Steel; graphite jet vanes, some wooden construction elements in fuselage; aluminum tanks not present.
Dimensions:
Overall: 11 ft. 8 3/8 in. wide x 46 ft. 1 3/16 in. deep x 5 ft. 5 in. diameter x 44 ft. 5 3/16 in. long, 8427.9 lb. (356.6 x 1405.1 x 165.1 x 1354.3cm, 3822.9kg)
Gallaudet (Aircraft) C-1 Military Tractor Biplane [**No File**]
Collection Creator:
National Air and Space Museum. Archives Division. Search this
Type:
Archival materials
Collection Restrictions:
The majority of the Archives Department's public reference requests can be answered using material in these files, which may be accessed through the Reading Room at the Steven F. Udvar-Hazy Center in Chantilly, Virginia. More specific information can be requested by contacting the Archives Research Request.
Gallaudet (Aircraft) C-2 Military Tractor Biplane [**No File**]
Collection Creator:
National Air and Space Museum. Archives Division. Search this
Type:
Archival materials
Collection Restrictions:
The majority of the Archives Department's public reference requests can be answered using material in these files, which may be accessed through the Reading Room at the Steven F. Udvar-Hazy Center in Chantilly, Virginia. More specific information can be requested by contacting the Archives Research Request.
Early aviation catalogs, photographs, periodicals, class notes, and scrapbooks as well as other materials collected by Javier Arnago detailing the evolution of early aircrafts built before and during World World I.
Scope and Contents:
This collection consists of early aviation materials, collected by Javier Arango, pertaining to the development of early 20th century aircrafts. The bulk of the material consists of air meet programs and memorabilia, engine and aeroplane catalogs, articles and periodicals, maps and charts, postcards and correspondence, class notes and technical manuals, scrapbooks and journals, and a variety of photographs. Materials in English, French, German, and Dutch. Aviators pioneers include: the Wright Brothers, Henry Farman, Louis Bleriot, Hubert Latham, Glenn Curtiss, Louis Paulhan, and other French and American pilots. Aircraft manufacturers represented include: Wright Brothers, Curtiss-Wright, Blériot (France), Antoinette (Société Anonyme Antoinette) (France), Deperdussin (France), Farman, Voisin (France), and other American, French, German, and British inventors prior to World War I.
Arrangement:
Collection organized into eight sections by material type. The first three sections 'Aeroplane Catalogs,' 'Engine Catalongs,' and 'Air meet Programs' are in original order, which is alphabetically arranged by company, aircraft, or engine name and thereunder chronologically by year. The 'Periodicals' section is also alphabetically arranged by title and thereunder chronologically by year. 'Additional Text Materials,' 'Scrapbooks and albums,' and 'Class notes and journals' alphabetically arranged by creator's surname or title. The 'Photographs' section is organized by subjects or event, orginially grouped by Arango, and thereunder alphabetically arranged.
Biographical / Historical:
Javier Arango (1962-2017) was an investment consultant, aircraft collector, avid pilot, and board member of the Smithsonian Institution's National Air and Space Museum. Graduating at Harvard University, he studied the history of science and became an authority of World War I aviation focusing on the progression of warplanes. Establishing his Aeroplane Collection with the construction of a triplane in 1980, he began collecting original materials from the 1900s and 1910s. With a passion for understanding and preserving the history of flight, Arango amassed an exemplary study of the evolution of early aviation.
Provenance:
Javier Arango Living Trust, Gift, 2022, NASM.2022.0033
Restrictions:
No restrictions on access
Rights:
Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests.
James Cunningham, Son and Company (Rochester, New York) Search this
Extent:
10 Cubic feet (18 boxes)
Type:
Collection descriptions
Archival materials
Photographs
Place:
Rochester (N.Y.)
Date:
1908-1964
bulk 1908-1929
Summary:
The collection consists of glass plate negatives and photographic prints of the glass plate negatives depicting horse-drawn hearses (funeral wagons), carriages, and ambulances and motorized vehicles produced by James Cunningham, Son and Company from approximately 1908 to 1929. The majority of the glass plates and photographic prints depict horse-drawn hearses, but there are some motorized vehicles.
Scope and Contents:
The collection consists of glass plate negatives and photographic prints of the glass plate negatives depicting horse-drawn hearses (funeral wagons), carriages, and ambulances and motorized vehicles produced by James Cunningham, Son and Company from approximately 1908 to 1929. The majority of the glass plates and photographic prints depict horse-drawn hearses, but there are some motorized vehicles.
There are approximately 335 glass plate negatives and the same number of photographic prints. It is unknown who created the photographic prints, but some of the glass plates were originally held at the Free Library of Philadelphia.
The glass plates are in three sizes: 5" x 7" 8" x 10" and 11" x 14". The glass plates and the photographic prints are arranged by an alpha-numeric system that was presumably developed by the company. In some instances, J.L. Hill is identified as a photographer.
In some instances, the model number, style and date are provided. Most images are side views, although there are some rear and interior views. Some glass plates are unidentified or missing. Some of the descriptions include lamp number information. Many carriages had mounted lamps or lanterns that were oil or battery powered. if a carriage was built for a specific person or company, such as W. H. Graham Company, this information is listed.
Arrangement:
The collection is arranged into six series.
Series 1, Glass Plates, A1 to A55, 1908-1929 and undated
Series 2, Glass Plates, B1 to B159, [1913?] and undated
Series 3, Glass Plates, C1 to C50, undated
Series 4, Glass Plates, D1 to D64, undated
Series 5, Glass Plates, E1 to E8, undated
Series 6, Photographic Prints, undated
Series 7: Background Materials, 1930s-1964
Biographical / Historical:
James Cunningham (1815-1886) was born in County Down, Ireland to Arthur and Ann Cunningham. He came to the United States in 1833 from Canada seeking work in the New York City area, where he had an uncle practicing architecture. In Canada, Cunningham had worked in woodwork design in a carpenter's shop east of Toronto in Cobourg, Ontario. Cunningham returned to Canada via Rochester, New York. While in Rochester, he was introduced to George Hanford and J.H. Whitbeck, entrepreneurs who set up the first coach-making shop in Rochester in 1834.
From 1834 to 1838 Cunningham worked as an apprentice and journeyman for George Hanford and J.H. Whitbeck. He formed a partnership with two of his fellow-workers, James Kerr and Blanchard Dean. Together they bought out Hanford and Whitbeck and made cutters, known as one-horse open sleighs and buggies. In 1842 Kerr and Blanchard resigned, and James Cunningham assumed full responsibility.
Cunningham married Bridget Jennings in 1838, and they had three children: Augustine, Joseph, and Margaretta. Cunningham's son, Joseph (1842?-1914) joined his father in the company and as a result, the company reorganized in 1866 as James Cunningham and Son. Joseph Cunningham became a full partner in 1868. Rufus Dryer (1846-1937) became a partner in 1875 when he married Margaretta Cunningham in the same year. There were branch offices with display rooms in Louisville, Nashville, Memphis, New Orleans, Chicago, Des Moines, Kansas City, Topeka, Denver, and San Francisco. In 1876, Cunningham carriages and a hearse won prizes at the Philadelphia Centennial Exposition.
