Samuel Finley Breese Morse, 1840
|Born||Samuel Finley Breese Morse
April 27, 1791
|Died||April 2, 1872
5 West 22nd Street, New York City, New York
|Known for||The invention and transmission of Morse code|
Samuel Finley Breese Morse (April 27, 1791 – April 2, 1872) was an American painter and inventor. After having established his reputation as a portrait painter, in his middle age Morse contributed to the invention of a single-wire telegraph system based on European telegraphs. He was a co-developer of the Morse code, and helped to develop the commercial use of telegraphy.
- 1 Birth and education
- 2 Painting
- 3 Attributed artworks
- 4 Telegraph
- 5 Relays
- 6 Federal support
- 7 Patent
- 8 Political views
- 9 Marriages
- 10 Later years
- 11 Honors and awards
- 12 Patents
- 13 Notes
- 14 References
- 15 Further reading
- 16 External links
Birth and education
Samuel F. B. Morse was born in Charlestown, Massachusetts, the first child of the pastor Jedidiah Morse (1761–1826), who was also a geographer, and his wife Elizabeth Ann Finley Breese (1766–1828). His father was a great preacher of the Calvinist faith and supporter of the American Federalist party. He thought it helped preserve Puritan traditions (strict observance of Sabbath, among other things), and believed in the Federalist support of an alliance with Britain and a strong central government. Morse strongly believed in education within a Federalist framework, alongside the instillation of Calvinist virtues, morals and prayers for his first son.
After attending Phillips Academy in Andover, Massachusetts, Samuel Morse went on to Yale College to receive instruction in the subjects of religious philosophy, mathematics and science of horses. While at Yale, he attended lectures on electricity from Benjamin Silliman and Jeremiah Day, and was a member of the Society of Brothers in Unity. He supported himself by painting. In 1810, he graduated from Yale with Phi Beta Kappa honors.
Morse expressed some of his Calvinist beliefs in his painting, Landing of the Pilgrims, through the depiction of simple clothing as well as the people's austere facial features. His image captured the psychology of the Federalists; Calvinists from England brought to North America ideas of religion and government, thus linking the two countries. This work attracted the attention of the notable artist Washington Allston. Allston wanted Morse to accompany him to England to meet the artist Benjamin West. Allston arranged — with Morse's father — a three-year stay for painting study in England. The two men set sail aboard the Lybia on July 15, 1811.
In England, Morse perfected his painting techniques under Allston's watchful eye; by the end of 1811, he gained admittance to the Royal Academy. At the Academy, he was moved by the art of the Renaissance and paid close attention to the works of Michelangelo and Raphael. After observing and practicing life drawing and absorbing its anatomical demands, the young artist produced his masterpiece, the Dying Hercules. (He first made a sculpture as a study for the painting.)
To some, the Dying Hercules seemed to represent a political statement against the British and also the American Federalists. The muscles symbolized the strength of the young and vibrant United States versus the British and British-American supporters. During Morse's time in Britain, the Americans and British were engaged in the War of 1812. Both societies were conflicted over loyalties. Anti-Federalist Americans aligned themselves with the French, abhorred the British, and believed a strong central government to be inherently dangerous to democracy.
As the war raged on, Morse's letters to his parents became more anti-Federalist in tone. In one such letter, Morse wrote:
"I assert that the Federalists in the Northern States have done more injury to their country by their violent opposition measures than a French alliance could. Their proceedings are copied into the English papers, read before Parliament, and circulated through their country, and what do they say of them... they call them [Federalists] cowards, a base set, say they are traitors to their country and ought to be hanged like traitors."
Although Jedidiah Morse did not change Samuel's political views, he continued as an influence. Critics believe that the elder Morse's Calvinist ideas are integral to Morse's Judgment of Jupiter, another significant work completed in England. Jupiter is shown in a cloud, accompanied by his eagle, with his hand spread above the parties and he is pronouncing judgment. Marpessa, with an expression of compunction and shame, is throwing herself into the arms of her husband. Idas, who tenderly loved Marpessa, is eagerly rushing forward to receive her, while Apollo stares with surprise.
