Samuel Pierpont Langley

Britannica Concise Encyclopedia: Samuel Pierpont Langley

(born Aug. 22, 1834, Roxbury, Mass., U.S. — died Feb. 27, 1906, Aiken, S.C.) U.S. astronomer and aeronautics pioneer. He taught for many years at the future University of Pittsburgh. He studied the effect of solar activity on weather and invented the bolometer (1878), a radiant-heat detector sensitive to extremely small temperature differences. He began conducting experiments on lift and drag of wings by building flying machines, and in 1896 one of his heavier-than-air machines became the first to achieve sustained unmanned flight, flying 3,000 ft (900 m) along the Potomac River.

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The American scientist Samuel Pierpont Langley (1834-1906) was a pioneer experimenter with airplanes and in the science of aeronautics.

Samuel Langley was born in Roxbury, Mass., on Aug. 22, 1834. As a boy, he studied diligently and read widely in history, the classics, and various branches of science, but his formal education ended with graduation from high school in 1851.

For the next several years Langley worked as an engineer and architect. After a trip abroad in 1864-1865 to visit observatories and research centers, he received an assistantship in the Harvard Observatory, Cambridge, Mass. Later he was put in charge of the small observatory at the Naval Academy in Annapolis, Md. In 1867 he became director of the Allegheny Observatory and professor of physics and astronomy at the Western University of Pennsylvania (now the University of Pittsburgh).

During the next few years Langley devised and sold to the Pennsylvania Railroad a method of regulating railroad time from the observatory clock, and he made a number of visual observations of the solar spectrum, studying particularly the nature of sunspots. In 1878 he invented the bolometer, an instrument for measuring tiny quantities of heat. Through its use Langley was able to measure lunar and solar radiation, study the transparency of the atmosphere to different solar rays, and determine their greater intensity at high altitudes, even beyond the atmosphere altogether. He organized a famous expedition to Mt. Whitney, Calif., in 1881 to carry out this work. Afterward Langley was much in demand as a popular lecturer and author. A collection of his writings, The New Astronomy (1888), has become a classic in astronomical literature. Langley's concern was not with the traditional astronomy of position but with the newer physics of structure.

Langley was appointed secretary of the Smithsonian Institution in Washington, D. C., in 1887 and served in that post until his death. During this time he investigated the possibilities of manned flight, studying the lift and drift of moving plane surfaces on a sophisticated scientific basis. Experimenting with small models propelled by elastic strips, he worked out the mathematics of the problem. His contributions to aviation rest not only on the knowledge he acquired and shared with others or upon his successful long-distance flights of power-driven models, but also upon the dignity he brought, as a man of sound scientific reputation, to the new and often-ridiculed field of aeronautics.

In 1896 Langley flew a 14-foot steam-powered model for 3,000 feet with excellent stability, the craft touching down lightly after the fuel was exhausted. A second model flew 4,200 feet, or over three-quarters of a mile. These were the first sustained free flights of powered heavier-than-air machines, and they demonstrated the practicability of mechanical flight. With the advent of the Spanish-American War in 1898, Langley received a $50,000 grant from the U.S. War Department to continue his efforts to achieve manned flight.

Eventually Langley built a full-sized machine driven by a 53-horsepower gasoline engine. He made two well-publicized attempts to fly it in 1903. These flights failed, probably because of defects in the launching device, not because of design or engine malfunction. But Langley was subjected to much public ridicule. Only 9 days after his second disappointment, the Wright brothers made their historic first flight.

A restored and slightly modified version of Langley's airplane was flown successfully by Glenn Curtiss in 1914, and Langley's contributions to flight have been recognized by naming an airfield and an aeronautics laboratory after him.

Langley was a large, reserved man, though witty and charming in private intercourse. He enjoyed a very high scientific reputation and published many scientific articles and reports, as well as popular accounts of his astronomical and aeronautical experiments. He died at Aiken, S. C., on Feb. 2, 1906.