In 1882, the firm was incorporated as James Cunningham, Son and Company. It was the largest industrial enterprise in Rochester, New York, both in its plant area and in capital. The firm continued to make carriages until 1915. Joseph Cunningham and Rufus Dryer retired in 1909, and the company, which had become a partnership, was reincorporated. Augustine Cunningham, son of Joseph Cunningham, was president, James Dryer (son of Rufus Dryer) vice-president, and Francis Cunningham (son of Joseph Cunningham) was secretary and general manager.
In 1908 the company began automobile production, not for the popular market, but for the type of customer that bought its carriages. The company did not mass-produce their automobiles. Intially, it made only automobile bodies and assembled the rest of the car from engines, transmissions, axles, and radiators made by proprietary companies. By 1910 it produced the entire automobile. In 1916 Cunningham produced a V-8 engine, and the Cunningham car became outstanding for its clean, classic lines. It was the first car to not have running-boards, using instead steps of brass-framed aluminum.
In the late 1920s Cunningham entered the aviation business and created a subsidiary, the Cunningham-Hall Aircraft Corporation. The primary aim of the corporation was to build an airplane that would combine stability with speed. The first Cunningham-Hall plane designed with these requirements was a modified biplane: the lower wing was considerably larger than the upper and slotted, so that a current of air could be made to flow between its surfaces. This enabled the plane to land at low speeds. It was first tested in the small town of LeRoy, New York. Cunningham-Hall continued to make aircraft until 1938. Its X-14324, produced in 1934, was a low-wing monoplane made entirely of metal. The company also produced primary trainers, a six-place cabin plane, other passenger and cargo craft, and experimental planes for the Army and Navy. By the early 1930s the company had ceased to produce automobiles and funeral carriages/hearses.
Over the years Cunningham made a wide variety of products. During World War II, Cunningham found a temporary role in defense production. Prior to the war the compaay had produced a variety of odd products: safety belts for aircraft, diving helmets, even belt buckles for Boy Scout uniforms. During the Civil War the company made carriages for the Union armies, and the First World War, ambulances and automotive windlasses for observation balloons. More significant had been its experience of producing armored and tracked vehicles. In March 1928, Cunningham's first tank was tested at Aberdeen, Maryland. Equipped with a revolving turret and armed with a 37 millimeter cannon and a .30 caliber machine gun, it traveled twenty miles an hour, faster than any tank produced up to that time. In 1933, Cunningham developed a tank track, with light-weight rubber-block treads that allowed for even greater speeds. Cunningham also developed experimental half-tracks, cargo carriers, armored cars, and a weapons carrier for a 75 millimeter Howitzer.
In 1940 James Dryer retired. The corporation was dissolved in 1941 and replaced by a partnership, with Augustine and Francis Cunningham as co-partners. After World War II, the firm produced small farm and garden machines such as sickle-bar mowers, tractors, and rotary tillers. Cunningham also designed and produced a complete line of plumbing fixtures for house trailers in a constant effort to retool and redefine itself in the post-war years.
By 1952, the firm met Andrew W. Vincent, an electrical engineer with Stromberg-Carlson in Rochester. Vincent devoted himself to perfecting a small dial telephone system. The heart of this system was the crossbar switch. The company acquired Vincent's initial designs and patent applications and hired him as a consultant. The company restricted its production to creating prototypes of switching devices. The Cunningham crossbar was versatile. It had the ability to switch electrical information from low-level DC signals to 100 megacycles, reliably and at high speeds.
In 1968, Peter F. Cunningham, then president of the company, sold controlling interest to the Gleason Works, a Rochester-based manufacturer of machine tools. Under Gleason Works, the company was renamed Cunningham Corporation. In 1977, all Cunningham-related activities ended.
Related Materials:
Materials at the Smithsonian Institution
National Museum of American History, Division of Work & Industry
1929 Cunningham touring car. See accession #:310671.
Smithsonian Institution Libraries, Trade Literature Collection
Trade catalogs from James Cunningham Son & Company (See SILNMAHTL_12462)
Materials in Other Organizations
Long Island Museum of American Art, History and Carriages
Includes drawings, a trade catalog, a cart, and a buggy from James Cunningham and Sons.
Detroit Public Library
Papers of the James Cunningham Company, 1902-1964 (bulk 1909-1946)
Includes notebooks of G. Carson Baker, chief designer and David Fergusson, chief engineer, patent applications, correspondence, drawings and blueprints related to Fergusson's work, parts and instruction books for early automobiles (including electric automobiles), photographs of Cunningham factories, military vehicles and motor trucks.
Rochester Museum and Science Center, Libraries and Collections Department
Local Business History vertical files hold items related to James Cunningham, Son and Company as well as books.
Provenance:
The collection was donated in 1973 by the Cunningham Company to the National Museum of American History, Division of Transportation.
Restrictions:
Collection is open for research but is stored off-site and special arrangements must be made to work with it. Contact the Archives Center for information at archivescenter@si.edu or 202-633-3270.
Rights:
Collection items available for reproduction, but the Archives Center makes no guarantees concerning intellectual property rights. Archives Center cost recovery and use fees may apply when requesting reproductions.
This collection consists of historical files on FI, its predecessors, and subsidiaries. The material consists primarily of historical/public relations material, including photographs and brochures, but also includes significant amounts of business records for FEAC, Kreider-Reisner, Hiller, Republic, Ranger, Stratos, and Swearingen. The collection also documents Fairchild's joint ventures with Fokker, Pilatus, and other aircraft manufacturers. The material also includes an extensive negative collection as well as film and videotape libraries.
Scope and Contents note:
Sherman Mills Fairchild (1896-1971) founded Fairchild Aerial Camera Corporation (FAEC) in 1920. FAEC was incorporated in New York State for the purpose of developing, manufacturing and selling aerial photographic equipment. It went through many changes over the course of its existence. By 1971, FAEC was called Fairchild Industries, Inc. and had become an enormous corporation that produced such famous and history making aircraft as the Model 24 and A-10 as well as acquired other aviation industry giants such as Republic Aviation and Hiller Aircraft Company.
The Fairchild Industries, Inc. Collection, accessions 1989-0060 and 1990-0047, was donated to the Archives Division of the National Air and Space Museum, Smithsonian Institution in 1989 and 1990. The collection consists of printed and photographic materials. The subject matter of the material has a wide scope that includes, but is not restricted to, the following subject areas: public relations, legal matters, production photography, aircraft drawings and manuals, company published materials such as brochures and press releases, and history files. This collection does not contain the engineering files or the complete photo holdings or corporate records of Fairchild Industries, Inc or any of its predecessors.
The collection was maintained for many years by Theron Rinehart, a Fairchild Industries employee. Due to the large size and lack original order, the Archives Division decided to create a database as well as a traditional finding aid for access to the collection. Access to the Fairchild Docs database is available from the Archives Division by appointment. Aircraft types and designations are listed in the database and finding aid as they are in The Smithsonian National Air and Space Museum Directory of Airplanes Their Designers and Manufacturers, edited by Dana Bell, 2002 (Greenhill Books: London). Folder titles are those that appeared on the original folders and dates are provided for those materials that had them. The material was rehoused by the Archives Division and is now in acid free folders and boxes. There are few instances of water damage; these materials are indicated in the finding aid and database.
This finding aid contains a corporate history and chronology of the companies owned by of Fairchild Industries, Inc and a list of the Fairchild, Hiller, Republic and Swearingen aircraft documented in this collection. The books, periodicals and artifacts that were part of this collection have been removed. This finding aid contains a list of these materials. Please ask for assistance in contacting the NASM Branch and Smithsonian Libraries and the NASM Aeronautics Division.