Critics have suggested that Jupiter represents God's omnipotence — watching every move that is made. Some call the portrait a moral teaching by Morse on infidelity. Although Marpessa fell victim, she realized that her eternal salvation was important and desisted from her wicked ways. Apollo shows no remorse for what he did, but stands with a puzzled look. Many American paintings throughout the early nineteenth century had religious themes, and Morse was an early exemplar of this. Judgment of Jupiter allowed Morse to express his support of Anti-Federalism while maintaining his strong spiritual convictions. Benjamin West sought to present the Jupiter at another Royal Academy exhibition, but Morse's time had run out. He left England on August 21, 1815, to return to the United States and begin his full-time career as a painter.
The decade 1815–1825 marked significant growth in Morse's work, as he sought to capture the essence of America's culture and life. He painted the Federalist former President John Adams (1816). The Federalists and Anti-Federalists clashed over Dartmouth College. Morse painted portraits of Francis Brown — the college's president — and Judge Woodward (1817), who was involved in bringing the Dartmouth case before the U.S. Supreme Court.
Morse also sought commissions among the elite of Charleston, South Carolina. Morse's 1818 painting of Mrs. Emma Quash symbolized the opulence of Charleston. The young artist was doing well for himself. Between 1819 and 1821, Morse went through great changes in his life, including a decline in commissions due to the Panic of 1819. Unable to stop the rift within Calvinism, his father was forced to resign from his ministerial position, which he had held for three decades. The new branch that formed was the Congregational Unitarians, Morse considered them to be anti-Federalists, as their beliefs were related to religious salvation.
Although Samuel Morse respected his father's religious opinions, he sympathized with the Unitarians. Among the converts to Unitarianism were the prominent Pickerings of Portsmouth, New Hampshire, whom Morse had painted. Some critics thought his sympathies represented his own anti-Federalism. Morse was commissioned to paint President James Monroe in 1820. He embodied Jeffersonian democracy by favoring the common man over the aristocrat.
Morse had moved to New Haven. His commissions for the Hall of Congress (1821) and a portrait of the Marquis de Lafayette (1825) engaged his sense of democratic nationalism. The Hall of Congress was designed to capitalize on the success of François-Marius Granet's The Capuchin Chapel in Rome, which toured the United States extensively throughout the 1820s, attracting audiences willing to pay the 25-cent admission fee.
The artist chose to paint the House of Representatives,in a similar way, with careful attention to architecture and dramatic lighting. He also wished to select a uniquely American topic that would bring glory to the young nation. His subject did just that, showing American democracy in action. He traveled to Washington D.C. to draw the architecture of the new Capitol, and placed eighty individuals within the painting. He chose to portray a night scene, balancing the architecture of the Rotunda with the figures, and using lamplight to highlight the work. Pairs of people, those who stood alone, individuals bent over their desks working, were each painted simply but with faces of character. Morse chose nighttime to convey that Congress’ dedication to the principles of democracy transcended day.
The Hall of Congress failed to draw a crowd when exhibited in New York City in 1821. By contrast, John Trumbull’s Declaration of Independence had won popular acclaim the previous year. Viewers may have felt that the architecture of The Hall of Congress overshadows the individuals, making it hard to appreciate the drama of what was happening.
Morse was honored to paint the Marquis de Lafayette, the leading French supporter of the American Revolution. He felt compelled to paint a grand portrait of the man who helped to establish a free and independent America. He features Lafayette against a magnificent sunset. He has positioned Lafayette to the right of three pedestals: one has a bust of Benjamin Franklin, another of George Washington, and the third seems reserved for Lafayette. A peaceful woodland landscape below him symbolized American tranquility and prosperity as it approached the age of fifty. The developing friendship between Morse and Lafayette, and their discussions of the Revolutionary War, affected the artist after his return to New York City.
In 1826 he helped found the National Academy of Design in New York City. He served as the Academy's President from 1826 to 1845 and again from 1861 to 1862.
From 1830 to 1832, Morse traveled and studied in Europe to improve his painting skills, visiting Italy, Switzerland and France. During his time in Paris, he developed a friendship with the writer James Fennimore Cooper. As a project, he painted miniature copies of 38 of the Louvre's famous paintings on a single canvas (6 ft. x 9 ft), which he entitled The Gallery of the Louvre. He completed the work upon his return to the United States.
