Charles Morgan Olmsted (January 19, 1881 – 1948) was an American

aeronautical engineer Aerospace engineering is the primary field of engineering concerned with the development of aircraft and spacecraft. It has two major and overlapping branches: aeronautical engineering and astronautical engineering. Avionics engineering is sim ...

Aeronautics

Charles M. Olmsted held a Ph.D. in astrophysics and became an aeronautical engineer in the early 20th century. When he was 14, he designed and built a

glider Glider may refer to: Aircraft and transport Aircraft * Glider (aircraft), heavier-than-air aircraft primarily intended for unpowered flight ** Glider (sailplane), a rigid-winged glider aircraft with an undercarriage, used in the sport of glidin ...

, one of the first models ever tested in the United States. In the fall of 1909 Olmsted led an attempt by the Pitts company to begin the production of airplanes in contrast to the steam tractors they were producing. He began in 1909 by designing and constructing a minimum-induced-loss propeller and then in 1910 a prototype plane of solid construction, as opposed to the ultra-light construction of the day, a plane which would have inherent stability and an efficient stream-lined profile. Olmsted minimum-induced-loss propellers set many records in climb rates, speed and weight carried aloft in flights of the Curtiss built flying boats, ''Edith'' and '' America'', in 1914, and various military craft during 1917 and 1918. Because they increased efficient by 20% over the standard design, Olmsted minimum-induced-loss propellers were also used on the first leg of the historic Transatlantic flights of the NC planes in 1919. Charles Olmsted can be ranked as America’s first scientifically-trained aeronautical engineer in the modern sense of the term: one who applies

mathematical Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...

methodology to the scientific study of air flow, propeller design and to the analysis of the strengths and weights of materials to design and construct aircraft. Olmsted was not the first in the US to design, build and fly a glider, which he did at the age of 13 in 1894, but he was probably the first child to do so. In 1894 Charles Olmsted designed and built a glider in which during the following year he made the longest glider flight ever achieved in America till that time. Most noteworthy, beginning in 1910, Olmsted was the first to design and construct a streamlined

monocoque Monocoque ( ), also called structural skin, is a structural system in which loads are supported by an object's external skin, in a manner similar to an egg shell. The word ''monocoque'' is a French term for "single shell". First used for boats, ...

aircraft and Olmsted was certainly the first to develop the minimum-induced-loss propeller. In 1894 and 1895, Charles Olmsted attended

Harvard University Harvard University is a private Ivy League research university in Cambridge, Massachusetts. Founded in 1636 as Harvard College and named for its first benefactor, the Puritan clergyman John Harvard, it is the oldest institution of high ...

. After Harvard, Olmsted attended

Göttingen University Göttingen (, , ; nds, Chöttingen) is a university city in Lower Saxony, central Germany, the capital of the eponymous district. The River Leine runs through it. At the end of 2019, the population was 118,911. General information The o ...

and Wilhelm Institute Bonn from 1902 to 1906, obtaining his PhD from Bonn. In 1908, Olmsted began experiments and theoretical investigations into minimum-induced loss propellers. Only five years after the first successful powered flight of the Wrights, Charles Olmsted developed the initial equations describing the blade shape and pitch to achieve the maximum attainable efficiency from an airplane propeller. In the first-time-ever

wind-tunnel Wind tunnels are large tubes with air blowing through them which are used to replicate the interaction between air and an object flying through the air or moving along the ground. Researchers use wind tunnels to learn more about how an aircraft ...

testing of full-size propellers in 1909, Olmsted perfected his design and his theory of propellers. Such increases in efficiency were crucial for the successful operation of the early Transatlantic Flying Boats, like the '' America'' (1914) and the four

Curtiss NC The Curtiss NC (Curtiss Navy Curtiss, nicknamed "Nancy boat" or "Nancy") was a flying boat built by Curtiss Aeroplane and Motor Company and used by the United States Navy from 1918 through the early 1920s. Ten of these aircraft were built, the mos ...

s (1919), all of which utilized Olmsted propellers. After final testing on July 12, 1914, in preparation for the planned

Transatlantic flight A transatlantic flight is the flight of an aircraft across the Atlantic Ocean from Europe, Africa, South Asia, or the Middle East to North America, Central America, or South America, or ''vice versa''. Such flights have been made by fixed-wing air ...

Glenn Curtiss Glenn Hammond Curtiss (May 21, 1878 – July 23, 1930) was an American aviation and motorcycling pioneer, and a founder of the U.S. aircraft industry. He began his career as a bicycle racer and builder before moving on to motorcycles. As early a ...