Sherman Mills Fairchild's personal papers, The Sherman Fairchild Papers, can be found in the Manuscript Division of the Library of Congress.
Biographical/Historical note:
The following information was taken from The Smithsonian National Air and Space Museum Directory of Airplanes: Their Designers and Manufacturers, edited by Dana Bell, 2002 (Greenhill Books: London).
"In 1924, Sherman Fairchild established the Fairchild Aviation Corp as the parent company for his many aviation interests. In 1930, The Aviation Corp (AVCO) purchased Fairchild Aviation and its subsidiaries, initially operating the various companies under their original names. The following year, Sherman Fairchild repurchased Fairchild Aviation Corp and began repurchasing the subordinate companies. In a December 1936 reorganization, Fairchild Aviation Corp divested itself of all aircraft manufacturing interests, placing them under a new Fairchild Engine and Airplane Co.
The original aircraft manufacturing subsidiary of Fairchild Aviation Corp was Fairchild Airplane Manufacturing Co; it was created in 1924 to design and build aircraft as platforms for Fairchild's aerial survey cameras. Fairchild Airplane Manufacturing was one of the subsidiaries purchased by AVCO in 1930, but not one of the first companies repurchased by Sherman Fairchild. In 1931 AVCO combined the aircraft company with Fairchild Engine Co, forming American Airplane and Engine Corp. Fairchild Aviation Corp bought American Airplane and Engine in 1934, renaming the company the Fairchild Aircraft Manufacturing and Engine Co.
In the 1936 reorganization that divided Fairchild Aviation Corp assets, Fairchild Aircraft Manufacturing and Engine Co became Fairchild Engine and Airplane Co and took charge of all Fairchild aircraft and engine holdings. Fairchild Engine and Airplane Co became Fairchild Engine and Airplane Corp in 1950 and Fairchild Stratos Corp in 1961. With the 1964 purchase of Hiller Aircraft Corp, Fairchild Stratos was renamed Fairchild Hiller Corp, then, again, renamed Fairchild Industries after the separation of all Hiller interests in 1973. Although Fairchild Industries closed and sold its military and commercial aircraft manufacturing divisions in 1987, "Fairchild" aircraft continued to be produced through the Swearingen Metro and Fairchild Dornier lines (see below).
Fairchild created, purchased, and merged with several companies during its history. The following are the most important subsidiaries:
Fairchild Aircraft Ltd was created in 1929 as Fairchild Aviation Corp's Canadian subsidiary. The company ended all aircraft production in 1948.
The Kreider Reisner Aircraft Co Inc was formed in 1927. Kreider Reisner became a wholly-owned division of (first) the Fairchild Airplane Manufacturing Co in 1929, (second) AVCO's American Airplane and Engine Corp (which renamed KR aircraft "Pilgrims") in 1931, and (third) Fairchild Aircraft Manufacturing and Engine Co in 1934. Kreider-Reisner was renamed the Fairchild Aircraft Corp in 1935, becoming Fairchild Engine and Airplane Co's principle US aircraft manufacturing subsidiary. Fairchild Aircraft Corp was renamed the Fairchild Aircraft Division in 1939, the Fairchild Aircraft and Missiles Division in 1961, the Fairchild Stratos Aircraft and Missiles Division in 1961, the Aircraft-Missiles Division in 1965, and the Aircraft Division in 1967. With a growing number of aircraft subsidiaries reporting to Fairchild Industries, the Aircraft Division was broken up in a corporate reorganization of the 1970s. While the Kreider Reisner Midget is listed under Kreider Reisner, all Kreider Reisner Challenger series aircraft (designated "KR" biplanes by Fairchild) appear under Fairchild.
In 1936 Fairchild Engine and Airplane Co founded the subsidiary Duromold Aircraft Corp to better account for time spent developing the Duromold wood/resin bonding process and the Model 46 aircraft. In 1938, the majority interest in Duromold was bought by a group of investors (including process inventor Col. Virginius E. Clark), who formed the Clark Aircraft Corp. Fairchild kept a minority interest in Clark, retaining Duromold as a holding company. In September 1938, Fairchild renamed its Duromold division Fairchild Airplane Investment Corp, and Clark created a subsidiary called Duramold Aircraft Corp (note the spelling change). In 1938 Duramold was renamed Molded Aircraft Corp. In 1939, Fairchild Engine and Airplane Corp bought back a controlling interest in Clark and renamed Molded Aircraft Duramold Aircraft Manufacturing Corp. The Duramold and Clark companies disappeared during one of Fairchild's World War II reorganizations.
In 1952 Fairchild licensed the rights to Dutch Fokker's F.27 medium-range airliner. In 1953, the USAF transferred production contracts for the Chase Aircraft Co, Inc C 123 to Fairchild. The Chase-built XC 123 and XC 123A appear under Chase, while Fairchild's C-123 production is listed under Fairchild.
In 1954, the American Helicopter Co, Inc (founded 1947) became the Helicopter Division of Fairchild Engine and Airplane Corp. The division closed by the end of decade.
In 1964, Fairchild Stratos purchased Hiller Aircraft Corp, and both companies were renamed: Hiller Aircraft Co Inc become a subsidiary of Fairchild Hiller Corp. In the 1973 reorganization of Fairchild Hiller into Fairchild Industries, Hiller helicopter interests passed to an independent Hiller Aviation Inc….
In 1965, the Republic Aviation Corp became Republic Aviation Division (also known as Fairchild Republic) of Fairchild Hiller Corp. In 1987, Republic was shut down when Fairchild Industries ceased building commercial and military aircraft.
Swearingen Aircraft formed in the late 1950s, modifying Beech aircraft for executive transport. In 1965 the company produced its first new design, the Merlin. In 1970 Swearingen began development of the Metro, a joint venture to be marketed by Fairchild Hiller Corp. As a subsidiary of Fairchild Industries, Swearingen became Swearingen Aviation Corp, in 1971, Fairchild Swearingen in 1981, and Fairchild Aircraft Corp in September 1982. When Fairchild Industries closed its aircraft design and production facilities in 1987, Fairchild Aircraft Corp was sold to GMF Investments, Inc; GMF continued to operate the company under the Fairchild name. In 1990, Fairchild Aircraft filed for Chapter 11 protection and was purchased by Fairchild Acquisition Inc as Fairchild Aircraft Inc. Fairchild Aircraft delivered its last aircraft in 2001. Most Swearingen designs are filed under Swearingen; the Metro and Expediter can be found under Fairchild.
In 1996, Fairchild Acquisition became Fairchild Aerospace. While continuing to operate Fairchild Aircraft, the company also purchased 80% of the stock of Germany's Dornier Luftfahrt GmbH (with the remaining 20% of shares held by Daimler Benz Aerospace). Dornier's aircraft manufacturing operations were taken over by Fairchild Dornier Luftfahrt Beteiligungs GmbH. In 2000, Fairchild Aerospace was renamed Fairchild Dornier Aerospace, with corporate headquarters moved to Germany. Dornier designs predating Fairchild's takeover are listed under Dornier. Subsequent designs are found under Fairchild Dornier."