On a subsequent visit to Paris in 1839, Morse met Louis Daguerre. He became interested in the latter's daguerreotype—the first practical means of photography. Morse wrote a letter to the New York Observer describing the invention, which was published widely in the American press and provided a broad awareness of the new technology.
|1820||Latham Avery (c. 1820), oil on canvas (attributed to Samuel F. B. Morse)||view||Subject: lived 1775–1845; husband of Betsey Wood Lester (m. 1816). IAP 8E110005|
|1820||Mrs. Latham Avery (c. 1820), oil on canvas (attributed to Samuel F. B. Morse)||Subject: Betsey Wood Lester (1787-1837). IAP 8E110006|
As noted, in 1825 New York City had commissioned Morse to paint a portrait of Lafayette in Washington, DC. While Morse was painting, a horse messenger delivered a letter from his father that read, "Your dear wife is convalescent". The next day he received a letter from his father detailing his wife's sudden death. Morse immediately left Washington for his home at New Haven, leaving the portrait of Lafayette unfinished. By the time he arrived, his wife had already been buried. Heartbroken that for days he was unaware of his wife's failing health and her death, he decided to explore a means of rapid long distance communication.
While returning by ship from Europe in 1832, Morse encountered Charles Thomas Jackson of Boston, a man who was well schooled in electromagnetism. Witnessing various experiments with Jackson's electromagnet, Morse developed the concept of a single-wire telegraph. He set aside his painting, The Gallery of the Louvre. The original Morse telegraph, submitted with his patent application, is part of the collections of the National Museum of American History at the Smithsonian Institution. In time the Morse code, which he developed, would become the primary language of telegraphy in the world. It is still the standard for rhythmic transmission of data.
Meanwhile, William Cooke and Professor Charles Wheatstone had learned of the Wilhelm Weber and Carl Gauss electromagnetic telegraph in 1833. They had reached the stage of launching a commercial telegraph prior to Morse, despite starting later. In England, Cooke became fascinated by electrical telegraphy in 1836, four years after Morse. Aided by his greater financial resources, Cooke abandoned his primary subject of anatomy and built a small electrical telegraph within three weeks. Wheatstone also was experimenting with telegraphy and (most importantly) understood that a single large battery would not carry a telegraphic signal over long distances. He theorized that numerous small batteries were far more successful and efficient in this task. (Wheatstone was building on the primary research of Joseph Henry, an American physicist). Cooke and Wheatstone formed a partnership and patented the electrical telegraph in May 1837, and within a short time had provided the Great Western Railway with a 13-mile (21 km) stretch of telegraph. However, within a few years, Cooke and Wheatstone's multiple-wire signaling method would be overtaken by Morse's cheaper method.
I have been so constantly under the necessity of watching the movements of the most unprincipled set of pirates I have ever known, that all my time has been occupied in defense, in putting evidence into something like legal shape that I am the inventor of the Electro-Magnetic Telegraph! Would you have believed it ten years ago that a question could be raised on that subject?—S. Morse.
Morse encountered the problem of getting a telegraphic signal to carry over more than a few hundred yards of wire. His breakthrough came from the insights of Professor Leonard Gale, who taught chemistry at New York University (he was a personal friend of Joseph Henry). With Gale's help, Morse introduced extra circuits or relays at frequent intervals, and was soon able to send a message through ten miles (16 km) of wire. This was the great breakthrough he had been seeking. Morse and Gale were soon joined by Alfred Vail, an enthusiastic young man with excellent skills, insights and money.
At the Speedwell Ironworks in Morristown, New Jersey on January 11, 1838, Morse and Vail made the first public demonstration of the electric telegraph. Although Morse and Alfred Vail had done most of the research and development in the ironworks facilities, they chose a nearby factory house as the demonstration site. Without the repeater,[a] the range of the telegraph was limited to two miles (3 km), and the inventors had pulled two miles (3 km) of wires inside the factory house through an elaborate scheme. The first public transmission, with the message, "A patient waiter is no loser", was witnessed by a mostly local crowd.
Morse traveled to Washington, D.C. in 1838 seeking federal sponsorship for a telegraph line but was not successful. He went to Europe, seeking both sponsorship and patents, but in London discovered that Cooke and Wheatstone had already established priority. After his return to the US, Morse finally gained financial backing by Maine congressman Francis Ormand Jonathan Smith.