Samuel Pierpont Langley
Samuel Pierpont Langley
Born	August 22, 1834(1834-08-22) Roxbury, Massachusetts
Died	February 27, 1906 (aged 71) Aiken, South Carolina
Nationality	United States
Fields	astronomy aviation
Known for	solar physics
Notable awards	Henry Draper Medal

Aviation work

Langley attempted to make a working piloted heavier-than-air aircraft.

Langley's steam-powered Aërodrome No. 5 in flight. Photo by Alexander Graham Bell.

His models flew, but his two attempts at piloted flight were not successful. Langley began experimenting with rubber-band powered models and gliders in 1887. (According to one book, he was not able to reproduce Alphonse Pénaud's time aloft with rubber power but persisted anyway.) He built a rotating arm (functioning similar to a wind tunnel) and made larger flying models powered by miniature steam engines.

His first success came on May 6, 1896 when his Number 5 unpiloted model flew nearly 3/4 of a mile after a catapult launch from a boat on the Potomac River. The distance was ten times longer than any previous experiment with a heavier-than-air flying machine,^[1] demonstrating that stability and sufficient lift could be achieved in such craft. On November 11 that year his Number 6 model flew more than 5000 feet.

In 1898, based on the success of his models, Langley received a War Department grant of $50,000 and $20,000 from the Smithsonian to develop a piloted airplane, which he called an "Aerodrome" (coined from Greek words roughly translated as "air runner"). Langley hired Charles M. Manly (1876-1927) as engineer and test pilot. When Langley received word from his friend Octave Chanute of the Wright brothers' success with their 1902 glider, he attempted to meet the Wrights, but they politely evaded his request.

Manly with Langley

While the full-scale Aerodrome was being designed and built, the internal combustion engine was contracted out to manufacturer Stephen Balzer (1864-1940). When he failed to produce an engine to the power and weight specifications, Manly finished the design. This engine had far more power than did the engine for the Wright brothers' first airplane—50 hp compared to 12 hp. The engine, mostly the technical work of men other than Langley, was probably the project's main contribution to aviation.^[2]

The piloted machine had wire-braced tandem wings (one behind the other). It had a Pénaud tail for pitch and yaw control but no roll control, depending instead on the dihedral angle of the wings, as did the models, for maintaining roughly level flight.

In contrast to the Wright brothers' design of a controllable airplane that could fly against a strong wind and land on solid ground, Langley sought safety by practicing in calm air over the Potomac River. This required a catapult for launching. The craft had no landing gear, the plan being to descend into the water after demonstrating flight which if successful would entail a partial, if not total, rebuilding of the machine. Langley gave up the project after two crashes on take-off on October 7 and December 8, 1903.

First failure of the manned Aerodrome, Potomac River, Oct. 7, 1903

Langley's 1/4-scale model; it flew several hundred yards on August 8, 1903.

Langley Aerodrome No. 6 at Posvar Hall, University of Pittsburgh

In the first attempt, Langley said the wing clipped part of the catapult, leading to a plunge into the river "like a handful of mortar," according to one reporter. On the second attempt the craft broke up as it left the catapult (Hallion, 2003; Nalty, 2003). Manly was recovered unhurt from the river both times. Newspapers made great sport of the failures, and some members of Congress strongly criticized the project.

The Aerodrome was heavily modified and flown a few hundred feet by Glenn Curtiss in 1914, as part of his attempt to fight the Wright brothers' patent, and as an effort by the Smithsonian to rescue Langley's aeronautical reputation. Nevertheless, courts upheld the patent. However, the Curtiss flights emboldened the Smithsonian to display the Aerodrome in its museum as "the first man-carrying aeroplane in the history of the world capable of sustained free flight". Fred Howard, extensively documenting the controversy, wrote: "It was a lie pure and simple, but it bore the imprimatur of the venerable Smithsonian and over the years would find its way into magazines, history books, and encyclopedias, much to the annoyance of those familiar with the facts." (Howard, 1987). The Smithsonian's action triggered a decades-long feud with the surviving Wright brother, Orville.