The following lists companies owned by Sherman Fairchild Industries and their years of incorporation. Major divisions of Fairchild are also listed. This list does not include when these entities were divested of or liquidated.
1926 -- Fairchild Air Transport, Limited (name change from Elliot-Fairchild Air Transport, Limited)
1927 -- Fairchild Aviation Corporation (reorganization and refinancing of the following subsidiaries and minority holdings, Fairchild Aerial Camera Corporation, Fairchild Aerial Surveys, Inc., Fairchild Flying Company, Inc, Fairchild Caminez Engine Corporation, Fairchild Airplane Manufacturing Corporation, Fairchild Aviation, Limited, Compania Mexicana de Aviacion, S.A. [20% stock] and International Aerial Engineering Company [20% stock])
1928 -- Faircam Realty Corporation
1928 -- Fairchild Boats, Incorporated
1928 -- Fairchild Engine Corporation
1928 -- V.E. Clark Corporation
1928 -- West Indian Aerial Express, Incorporated
1928 -- Fairchild Aviation Corporation of Illinois
1958 -- Fairchild Aircraft and Missiles Division (name change from Fairchild Aircraft Division)
1958 -- International Aluminum Structures Incorporated
1960 -- Astrionics Division (name change from Electronics Systems Division)
1960 -- Aircraft Service Division
1961 -- Fairchild Stratos Corporation (operating division, subsidiaries and affiliates: Aircraft-Missile Division, Aircraft Service Division, Electronic Systems Division, Stratos Division, Fairchild Arms International Ltd, Fairchild Aviation (Holland) N.V., and Aerotest Laboratories, Inc.)
1962 -- Space System Division formed by Fairchild Stratos Corporation
1962 -- Data Systems Engineering formed by Fairchild Stratos Corporation
1964 -- Hiller Aircraft Company, Inc
1964 -- Fairchild Hiller Corporation (name change from Fairchild Stratos Corporation; division and subsidiaries: Aircraft Missiles Division, Aircraft Service Division, Electronic Systems Division, Data Systems Engineering, Space Systems Division, Stratos Division, Hiller Aircraft Company, Inc., Fairchild Aviation (Holland) N.V. and Fairchild Arms International, Inc.)
1965 -- Republic Aviation Corporation
1965 -- Republic Aviation Division
1965 -- Electronic and Information Systems Division (formed by combining Electronic Systems Division, Data Systems Engineering and similar disciplines from Republic Aviation Corporation)
1966 -- Burns Aero Seat Company, Incorporated
1966 -- Fairchild Hiller – FRG Corporation
1966 -- Aircraft Division (formed by combining Aircraft-Missiles Division and Hiller Aircraft Company, Inc.)
1966 -- Space and Electronics Systems Division (formed by combining Space Systems Division and Electronic and Information Systems Division)
1966 -- Industrial Products Division (forms from the Industrial Products Branch of Stratos Division)
1967 -- S.J. Industries, Inc.
1967 -- Air Carrier Engine Services, Inc.
1967 -- Fairchild Chemical Corporation
1967 -- EWR-Fairchild International
1968 -- Fairchild Aircraft Marketing Company
1968 -- FAIRMICCO
1969 -- Fairchild-Germantown Development Company, Incorporated
1970 -- Fairchild Aviation (Asia) Limited
1971 -- Fairchild Industries, Incorporated (name changes from Fairchild Hiller Corporation, division and subsidiaries: Fairchild Aircraft Marketing Company, Fairchild Aircraft Service Division, Fairchild Industrial Products Division, Fairchild Republic Division, Fairchild Space and Electronics Division, Fairchild Stratos Division, Burns Aero Seat Company, Incorporated, Fairchild Arms International, Ltd., Fairchild Aviation (Asia) Limited, Fairchild Aviation (Holland) N.V., Fairchild-Germantown Development Company, Incorporated and S.J. Industries, Inc.)
1971 -- Fairchild KLIF, Incorporated
1971 -- Swearingen Aviation Corporation
1972 -- American Satellite Corporation
1972 -- Fairchild Minnesota, Incorporated
1972 -- Fairchild International Sales Corporation
1979 -- Bunker Ramo Corporation [18.4% interest]
1980 -- American Satellite Company
1980 -- Space Communications Company (Spacecom) [25% interest]
Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests.
Collection Citation:
Thomas DeWitt Milling Collection, NASM.XXXX.0133, National Air and Space Museum, Smithsonian Institution.
Watkins, J. Elfreth (John Elfreth), 1852-1903 Search this
Extent:
24.28 Cubic feet (64 boxes)
Type:
Collection descriptions
Archival materials
Correspondence
Drawings
Manuscripts
Photographs
Publications
Date:
1891-1914
bulk 1891-1900
Summary:
This collection includes information about Samuel P. Langley and his colleagues, as well as documentation of Langley's work. The collection includes biographies of Langley and his assistant Charles Manly, newspaper clippings, correspondence, manuscripts regarding Langley's aircraft, photographs and drawings, work requisitions for the Aerodromes, a sketchbook, specifications and measurements for Langley's experiments, the Langley Memoirs on Mechanical Flight and the Langley "Waste Books."
Scope and Contents:
This collection includes information about Langley and his colleagues, as well as documentation of Langley's work. The collection includes the Aerodrome project waste books, biographies of Langley and his assistant Charles Manly, newspaper clippings, correspondence), manuscripts regarding Langley's aircraft, photographs and drawings, work requisitions for staff labor on the project, a sketchbook, specifications and measurements for Langley's experiments, and manuscript material from the Langley Memoir on Mechanical Flight.
The National Air and Space Museum's Samuel P. Langley Collection was drawn from several sources in the Smithsonian Institution. Parts of the collection were separated at undetermined dates from the institutional records of Langley's time as Secretary (now held by the Smithsonian Institution Archives [SIA], as the Samuel P. Langley Papers, 1867-1906, Record Unit 7003) for several purposes:
Design papers and notes from Langley's aerodrome project were used for restoring the Langley Aerodromes for exhibits beginning in 1917.
Correspondence from the papers was consulted when controversies arose between the Wright brothers and the Smithsonian, and over credit for the design of the motor built by Stephen M. Balzer and extensively modified by Charles Manly, which was used on Aerodrome A.
Technical drawings of the Aerodromes were drawn from the SIA in the 1970s for conservation purposes.
Other material was added to the collection over the years:
Correspondence, memoranda, notes and label scripts from Langley exhibits from 1913 through the 1960s.
Design notes and work records from Langley's workshop were stored with the Aerodromes in the Museum's collections, and were later transferred to the Archives Division.
Biographical material on Langley, and correspondence to the Museum on Langley and the Aerodromes.
Material from the foundation of the Langley Aerodynamic Laboratory (now NASA's Langley Research Center) in 1913.
In addition to Record Unit 7003, researchers may wish to consult these Smithsonian Institution Archives' collections:
Record Unit 31, Office of the Secretary, Correspondence, 1866-1906, with related records to 1927.
Record Unit 34, Office of the Secretary, Correspondence, 1887-1907
Record Unit 7268, J. Elfreth Watkins Collection, 1869, 1881-1903, 1953, 1966 and undated.
The Archives Division of the National Air and Space Museum holds the Charles M. Manly Papers, (Acc. 1999-0004). Manly was Samuel Langley's assistant in the Aerodrome project from 1898 to 1903.