Morse made his last trip to Washington, D.C., in December 1842, stringing "wires between two committee rooms in the Capitol, and sent messages back and forth" to demonstrate his telegraph system. Congress appropriated $30,000 in 1843 for construction of an experimental 38-mile (61 km) telegraph line between Washington, D.C., and Baltimore along the right-of-way of the Baltimore and Ohio Railroad. An impressive demonstration occurred on May 1, 1844, when news of the Whig Party's nomination of Henry Clay for U.S. President was telegraphed from the party's convention in Baltimore to the Capitol Building in Washington.
On May 24, 1844, the line was officially opened as Morse sent the now-famous words, "What hath God wrought," from the Supreme Court chamber in the basement of the U.S. Capitol building in Washington, D.C., to the B&O's Mount Clare Station in Baltimore. Annie Ellsworth chose these words from the Bible (Numbers 23:23); her father, U.S. Patent Commissioner Henry Leavitt Ellsworth, had championed Morse's invention and secured early funding for it. His telegraph could transmit thirty characters per minute.
Morse at one time adopted Wheatstone and Carl August von Steinheil's idea of broadcasting an electrical telegraph signal through a body of water or down steel railroad tracks or anything conductive. He went to great lengths to win a lawsuit for the right to be called "inventor of the telegraph", and promoted himself as being an inventor. But, Alfred Vail also played an important role in the development of the Morse code, which was based on earlier codes for the electromagnetic telegraph.
Morse received a patent for the telegraph in 1847, at the old Beylerbeyi Palace (the present Beylerbeyi Palace was built in 1861–1865 on the same location) in Istanbul, which was issued by Sultan Abdülmecid, who personally tested the new invention. He was elected an Associate Fellow of the American Academy of Arts and Sciences in 1849. The original patent went to the Breese side of the family after the death of Samuel Morse.
In the 1850s, Morse went to Copenhagen and visited the Thorvaldsens Museum, where the sculptor's grave is in the inner courtyard. He was received by King Frederick VII, who decorated him with the Order of the Dannebrog. Morse expressed his wish to donate his portrait from 1830 to the king. The Thorvaldsen portrait today belongs to Margrethe II of Denmark.
The Morse telegraphic apparatus was officially adopted as the standard for European telegraphy in 1851. Only the United Kingdom (with its extensive overseas empire) kept the needle telegraph of Cooke and Wheatstone.[b]
In 1858, Morse introduced wired communication to Latin America when he established a telegraph system in Puerto Rico, then a Spanish Colony. Morse's oldest daughter, Susan Walker Morse (1821–1885), would often visit her uncle Charles Pickering Walker, who owned the Hacienda Concordia in the town of Guayama. During one of her visits, she met Edward Lind, a Danish merchant who worked in his brother-in-law's Hacienda La Henriqueta in the town of Arroyo. They later married. Lind purchased the Hacienda from his sister when she became a widow. Morse, who often spent his winters at the Hacienda with his daughter and son-in-law, set a two-mile telegraph line connecting his son-in-law's Hacienda to their house in Arroyo. The line was inaugurated on March 1, 1859, in a ceremony flanked by the Spanish and American flags. The first words transmitted by Samuel Morse that day in Puerto Rico were:
"Puerto Rico, beautiful jewel! When you are linked with the other jewels of the Antilles in the necklace of the world's telegraph, yours will not shine less brilliantly in the crown of your Queen!"
Morse was a leader in the anti-Catholic and anti-immigration movement of the mid-19th century. In 1836, he ran unsuccessfully for mayor of New York under the anti-immigrant Nativist Party's banner, receiving only 1496 votes. When Morse visited Rome, he allegedly refused to take his hat off in the presence of the Pope.
Morse worked to unite Protestants against Catholic institutions (including schools), wanted to forbid Catholics from holding public office, and promoted changing immigration laws to limit immigration from Catholic countries. On this topic, he wrote, "We must first stop the leak in the ship through which muddy waters from without threaten to sink us."
