sub-aqueous conducting wire under the Neva river, near St. Petersburg. John Robert Sharpe of England trans- mitted electric signals through seven miles of insulated sub-aqueous wire. This was in 1813. In 1838 it was demonstrated that sub- aqueous telegraphy was a matter which could be practically handled. This was done in actual experiments by Colonel Pasley of the Royal Engineers at Chat- terton in England. Just one year after Pasley's work in England Dr. O'Shaugh- nessy, the director of the East India Company's telegraph system, transmitted telegraphic signals through insulated wires under the Hugli river in India. About this time numerous inventors in many parts of the world thought of new experiments, and the art of submarine telegraphy began to grow. Prof. Charles Wheatstone of England suggested in 1840 the practicability of connecting Dover, England, with Calais, France, by a submarine telegraph. In the United States Samuel F. B. Morse, in 1842, transmitted electric signals along a copper wire between Castle Gar- den and Gfovernor's Island in New York harbor. In 1843 Professor Morse sug- gested the possibility of connecting Eurone and the United States by a sub- marine cable line. Meanwhile Samuel Colt was operating submarine cables between New York city, Coney Island and Fire Island. In 1845 Ezra Cornell laid 12 miles of copper wire in the Hudson river be- tween New York and Fort Lee. The wires were insulated and inclosed in a lead pipe and were successfully operated till they were destroyed by ice. In 1846 Charles West obtained permission from the British Government to connect Do- ver and Calais by copper wire, and one year later J. J. Craven of the United States, a resident of New Jersey, con- ducted a section of the New York and Washington telegraph line through the waters of a creek. The experiment was successful in every way. In 1849 Arm- strong proposed that a telegraph line be laid between Europe and the United States. In 1851 the first important submarine telegraph line was opened for business. It was laid by a company of English and French capitalists. The cable con- sisted of four copper wires, insulated with gutta-percha, surrounded by tarred hemp and protected by 10 galvanized iron wires wound spirally around it. The weight of this cabj was seven tons to the mile; it was 25 miles long, and vs^as sunk in 120 feet of water. In 1853 six submarine cables were laid connect- ing various parts of England, Ireland and Scotland. In the following year five more cables were laid in Europe, the longest of which was 64 miles. In 1856 several cables were laid in waters much deeper than formerly. One of these, running from Spezia, Italy, to Corsica, weighed eight tons to the mile, and was sunk to a depth of 600 feet. By 1906 there were sixteen transatlantic serviceable cables. In 1914, before the World War, there were seventeen cables between the United States and Europe. The German cables to America were cut as a war measure. This acted greatly to the disadvantage of Germany. The Treaty of Versailles left all German cables in the hands of the Allied or neutral nations. SUBMAXILLARY GLAND, in an- atomy one of the three salivary glands. It is situated immediately below th* base and the inner surface of the infe- rior maxilla. SUBORDINARY, in heraldry, a fig- ure borne in charges in coat armor, not considered to be so honorable as an ordi- nary, to which it gives place and cedes the principal points of the shield. Ac- cording to some writers, an ordinary when it comprises less than one-fifth of the whole shield is termed a subordinary. SUBORNATION OF PERJURY, the crime of inducing a person to commit perjury, punishable similarly to perjury. SUBP(ENA, or SUBPENA, in law, a writ or process commanding the attend- ance in a court of justice of the witness on whom it is served under a penalty. If the witness refuses or neglects to at- tend, and has no legal excuse, such as a serious illness, he may be sued in an action of damages, or imprisoned for