Note: The digital images in this finding aid were repurposed from scans made by an outside contractor for a commercial product and may show irregular cropping and orientation in addition to color variations resulting from damage to and deterioration of the original objects.
Arrangement:
The Samuel P. Langley Collection is arranged in the following series:
Series 1 - Waste Books: Langley and his staff used waste books - bound ledgers - to keep records of their work on the aeronautical projects, which Langley inspected frequently.
Series 2 - Scrapbooks: A collection of 18 scrapbooks containing newspaper and magazine clippings on "Aerial Navigation". Projects by Langley, Maxim, Lilienthal and many obscure aeronautical experimenters are included. Other clippings are included in Series VIII and XI.
Series 3 - Aeronautical Research and the Aerodromes: This series consists of notes, data, drawings and memoranda from Langley's aeronautical research at both the Smithsonian and the Allegheny Observatory. Subseries 2 contains material used in various Smithsonian exhibitions of the Langley Aerodromes. Some additional material is included in Series 11.
Subseries 3.1 - Design and Construction
Subseries 3.2 - Langley Aerodrome Exhibits
Series 4 - Correspondence: Letters and memoranda written by and sent to S. P. Langley and his assistants, C. M. Manly and J. E. Watkins. Additional correspondence is included in Series 11.
Subseries 4.1 - S. P. Langley Correspondence
Subseries 4.2 - S. P. Langley's Assistants' Correspondence
Subseries 3 - Miscellaneous Correspondence
Series 5 - Manuscripts, Papers, Articles: Manuscripts, published articles and papers by Langley and others. See also Series 11.
Subseries 5.1 - Works by S. P. Langley
Subseries 5.2 - Miscellaneous Manuscripts, Articles, and Notes
Series 6 - Photographs: Photographs, mainly of Langley's Aerodromes. Additional photographs are included with Series 11.
Series 7 - Trade Catalogues and Ephemera: Trade catalogues and price lists from various suppliers and dealers found stored with the "Aerodrome A" at the Museum's Paul E. Garber Facility in Suitland, Maryland.
Series 8 - Miscellaneous Files
Series 9 - Flat Boxes and Oversized Material: Ledgers, drawings, test data, publications
Series 10 - Shorthand Diaries: A collection of 37 notebooks containing notes in an unidentified shorthand system, dating from 1898 to 1902, with 8 notebooks bearing partial dates or undated.
Series 11 - Additional Material: After the publication of the Langley Collection finding aid, two additional boxes of correspondence, manuscript material, drawings and photographs were found in the Museum's rare book room, the Ramsey Room. This material has been included as a separate series.
Biographical / Historical:
Samuel Pierpont Langley (1834-1906) was an astronomer, a pioneer of aeronautical research, and Secretary of the Smithsonian Institution (1887-1906). As a young man, Langley studied civil engineering and pursued this as a career until 1864, when his interest in astronomy led him to positions at the Harvard Observatory, the Naval Academy, the Western University of Pennsylvania and the Allegheny Observatory in Pittsburgh. In 1887, Langley was named Secretary of the Smithsonian, and spent the following years in the research, construction and tests of flying machines. On May 6, 1896, his unpiloted Aerodrome No. 5, powered by a 1hp steam engine, flew nearly three quarters of a mile. This flight surpassed by more than ten times the best efforts of any predecessor. In 1898, at the request of the Army's Board of Ordnance and Fortifications, Langley started work on another design - the Great Aerodrome, also known as Aerodrome A. However, two attempts at launching the aircraft in 1903 failed. In addition to his scientific experiments, Langley's writings include Experiments in Aerodynamics and The Internal Work of the Wind, and the Langley Memoir on Mechanical Flight, published posthumously. Samuel P. Langley died in Aiken, South Carolina, on February 27, 1906.
A Timeline of Early Aeronautical Milestones and Samuel P. Langley's Life and Career
August 22, 1834 -- Samuel Pierpont Langley born to Samuel Langley and Mary Sumner Williams Langley in Roxbury Massachusetts.
1843 -- William Henson and John Stringfellow publish their design for the "Aeriel", a steam-powered "Aerial Steam Carriage".
1845 -- Langley begins to attend the Boston Latin School.
1847 -- Henson tests a model of his aircraft.
1848 -- Stringfellow and Henson build and test a steam powered model aircraft. It has a wingspan of 10 feet (3.5 meters), and it flies 131 feet (40 meters) before crashing into a wall.
1849 -- Sir George Cayley tests a towed triplane glider. In one test, it flies several yards with a local boy as a passenger.
1851 -- Langley graduates from the Boston High School; begins work as an apprentice with a Boston architect.
circa 1852-1864 -- Langley works for architectural and engineering firms in St. Louis and Chicago.
1853 -- Cayley's coachman flies a glider across Brompton Dale, Yorkshire. The coachman resigns his position after the flight. Cayley conceives the rubber band–powered model airplane. Michel Loup designs a powered twin propeller monoplane with a wheeled undercarriage.
1853-1854 -- L C. Letur tests his parachute-glider design. Letur is killed in a test flight in 1854.
1855 -- Joseph Pline coins the word "aeroplane" to describe a propeller-driven dirigible.
1857 -- Jean-Marie Le Bris, a sea captain inspired by the flight of the albatross, builds a glider he names the "Albatros Artificiel" and makes two short hops, breaking his leg in the second. Félix du Temple, a French naval officer, flies a clockwork model aircraft - the first sustained powered flights by a heavier-than-air machine.
1862 -- Gabriel de la Landelle coins the word "aviation", and later, "aviateur" - aviator.
1864 -- Langley returns to Roxbury. He begins work, with his younger brother John, on a five foot focal length telescope, which they complete over three years.
1864-1865 -- Samuel and John Langley tour Europe.
circa 1865 -- Langley is hired as observatory assistant at the Harvard University Observatory, Cambridge, Massachusetts.
January 1866 -- The Aeronautical Society of Great Britain (later named the Royal Aeronautical Society) is founded.
circa 1866 -- Langley is hired as assistant professor of mathematics at the U.S. Naval Academy, Annapolis, Maryland. Duties include restoring the Academy's astronomical observatory to operation.
1867 -- Langley is named professor of Astronomy and Physics at the Western University of Pennsylvania, Pittsburgh. Duties include directorship of the Allegheny Observatory. His tenure at Allegheny will begin his work at the popularization of science through lectures and writing newspaper and journal articles.
1868 -- Stringfellow builds a model triplane.
1869 -- Langley proposes a system of standard time distribution via the telegraph to railroads and cities. The Pennsylvania Railroad signs on for the service. Langley joins a U.S. Coast Survey expedition to Oakland, Kentucky, to observe the August 7th solar eclipse. He observes later eclipses in 1870, 1878, and 1900.
1870 -- The Allegheny Observatory begins twice-daily time signals to the Pennsylvania Railroad's offices. Other railroads, businesses, and government offices later subscribe to the service. The income from the system aids the operation of the Allegheny Observatory and Langley's research work. Langley travels to Jerez de la Frontera, Spain, to observe a solar eclipse.
1870 -- Alphonse Pénaud designs his rubber-powered "Hélicoptère".
August 18, 1871 -- Pénaud demonstrates his "Planophore", a rubber-powered model, at the Tuileries, Paris. It flies 40 meters (approximately 131 feet) in 11 seconds.
1871 -- Francis Wenham designs the first wind tunnel; it is built by John Browning.