He wrote numerous letters to the New York Observer (his brother Sidney was the editor at the time) urging people to fight the perceived Catholic menace. These were widely reprinted in other newspapers. Among other claims, he believed that the Austrian government and Catholic aid organizations were subsidizing Catholic immigration to the United States in order to gain control of the country.
In his Foreign Conspiracy Against the Liberties of the United States, Morse wrote:
“Surely American Protestants, freemen, have discernment enough to discover beneath them the cloven foot of this subtle foreign heresy. They will see that Popery is now, what it has ever been, a system of the darkest political intrigue and despotism, cloaking itself to avoid attack under the sacred name of religion. They will be deeply impressed with the truth, that Popery is a political as well as a religious system; that in this respect it differs totally from all other sects, from all other forms of religion in the country.”
In the 1850s, Morse became well known as a defender of slavery, considering it to be sanctioned by God. This was a position held by many Southerners and others. In his treatise "An Argument on the Ethical Position of Slavery," he wrote:
My creed on the subject of slavery is short. Slavery per se is not sin. It is a social condition ordained from the beginning of the world for the wisest purposes, benevolent and disciplinary, by Divine Wisdom. The mere holding of slaves, therefore, is a condition having per se nothing of moral character in it, any more than the being a parent, or employer, or ruler.
Morse married Lucretia Pickering Walker on September 29, 1818, in Concord, New Hampshire. She died on February 7, 1825, shortly after the birth of their third child (Susan b. 1819, Charles b. 1823, James b. 1825). He married his second wife, Sarah Elizabeth Griswold on August 10, 1848 in Utica, New York and had four children (Samuel b. 1849, Cornelia b. 1851, William b. 1853, Edward b. 1857).
|This section needs additional citations for verification. (January 2009)|
Litigation over telegraph patent
In the United States, Morse held his telegraph patent for many years, but it was both ignored and contested. In 1853 The Telegraph Patent case--O'Reilly v. Morse-- came before the U.S. Supreme Court where, after very lengthy investigation, Chief Justice Roger B. Taney ruled that Morse had been the first to combine the battery, electromagnetism, the electromagnet and the correct battery configuration into a workable practical telegraph. However, in spite of this clear ruling, Morse still received no official recognition from the United States government.
The Supreme Court did not accept all of Morse's claims. The O'Reilly v. Morse case has become widely known among patent lawyers because the Supreme Court explicitly denied Morse's claim 8 for any and all use of the electromagnetic force for purposes of transmitting intelligible signals to any distance.
The Supreme Court sustained, however, Morse's claim to such telecommunication when effectuated by means of Morse's inventive "repeater" apparatus. This was an electrical circuit in which a cascade of many sets comprising a relay and a battery were connected in series, so that when each relay closed, it closed a circuit to cause the next battery to power the succeeding relay, as suggested in the accompanying figure. This caused Morse's signal to pass along the cascade without degrading into noise as its amplitude decreased with the distance traveled. (Each time the amplitude of the signal approaches the noise level, the repeater [in effect, a nonlinear amplifier] boosts the signal amplitude well above the noise level.)
The Supreme Court thus held that Morse could properly claim a patent monopoly on the system or process of transmitting signals at any distance by means of the repeater circuitry indicated above, but he could not properly claim a monopoly over any and all uses of electromagnetic force to transmit signals. The apparatus limitation in the former type of claim limited the patent monopoly to what Morse taught and gave the world. The lack of that limitation in the latter type of claim (i.e., claim 8) both gave Morse more than was commensurate with what he had contributed to society and discouraged the inventive efforts of others who might come up with different and/or better ways to send signals at a distance using the electromagnetic force.
The problem that Morse faced and how he solved it is discussed in more detail in the article O'Reilly v. Morse. In summary, the solution, as the Supreme Court stated, was the repeater apparatus described in the preceding paragraphs.
The importance of this legal precedent in patent law cannot be overstated, as it became the foundation of the law governing the eligibility of computer program implemented inventions (as well as inventions implementing natural laws) to be granted patents.
Assisted by the American ambassador in Paris, the governments of Europe were approached about their long neglect of Morse while their countries were using his invention. There was a widespread recognition that something must be done, and in 1858 Morse was awarded the sum of 400,000 French francs (equivalent to about $80,000 at the time) by the governments of France, Austria, Belgium, the Netherlands, Piedmont, Russia, Sweden, Tuscany and Turkey, each of which contributed a share according to the number of Morse instruments in use in each country. In 1858, he was also elected a foreign member of the Royal Swedish Academy of Sciences.