Langley had no effective way of addressing the Wright brothers' central innovation of controlling an airplane too big to be maneuvered by the weight of the pilot's body. So if the Aerodrome had flown stably, as the models did, Manly would have been in considerable danger when the machine descended, uncontrolled, for a landing—especially if it had wandered away from the river and over solid ground.

Air and sea craft, facilities and an award have been named in Langley's honor, including:

Langley medal
NASA Langley X-43A Hyper-X
NASA Langley Research Center (NASA LaRC), Hampton, Virginia
Langley Air Force Base
Langley Hall at the University of Pittsburgh
Langley Memorial Aeronautical Laboratory
Langley unit of solar radiation
Mount Langley in the Sierra Nevada
USS Langley (CV-1)
USS Langley (DE‑131), laid down 10 July 1942 and renamed Hammann on 1 August 1942
USS Langley (CVL-27)
Seadrome Langley, intended as one in a chain of Atlantic aviation way-stations, cancelled due to the Depression
SS Samuel P. Langley, U.S. Liberty Ship

Other work

Langley invented the bolometer, an instrument for measuring infrared radiation, and used it on astronomical objects. He made one of the first attempts to measure the surface temperature of the Moon, and his measurement of interference of the infrared radiation by carbon dioxide in Earth's atmosphere was used by Svante Arrhenius in 1896 to make the first calculation of how climate would change from a future doubling of carbon dioxide levels. ^[3]

References

Notes

^ Smithsonian Samuel P. Langley Collection Historical note
^ http://aerostories.free.fr/precurseurs/langley/mot_lang.JPG
^ David Archer, The Long Thaw (2009), p. 13.

Bibliography

"A Dream of Wings: Americans and the Airplane, 1875-1905," by Dr. Tom D. Crouch, W.W. Norton, 1981
Taking Flight: Inventing the Aerial Age, from Antiquity through the First World War, by Dr. Richard P. Hallion, Oxford University Press, 2003
Wilbur and Orville: A Biography of the Wright Brothers, by Fred Howard, Dover, 1987
A Heritage of Wings, An Illustrated History of Naval Aviation, by Richard C. Knott, Naval Institute Press, Annapolis, Maryland, 1997
Winged Shield, Winged Sword: 1907-1950: A History of the United States Air Force, by Bernard C. Nalty, University Press of the Pacific, 2003
Aviation, The Pioneer Years, edited by Ben Mackworth-Praed, Studio Editions, Ltd., London, 1990
To Conquer The Air—The Wright Brothers and the Great Race for Flight, by James Tobin, Free Press, Division of Simon & Shuster, 2003
"Vita ed opere dell'astronomo e costruttore aeronautico Samuel Pierpont Langley" by Ciampaglia Giuseppe. Rivista Storica. Gennaio 1996.

External links

v • d • e Secretaries of the Smithsonian Institution

Joseph Henry (1846) · Spencer Fullerton Baird (1878) · Samuel Pierpont Langley (1887) · Charles Doolittle Walcott (1907) · Charles Greeley Abbot (1928) · Alexander Wetmore (1944) · Leonard Carmichael (1953) · Sidney Dillon Ripley (1964) · Robert McCormick Adams, Jr. (1984) · Ira Michael Heyman (1994) · Lawrence M. Small (2000) · Cristián Samper (2007) · G. Wayne Clough (2008)

Persondata
NAME	Langley, Samuel Pierpont
ALTERNATIVE NAMES
SHORT DESCRIPTION	American physicist and pioneer of aviation
DATE OF BIRTH	August 22, 1834
PLACE OF BIRTH	Roxbury, Massachusetts
DATE OF DEATH	February 27, 1906
PLACE OF DEATH	Aiken, South Carolina

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