1873 -- Langley makes a detailed drawing of a sun spot. Famous for its accuracy of detail, the drawing is widely reproduced for many years.
1876 -- Pénaud and Paul Gauchot patent a design for an inherently stable steam-powered full-sized airplane.
1878 -- Bishop Milton Wright presents a toy based on the Pénaud "Hélicoptère" to two of his sons – eleven year old Wilbur and seven year old Orville.
1879-1880 -- Langley designs and builds his bolometer for the measurement of the energy of incident electromagnetic radiation.
1879 -- Victor Tatin designs and flies a compressed air-powered seven foot long model.
1881 -- Langley organizes an expedition to Mount Whitney in California's Sierra Nevada Range for solar observations and other scientific studies.
1883 -- Alexandre Goupil builds a bird-shaped unpowered airplane that briefly lifts off in a tethered test while carrying two men.
1884 -- The U.S. Signal Service publishes Langley's report on the Mount Whitney expedition.
1886 -- Langley's interest in aeronautics is kindled by a paper on bird flight by a Mr. Lancaster at a meeting of the American Association for the Advancement of Science in Buffalo, New York. Lancaster also describes making small flying models which he describes as "floating planes" and "effigies".
1887 -- Langley designs and builds his large whirling table at the Allegheny Observatory for the study of aerodynamics; begins aeronautical experimental work. He coins the term Aerodromics for the art of building flying machines from the Greek aerodromoi.
January 12, 1887 -- Langley is appointed Assistant Secretary of the Smithsonian Institution.
April 1887 -- Langley begins to build small Pénaud type rubber-powered flying models.
November 18, 1887 -- Langley is named Secretary of the Smithsonian Institution on the death of Secretary Spencer F. Baird. He retains the directorship of the Allegheny Observatory, dividing his time between Washington and Allegheny until 1891 when James E. Keeler becomes director of the observatory.
1887 -- Hiram Maxim, an American living in Great Britain and inventor of the Maxim machine gun, begins work on a large powered biplane test rig.
1888 -- Langley publishes The New Astronomy.
1889 -- The National Zoological Park is founded, due to Langley's support. A site in Washington's Rock Creek Park is selected by Langley and Frederick Law Olmstead. The Zoo becomes part of the Smithsonian in 1890, and is opened in 1891.
1890 -- Langley founds the Smithsonian Astrophysical Observatory; its first home is in a wooden building behind the Smithsonian Castle. In 1955, SAO moves to Cambridge, Massachusetts.
1890 -- Clément Ader completes his "Éole', a full-sized airplane. It has a fifty foot wing span, and is equipped with a lightweight 20-horsepower steam engine of Ader's design and a four-bladed propeller. At Armainvilliers on October 9, the Éole lifts off the ground to an altitude of approximately one foot and skims the ground for about 50 meters (165 feet). Ader later claims a second flight of 100 meters in September, 1891; there is no evidence for the second flight.
March 28, 1891 -- First successful flight of one of Langley's rubber-powered models.
1891 -- Work begins on Langley's "Aerodrome No. 0", powered by two small steam engines. Construction is halted before the aircraft is completed.
1891 -- Otto Lilienthal, a German mechanical engineer, begins a program of flight research using piloted hang gliders of his own design. He and his brother Gustav will go on to design and build 18 gliders over the next five years, making approximately 2,000 flights. Langley's Experiments in Aerodynamics is published by the Smithsonian.
1892 -- Langley's "Aerodrome No. 1" designed and built. Not flown.
1892-1893 -- "Aerodrome No. 2" and "Aerodrome No. 3" are designed and built. "No. 3" is powered by compressed air. Neither is flown.
1893 -- A 38 foot scow is converted into a houseboat with a workshop and launch platform for Aerodrome testing. In May, it is towed down the Potomac to a point near Quantico, Virginia, off Chopawamsic Island. In November, "Aerodrome No. 4" is taken to the houseboat for testing.
November 20, 1893 -- Test flight of "Aerodrome No. 4" - it falls in the water.
December 7, 1893 -- Second flight of "Aerodrome No. 4" – it falls in the water.
July 31, 1894 -- Maxim's large test rig rises briefly from its support rails during a test run.
August 1-4, 1894 -- Octave Chanute and Albert Zahm sponsor the Conference on Aerial Navigation in Chicago, bringing together an international assembly of aeronautical researchers.
October 1894 -- Test flight of modified "Aerodrome No. 4", using improved catapult. Aircraft falls in the water. "Aerodrome No. 5", with a one horsepower gasoline burning steam engine, is also tested. It flies 35 feet for three seconds before stalling and falling into the river.
November 12, 1894 -- Lawrence Hargrave, an Australian researcher, links together four of his box kites, adds a simple seat, and flies to an altitude of 16 feet in the device.
1894 -- Chanute publishes his book Progress in Flying Machines.
1895 -- James Means publishes the first of his three >Aeronautical Annuals.
May 6, 1896 -- "Aerodrome No. 6" is launched from the houseboat's catapult; the left wing collapses and the aircraft lands in the water. Aerodrome No. 5 is launched at 3:05 PM and flies about half a mile in a minute and a half at an altitude reaching 100 feet – the first sustained flight of a heavier than air apparatus. In a second flight at 5:10, Aerodrome No. 5 makes three circles, climbs to about 60 feet, and is airborne for one minute and thirty-one seconds. The flight is witnessed and photographed by Alexander Graham Bell (box 45, folder 9).
June 1896 -- Chanute and Augustus Herring establish a camp at the Lake Michigan dunes near Miller, Indiana to conduct flight tests on a number of gliders – several of Chanute's designs, including his multiwing "Katydid", Herring's copy of a Lilienthal design, and a Chanute-Herring triplane collaboration.
August 9, 1896 -- Lilienthal's glider stalls and crashes from an altitude of about 50 feet. Lilienthal dies of his injuries the next morning. His last words are "Opfer müssen gebracht warden" - "Sacrifices must be made".
November 28, 1896 -- "Aerodrome No. 6" is flown from the houseboat – it flies 4800 feet in one minute and forty-five seconds.
July 1897 -- Ader completes his "Avion III", also known as the "Aquilon". It features two 20-horsepower steam engines and twin tractor propellers, and a wingspan of nearly 56 feet. The aircraft weighs approximately 880 pounds. Ader attempts a flight on October 14; "Avion III" is unable to rise off the ground.
March 25, 1898 -- Assistant Secretary of the Navy Theodore Roosevelt suggests the military use of the Langley "Aerodrome" to Navy Secretary John D. Long (box 40, folder 10).
April 6, 1898 -- Langley proposes a scaled-up version of the "Aerodrome" for military use to a joint Army-Navy board meeting at the Smithsonian. He requests $50,000 to build a large, piloted version of his earlier designs. The proposed aircraft is called the "Great Aerodrome", or "Aerodrome A".
June 1898 -- Charles M. Manly, a Cornell University engineering student, is hired as Langley's "assistant in charge of experiments".
October 1898 -- Major work begins on the "Great Aerodrome", also known as "Aerodrome A".
December 12, 1898 -- A contract is signed between Langley and Stephen M. Balzer of New York. Balzer is to design and build a 12 horsepower motor to power the "Aerodrome". On the same date, Langley writes to the U.S. Army Board of Ordnance and Fortifications, agreeing to design and build a flying machine. He estimates a cost of $50,000 to build his machine.