Morse lent his support to Cyrus West Field’s ambitious plan to construct the first transoceanic telegraph line. Morse had experimented with underwater telegraph circuits since 1842. He invested $10,000 in Field’s Atlantic Telegraph Company, took a seat on its board of directors, and was appointed honorary "Electrician". In 1856, Morse traveled to London to help Charles Tilston Bright and Edward Whitehouse test a 2,000-mile-length of spooled cable.
After the first two cable-laying attempts failed, Field reorganized the project, removing Morse from direct involvement. Though the cable broke three times during the third attempt, it was successfully repaired, and the first transatlantic telegraph messages were sent in 1858. The cable failed after just three months of use. Though Field had to wait out the Civil War, the cable laid in 1866 proved more durable, and the era of reliable transatlantic telegraph service had begun.
In addition to the telegraph, Morse invented a marble-cutting machine that could carve three-dimensional sculptures in marble or stone. He could not patent it, however, because of an existing 1820 Thomas Blanchard design.
Samuel Morse gave large sums to charity. He also became interested in the relationship of science and religion and provided the funds to establish a lectureship on "the relation of the Bible to the Sciences". Though he was rarely awarded any royalties for the later uses and implementations of his inventions, he was able to live comfortably.
He died in New York City on April 2, 1872, and was interred at Green-Wood Cemetery in Brooklyn, New York. By the time of his death, his estate was valued at some $500,000 ($9.84 million today).
Honors and awards
Despite honors and financial awards received from foreign countries there was no such recognition in the U.S. until he neared the end of his life, when on June 10, 1871 a bronze statue of Samuel Morse was unveiled in Central Park, New York City. An engraved portrait of Morse appeared on the reverse side of the United States two-dollar bill silver certificate series of 1896. He was depicted along with Robert Fulton. An example can be seen on the website of the Federal Reserve Bank of San Francisco's website in their "American Currency Exhibit":
According to his The New York Times obituary published on April 3, 1872, Morse received respectively the decoration of the Atiq Nishan-i-Iftikhar (English: Order of Glory) [first medal on wearer's right depicted in photo of Morse with medals], set in diamonds, from Sultan Abdülmecid of Turkey (c.1847), a "golden snuff box containing the Prussian gold medal for scientific merit" from the King of Prussia (1851); the Great Gold Medal of Arts and Sciences from the King of Württemberg (1852); and the Great Golden Medal of Science and Arts from Emperor of Austria (1855); a cross of Chevalier in the Légion d'honneur from the Emperor of France; the Cross of a Knight of the Order of the Dannebrog from the King of Denmark (1856); the Cross of Knight Commander of the Order of Isabella the Catholic, from the Queen of Spain, besides being elected member of innumerable scientific and art societies in this [United States] and other countries. Other awards include Order of the Tower and Sword from the kingdom of Portugal (1860); and Italy conferred on him the insignia of chevalier of the Order of Saints Maurice and Lazarus in 1864. Morse's telegraph was recognized as an IEEE Milestone in 1988.
On April 1, 2012, Google announced the release of "Gmail Tap", an April Fools' Day joke that allowed users to use Morse Code to send text from their mobile phones. Morse's great-great-grandnephew Reed Morse—a Google engineer—was instrumental in the prank, which became a real product.
- US Patent 1,647, Improvement in the mode of communicating information by signals by the application of electro-magnetism, June 20, 1840
- US Patent 1,647 (Reissue #79), Improvement in the mode of communicating information by signals by the application of electro-magnetism, January 15, 1846
- US Patent 1,647 (Reissue #117), Improvement in electro-magnetic telegraphs, June 13, 1848
- US Patent 1,647 (Reissue #118), Improvement in electro-magnetic telegraphs, June 13, 1848
- US Patent 3,316, Method of introducing wire into metallic pipes, October 5, 1843
- US Patent 4,453, Improvement in Electro-magnetic telegraphs, April 11, 1846
- US Patent 6,420, Improvement in electric telegraphs, May 1, 1849
- Morse devised a system of electromagnetic relays. This was the key innovation, as it freed the technology from being limited by distance in sending messages.