May 1899 -- A new, larger houseboat equipped with a turntable and catapult is delivered in Washington.
May 30, 1899 -- Wilbur Wright sends a letter to Langley at the Smithsonian, requesting material pertaining to aeronautical research. He says in his letter that he wishes "… to begin a systematic study of the subject in preparation for practical work." Assistant Secretary of the Smithsonian Richard Rathbun directs his staff to assemble a package of papers, including Langley's Story of Experiments in Mechanical Flight and Experiments in Aerodynamics. The Wright brothers receive the package three weeks later. They later credit the material they received from the Smithsonian with giving them a "good understanding of the nature of the problem of flying."
June 7 - August 3, 1899 -- Additional flights of "Aerodrome No. 5" and "No. 6" are made from the houseboat at Chopawamsic Island.
July 1899 -- Langley visits Ader's workshop in Paris.
July 1899 -- The Wright Brothers build a five foot biplane kite.
October 2, 1899 -- Percy Pilcher dies of his injury after his Lilienthal-type glider breaks up in flight.
May 1900 -- Langley and the staff of the Smithsonian Astrophysical Observatory observe the May 28 solar eclipse in Wadesboro, North Carolina.
August 1900 -- The Wrights begin to build their first glider, a biplane design with a 17 foot wingspan.
September 1900 -- The Wrights arrive at Kitty Hawk, North Carolina, to test their glider on the dunes. They begin test flights in early October.
July 1901 -- The Wrights return to Kitty Hawk with a new biplane glider.
August 1901 -- Langley creates the Children's Room, with exhibits designed to inspire interest in science, technology and natural history, in the Smithsonian Castle.
Autumn 1901 -- The Wright brothers return to Dayton and begin a program to develop their own fundamental aeronautical data, building a wind tunnel and a test rig mounted on a bicycle.
September 19, 1902 -- The Wrights complete assembly of their new glider and begin flights the same afternoon. They continue the flights through the autumn. After an early crash, continual modifications improve the design. Wilbur writes to his father, "We now believe the flying problem is really nearing its solution." On their return to Dayton, the brothers file a patent on their design.
July 14, 1903 -- The houseboat is towed down the Potomac to a spot opposite Widewater, Virginia, about 40 miles from Washington.
August 8, 1903 -- Langley's "Quarter-Size Aerodrome" makes a successful flight from the houseboat.
September 3, 1903 -- Work is begun on erecting the "Great Aerodrome" on the houseboat catapult.
October 7, 1903 -- The "Great Aerodrome", piloted by Manly, is launched by the houseboat catapult at 12:20 PM. The aircraft is snagged by the catapult launch car, and drops into the river. Langley was in Washington, and does not witness the attempt. The wreckage of the "Aerodrome" is salvaged.
December 8, 1903 -- The refurbished "Great Aerodrome" is readied for flight on the houseboat, now moored below Washington at Arsenal Point at the confluence of the Potomac and Anacostia rivers. At 4:45 PM, the aircraft, with Manly at the controls, is launched. The tail assembly drags along the launch track, and the "Aerodrome's" tail begins to collapse. The "Aerodrome" drops into the river. Manly is briefly trapped by the wreckage, but cuts himself free and is rescued. In the aftermath of the crash, Langley is ridiculed in the press. Though the Army withdraws its support, Langley receives offers of financial support from businessmen to continue his aeronautical work. He politely refuses these offers and ends his aeronautical activities.
December 17, 1903 -- The Wright brothers make four flights at Kitty Hawk, North Carolina. The first flight covered a distance of 120 feet and lasted 12 seconds; in the fourth flight, the "Flyer" traveled 852 feet in 59 seconds.
June 1905 -- The Smithsonian's accountant, W. W. Karr, is accused of embezzling Institutional funds. He is later convicted and imprisoned. Langley holds himself responsible for the loss, and thereafter refuses to accept his salary.
November 1905 -- Langley suffers a stroke.
February 1906 -- Langley moves to Aiken, South Carolina to convalesce.
February 27, 1906 -- After suffering another stroke, Langley dies.
March 3, 1906 -- Samuel Pierpont Langley is buried in Forest Hill Cemetery, Boston.
May-October 1914 -- The "Great Aerodrome" is refurbished and is tested on Lake Keuka, Hammondsport, New York; the tests are conducted by Glenn Curtiss. Using the Manly-Balzer motor and mounted on pontoons instead of using a catapult launch, the "Aerodrome" makes several short flights, the longest lasting about five seconds. Later a Curtiss 80-hp engine is substituted for the Manly-Balzer motor and a flight of about 3,000 feet is made on September 17. The Smithsonian Institution later displays the "Aerodrome" with an exhibit label that reads "The first man-carrying aeroplane in the history of the world capable of sustained free flight." This claim causes a rift between the Institution and Orville Wright (Wilber Wright had died in 1912) that is not fully mended until 1942. The Wright 1903 "Flyer" is presented to the Smithsonian Institution on December 17, 1948. Today, the "Flyer" is on exhibit in the Milestones of Flight Gallery of the National Air and Space Museum's Mall Building; Samuel Langley's "Great Aerodrome" is displayed at the Museum's Steven F. Udvar-Hazy Center in Chantilly, Virginia.
The Smithsonian Aeronautical Staff:
Langley's staff engaged in his aeronautical work as listed in waste books, drawings and correspondence:
The Smithsonian Aeronautical Staff
F. C. Bache -- Laborer with the U.S. Fish Commission, then located at the Smithsonian.
Carl Barus -- Formerly of the U.S. Geological Survey and the Weather Bureau. Hired in 1893 as a physicist; acted as the liaison between Langley and the Aerodrome project staff. Part of the crew on the houseboat.
Louville Eugene Emerson -- Laborer.
George L. Fowler -- An engineer, Fowler was hired by Langley to help design an engine for the Aerodromes.
William Gaertner -- Instrument maker.
Heed, Jr. -- Name found in a shorthand diary dated 1899 - presumably, a Smithsonian secretary or assistant.
Augustus Moore Herring -- An independent aeronautical experimenter and skilled designer and pilot of gliders; hired by Octave Chanute in 1894 and by Langley as chief assistant in 1895. Herring resigned (or was dismissed) in November 1895 and resumed work with Chanute. In 1908, he competed with the Wrights for the Army Flyer contract, but did not complete a finished aircraft.
Edward Chalmers Huffaker -- An engineer and aeronautical experimenter; built gliders based on the observation of bird flight; had delivered a paper at the International Conference on Aerial Navigation in Chicago, 1893. Recommended by Chanute, Huffaker was hired by Langley in December, 1894. He resigned from the Smithsonian in 1898 and went to work for Chanute.
L. C. Maltby -- Machinist, 1891-1899; assisted in motor design and oversaw the fabrications of the metalwork for the Aerodromes. Part of the crew on the houseboat.
Charles Matthews Manly -- Graduate of Cornell University (1896). Hired by Langley and placed in charge of construction of the Great Aerodrome in 1898. Piloted the Great Aerodrome on its two launch attempts, 1903. Manly resigned from the Smithsonian in 1905. He served as a consulting aviation engineer for different government agencies and corporations, including the British War Office, 1915; the Curtiss Aeroplane and Motor Corporation 1915-1919 (from 1919-1920 as the assistant general manger); and as a member of the US Commission to the International Aircraft Conference, London, 1918. Manly also completed and edited Langley's Memoir on Mechanical Flight which was published by the Smithsonian in 1911.