- It was in the month of J, a century ago, that Franklin made his celebrated experiment with the Electric Kite, by means of which he demonstrated the identity of electricity and lightning".
- "'Harrison Gray Dyar of Concord erected the first real line and despatched the first message over it by electricity ever sent by such means in America. This may seem strange to most of our readers,' says Alfred Munroe in Concord and the Telegraph, 'as the credit of this great discovery has been generally conceded to Prof. Morse, but the latter deserves credit only for combining and applying the discovery of others'".
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- Standage 1998, p. 172–173.
- Morse’s actual language in his claim 8 was: “Eighth. I do not propose to limit myself to the specific machinery or parts of machinery described in the foregoing specification and claims, the essence of my invention being the use of the motive power of the electric or galvanic current, which I call electro-magnetism, however developed, for marking or printing intelligible characters, signs, or letters, at any distances, being a new application of that power of which I claim to be the first inventor or discoverer.”
- The Supreme Court said: "Professor Morse has not discovered that the electric or galvanic current will always print at a distance, no matter what may be the form of the machinery or mechanical contrivances through which it passes. You may use electro-magnetism as a motive power, and yet not produce the described effect, that is, print at a distance intelligible marks or signs. To produce that effect, it must be combined with, and passed through, and operate upon, certain complicated and delicate machinery, adjusted and arranged upon philosophical principles, and prepared by the highest mechanical skill. And it is the high praise of Professor Morse, that he has been able, by a new combination of known powers, of which electro-magnetism is one, to discover a method by which intelligible marks or signs may be printed at a distance. And for the method or process thus discovered, he is entitled to a patent. But he has not discovered that the electro-magnetic current, used as motive power, in any other method, and with any other combination, will do as well."
- The Supreme Court said, “The great difficulty in their way was the fact that the galvanic current, however strong in the beginning, became gradually weaker as it advanced on the wire; and was not strong enough to produce a mechanical effect, after a certain distance had been traversed.” 56 U.S. at 107.
- See, for example, Alice Corporation Pty. Ltd v CLS Bank International, 573 U.S. __, 134 S. Ct. 2347 (2014); Mayo Collaborative Services v. Prometheus Labs., Inc., 566 U.S. __, 132 S. Ct. 1289 (2012); Bilski v. Kappos, 561 U.S. 593, 130 S. Ct. 3218 (2010); Gottschalk v. Benson, 409 U.S. 63 (1972)--all building on the Morse case as the seminal case in the field.
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- Introducing Gmail Tap. Mail.google.com. Retrieved on 2013-10-06.
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- Bellis, Mary (2009a), The Communication Revolution, The New York Times Company, retrieved 2009-04-27
- Carter, Samuel III (1968), Cyrus Field: Man of Two Worlds, New York: G.P. Putnam’s Sons
- Gleick, J. (2011), The Information: a History, a Theory, a Flood, London, Fourth Estate
- Invent Now staff (19 February 2007), Inventor profile: Samuel F. B. Morse, National Inventors Hall of Fame Foundation, retrieved 20 October 2013
- Mabee, Carleton (2004), Samuel F. B. Morse, archived from the original on December 12, 2006, retrieved 2007-02-14
- McCullough, David (2011), The Greater Journey: Americans in Paris, Simon & Schuster, ISBN 978-1-4165-7176-6
- McCullough, David (September 2011), "Reversal of Fortune", Smithsonian 42 (5): 80–88
- McEwen, Neal (1997), Morse Code or Vail Code? Did Samuel F. B. Morse Invent the Code as We Know it Today?, The Telegraph Office, retrieved 2009-10-17
- Morse, Samuel (December 26, 2006) , "Letter to the New-York Observer Vol. 17, No. 16 (April 20, 1839) p. 62.", The Daguerrotipe, The Daguerreian Society, retrieved 2008-09-25
- Morse, Samuel F. B. (2 May 2013) , Samuel F. B. Morse, His Letters and Journals (Part 5 of 9), FullTextArchive.com — Produced by Carlo Traverso, Richard Prairie and PG Distributed Proofreaders. This file was produced from images generously made available by the Bibliothèque nationale de France (BnF/Gallica)
- NYT staff (November 11, 1852), Franklin and his Electric Kite-Prosecution and Progress of Electrical researches—Historical Sketch of the Electric Telegraph—Claims of Morse and others—Uses of Electricity—Telegraphic Statistics., New York Times
- Stover, John F. (1987), History of the Baltimore and Ohio Railroad, West Lafayette, Indiana: Purdue University Press, pp. 59–60, ISBN 0-911198-81-4
- Standage, Tom (1998), The Victorian Internet, London: Weidenfeld & Nicholson
- Swayne, Josephine Latham (1906), The Story of Concord Told by Concord Writers, Boston: E.F. Worcester Press
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- This article incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). "Morse, Samuel Finley Breese". Encyclopædia Britannica (11th ed.). Cambridge University Press.
- Reinhardt, Joachim, "Samuel F. B. Morse (1791–1872) Congo, 1988".
- Mabee, Carleton, The American Leonardo: A Life of Samuel F. B. Morse (1943, reissued 1969); William Kloss, Samuel F. B. Morse (1988); Paul J. Staiti, Samuel F. B. Morse (1989) (Knopf, 1944) (Pulitzer Prize winner for biography for 1944).
- Samuel F. B. Morse, Foreign Conspiracy Against the Liberties of the United States: The Numbers Under the Signature (Harvard University Press 1835,1855)
- Kenneth Silverman, Lightning Man – The Accursed Life of Samuel F. B. Morse (De Capo Press 2004)
- Paul J. Staiti, Samuel F. B. Morse (Cambridge 1989).
- Lauretta Dimmick, Mythic Proportion: Bertel Thorvaldsen's Influence in America, Thorvaldsen: l'ambiente, l'influsso, il mito, ed. P. Kragelund and M. Nykjær, Rome 1991 (Analecta Romana Instituti Danici, Supplementum 18.), pp. 169–191.
- Samuel I. Prime, Life of S. F. B. Morse (New York, 1875)
- E. L. Morse (editor), his son, Samuel Finley Breese Morse, his Letters and Journals (two volumes, Boston, 1914)
- Iles, George (1912). "Leading American Inventors". New York: Henry Holt and Company. pp. 119–157
- Andrew Wheen, DOT-DASH TO DOT.COM: How Modern Telecommunications Evolved from the Telegraph to the Internet (Springer, 2011) pp 3–29
- James D. Reid, "The Telegraph in America: Its Founders, Promoters and Noted Men" New York: Arno Press, 1974.
- Robert Luther Thompson, "Wiring A Continent, The History of the Telegraph Industry in the United States 1832–186" Princeton University Press, 1947.
- Vail, J. Cummings (1914). Early History of the Electro-Magnetic Telegraph, from Letters and Journals of Alfred Vail: Arranged by his Son, J. Cummings Vail. New York: Hine Brothers.
- Wolfe, Richard J. / Patterson, Richard (2007). Charles Thomas Jackson - "Head Behind The Hands" – Applying Science to Implement Discovery and Invention in Early Nineteenth Century America. Novato, California: Historyofscience.com.
|Wikimedia Commons has media related to Samuel Finley Breese Morse.|
|Wikisource has the text of a 1900 Appletons' Cyclopædia of American Biography article about Samuel Morse.|
|Wikiquote has quotations related to: Samuel F. B. Morse|
- Art and the empire city: New York, 1825–1861, an exhibition catalog from The Metropolitan Museum of Art (fully available online as PDF), which contains material on Morse (see index)
- Samuel Morse at Find a Grave
- Speech of Morse given at the National Academy of Design, 1840, regarding the daguerreotype
- Reminiscence by Morse regarding the early days of the daguerreotype
- Samuel Finley Brown Morse Papers, 1911–1969 (call number JL016; 42.5 linear ft.) are housed in the Department of Special Collections and University Archives at Stanford University Libraries
- Booknotes interview with Kenneth Silverman on Lightning Man: The Accursed Life of Samuel F. B. Morse, February 22, 2004.
- Locust Grove (official site)
- Works by Samuel Finley Breese Morse at Project Gutenberg
- Works by or about Samuel Morse at Internet Archive