Charles B. Nichols -- Smithsonian cabinet maker (1890-1893), in charge of construction of the small rubber powered models.
R. Luther Reed -- Smithsonian carpenter foreman (1880-1904). In charge of construction of Aerodromes No. 5 and 6 following between Herring's departure and Manly's arrival. Worked on design of the Great Aerodrome and the second houseboat. Part of the crew on the houseboat.
B.L. Rhinehart -- Smithsonian mechanic. Built a small steam motor for Aerodrome No. 0 in 1891. Performed design work on an experimental gasoline motor, c.1896.
William L. Speiden -- Draftsman or designer (1893-1899).
John Elfrith Watkins -- Assistant engineer of construction with the Pennsylvania Railroad. Joined the Smithsonian as an honorary curator in the Steam Transportation section in 1885. Named curator of Transportation in 1887. He rejoined the Pennsylvania Railroad in 1892, and later worked at the Field Columbian Museum as director of Industrial Arts. Watkins returned to the Smithsonian in 1895 as the National Museum's curator of Technological Collections. In 1898, he was named curator of the Division of Technology. Watkins also served the Smithsonian as Engineer of Property, 1888-1889, and Chief of Buildings and Superintendence, 1896-1903. Watkins carried on much of the Aerodrome project's correspondence, and was the project's expert in steam engine design.
George B. Wells -- Smithsonian messenger (1894-1903). Most of the collection's shorthand notebooks (Series X) bear his name; possibly, he acted as Langley's stenographer.
William Crawford Winlock -- Curator, Bureau of International Exchange (1889-1899).
Related Materials:
Parts of the collection were separated at undetermined dates from the institutional records of Samuel Langley's time as Secretary (now held by the Smithsonian Institution Archives [SIA], as the Samuel P. Langley Papers, 1867-1906, Record Unit 7003).
In addition to Record Unit 7003, researchers may wish to consult these Smithsonian Institution Archives' collections:
Record Unit 31, Office of the Secretary, Correspondence, 1866-1906, with related records to 1927.
Record Unit 34, Office of the Secretary, Correspondence, 1887-1907
Record Unit 7268, J. Elfreth Watkins Collection, 1869, 1881-1903, 1953, 1966 and undated.
The Archives Division of the National Air and Space Museum holds the Charles M. Manly Papers, (Acc. 1999-0004). Manly was Samuel Langley's assistant in the Aerodrome project from 1898 to 1903.
Langley Technical Files: The Archives Division's technical files are housed in the Archives-Library reading room of the Museum's Steven F. Udvar-Hazy Center. Material on Langley and his Aerodromes are housed in folders in the technical files Aircraft Series and in the Biographies Series. Because material from the Samuel P. Langley Collection is thought to have been transferred into the Technical Files, these file headings are included here. In the listings, "Images Available" refers to digital image files available through the Archives Division's image database; these images may be viewed in the Museum's reading rooms.
Langley Technical Files: Aircraft Series Technical Files
Langley (Samuel P.), General -- Photos, Images Available. Folder(s): AL-198600-80
Langley Technical Files: Biographies Series Technical Files
Langley, Samuel Pierpont, general -- Documents. Folder(s): CL-094000-01
Langley, Samuel Pierpont (articles by) -- Documents. Folder(s): CL-094000-02
Langley, Samuel Pierpont (articles by/Aero) -- Documents. Folder(s): CL-094000-03
Langley, Samuel Pierpont (articles by/Aero) -- Documents. Folder(s): CL-094000-04
Langley, Samuel Pierpont (articles by/Astro) -- Documents. Folder(s): CL-094000-05
Langley, Samuel Pierpont (articles by/Astro) -- Documents. Folder(s): CL-094000-06
Langley, Samuel Pierpont (articles by/Rocket) -- Documents. Folder(s): CL-094000-08
Langley, Samuel Pierpont (articles by/French) -- Documents. Folder(s): CL-094000-09
Langley, Samuel Pierpont (articles on) -- Documents. Folder(s): CL-094000-10
Langley, Samuel Pierpont (articles on) -- Documents. Folder(s): CL-094000-11
Langley, Samuel Pierpont (articles on) -- Documents. Folder(s): CL-094000-12
Langley, Samuel Pierpont (articles on) -- Documents. Folder(s): CL-094000-13
Langley, Samuel Pierpont (articles on) -- Documents. Folder(s): CL-094000-14
Langley, Samuel Pierpont (Awards and Honors) -- Documents. Folder(s): CL-094000-15
Langley, Samuel Pierpont (Wright Controversy) -- Documents. Folder(s): CL-094000-16
Langley, Samuel Pierpont (Obituaries) -- Documents. Folder(s): CL-094000-17
Langley, Samuel Pierpont -- Photo Dupes. Folder(s): CL-094000-40
Langley, Samuel Pierpont -- Photos. Folder(s): CL-094000-80
Langley, Samuel Pierpont -- Negatives. Folder(s): CL-094000-85
Langley, Samuel Pierpont -- Images available.
Provenance:
Smithsonian generated, transfer, unknown.
Restrictions:
No restrictions on access
Rights:
Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permission Requests.
This collection consists of 62 photographs taken by William H. Sheahan of early aircraft and aviators, mostly at Hempstead Plains Field where he took lessons.
Scope and Contents:
This collection consists of 62 photographs taken by William H. Sheahan of early aircraft and aviators, mostly at Hempstead Plains Field where he took lessons. Aircraft represented in the collection include a Bellanca monoplane; Blériot XI; various Curtiss aircraft models including biplane and pusher types; Curtiss JN-4 Jenny and Curtiss JN-4Can Canuck; LWF Twin DH-4; a Deperdussin monoplane; a Gallaudet (Aircraft) Military Tractor Biplane; various models produced by Heinrich (Aeroplane Co); Moisant (Co) 1914 Bluebird Monoplane; and Wright (Co) Model B.
Arrangement:
This collection is in original order. Images in this collection have been catalogued previously and were assigned the following image numbers: SI-94-12971 to SI-94-13026 and SI-94-13758 to SI-94-13764.
Biographical / Historical:
William H. Sheahan (1872-1956) first became interested in aviation in 1910 and he spent part of the 1912 and 1913 summers at the Heinrich Aviation School, Hempstead Plains Field (now Roosevelt Field), Long Island. Sheahan soloed in a Heinrich monoplane and later took flying lessons at Curtiss Field, Long Island, during 1920-1922. Sheahan was a member of the Aero Club of Pennsylvania, and was in charge of the Hall of Aviation at the Franklin Institute in Philadelphia. Sheahan also applied for membership in the Early Birds.
Provenance:
William H. Sheahan, gift, unknown, NASM.XXXX.0523
Restrictions:
No restrictions on access
Rights:
Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests
Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests.
Collection Citation:
Ruth Law Collection, Acc. NASM.XXXX.0387, National Air and Space Museum, Smithsonian Institution.
No restrictions. All requests for duplication and use must be submitted in writing and approved by the Smithsonian Institution Archives. Contact SIA Reference Staff for further information (email photos@si.edu)
Data Source:
Smithsonian Institution Archives
EDAN-URL:
edanmdm:siris_arc_367100
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