publicly announced the Olmsted propellers, ''“the finest and most efficient I have ever seen.”'' Two years after developing the propeller equations in 1908, Olmsted formed a syndicate with the Buffalo Pitts Company to develop for mass-production a prototype plane. Founded in 1851, the Buffalo Pitts Company had grown to be the world’s largest producer of threshers and steam-traction engines. Located on the Erie Canal in the port area of Buffalo, the “Queen City of the Lakes”, the company had shipped farm equipment to all corners of the globe (pl. 3). In the fall of 1909 Charles Olmsted had set up an aerodynamic laboratory on the third floor of the Buffalo Pitts building, where he would test his already-developed mathematical techniques for producing a “minimum-induced-loss” propeller. The main draw for Olmsted was the vast electrical dynamos of Niagara Falls, supplying power to the Pitts Company, which would enable him to use controllable large-horsepower electric motors to produce high-velocity wind to test propellers and plane models accurately in a wind-tunnel. In the spring of 1910 Olmsted led an attempt by the Pitts company to begin the production of airplanes in contrast to the steam tractors they were producing. He began by designing and constructing a prototype plane of solid construction, as opposed to the ultra-light construction of the day, a plane which would have inherent stability and an efficient stream-lined profile. The plane was as light and graceful as the Pitts company’s steam engines were heavy and cumbersome. Unfortunately, the Buffalo Pitts Company was too late in its attempt to diversify and fell a victim to the depression of 1912-14. Nearly completed by 1912, the Olmsted monocoque Bird would be one of the first true solidly-built “airplanes” of scientifically engineered design and structure ever to be constructed. Its wings were made of thin-gauge chrome-vanadium steel sheets, aluminum, and basswood laminations, all firmly riveted together. Its fuselage, like that of the Spruce Goose despite its name, was molded of monocoque laminated birch. Careful testing of the weights and strengths of the materials and parts utilized in its construction played a paramount role in its design, as did testing in the wind tunnel to minimize drag and maximize lift. Planes contemporary with the Olmsted-Buffalo-Pitts craft were fabricated from wooden ribs and often bamboo framing covered with lacquered fabric of essentially ultralight design. Even the Curtiss flying boats still had rubberized fabric wings to lift their thin wooden boat hulls. Since the pilot of the Olmsted plane would be surrounded by crushable laminated wood structures, these structures would absorb much of the blow in case of a crash. By the additional incorporation of “inherent stability” in flight as well as “around the stall” and “special landing gear” for nose-first landing, Olmsted wished to make “aeroplaning as safe and feasible as automobiling”. The prototype plane which Charles Olmsted designed in 1910 for the Buffalo-Pitts-Olmsted Syndicate has raked-back infinitely-variable-camber high-aspect-ratio wings, identical in shape to those of the 1935 DC-3. It also has retractable nose-first landing gear, an elevated high-aspect-ratio T-shaped tail section, and a gyroscopically-stable air-cooled Gnome engine rotating in the direction of travel. The two counter-rotating maximally-efficient pusher propellers were mounted closely together at the apex of the wings and the covered surfaces of the wheel mount to counter swirl. There are special struts above and behind them to further render the remaining swirl directly into lift and thrust. Propeller swirl was hindered on the up-stroke but free on the down stroke to increase lift at take-off. A major pioneering innovation on the plane is that every item was carefully stress-analyzed to a standard strength redundancy and minimum weight. All wooden parts were of hollow skin-stressed construction. Blueprints and patterns were made for every part, so that the Buffalo Pitts Company could go into immediate assembly-line production of the successful prototype sometime late in 1912. Many of the features of the Buffalo-Pitts-Olmsted plane are incorporated in the carbon-fiber 2008 Pipistrel Virus, winner of the 2007 and 2008 NASA award. The Virus also utilizes a streamlined fuselage suspended beneath the wing and an elevated T-shaped tail section. The Virus’s propeller is also of Olmsted-patent type. The overall similarity of the two craft, separated by nearly 100 years in time, is quite striking (pls. 18-19). Today the plane is visible for all to see in the Smithsonian’s Udvar Hazy center, but not a trace survives of the Buffalo Pitts Company. The entire complex occupying the blocks between Virginia and Carolina Streets on both sides of Fourth Street has been leveled and turned into a school playing field. Perhaps in memory of the Spaulding football which would have absorbed the front-wheel landing shock of the touchdown of the Olmsted Bird if she had been given the chance to fly, the goal post of a football field now marks the spot where the Bird lost her wings. The Olmsted-Buffalo-Pitts 1912 Monocoque Bird with its wings made of thin-gauge chrome-vanadium steel sheet, aluminum sheet, and basswood lamination, and its fuselage molded of monocoque laminated birch and chrome-vanadium steel sheet was one of the first true “airplanes” of scientifically engineered design and structure ever to be manufactured. The plane’s original development was stopped when it was 90% completed due to the bankruptcy of the Buffalo Pitts Company in the summer of 1912. Charles Olmsted then formed the CMO Physical Laboratory and continued to manufacture and sell the ultra-efficient propellers on his own for another seven years. Indeed, flying boats with Olmsted propellers broke the world weight-carrying record twice in 1914, a MacDonnell hydroplane with an Olmsted propeller set the Navy climb record in 1917, and a Le Pere fighter clocked in its fastest flight ever with an Olmsted propeller in 1918. Olmsted propellers also enabled the NC boats to fly with 1500 pounds more weight and they also cut the take-off distance in half. Charles Olmsted was also the first to design a super-transport WIGE (wing-in-ground effect) vehicle in the spring of 1942. Out of this effort ultimately developed

Howard Hughes Howard Robard Hughes Jr. (December 24, 1905 – April 5, 1976) was an American business magnate, record-setting pilot, engineer, film producer, and philanthropist, known during his lifetime as one of the most influential and richest people in th ...

huge flying boat, the

Spruce Goose The Hughes H-4 Hercules (commonly known as the ''Spruce Goose''; registration NX37602) is a prototype strategic airlift flying boat designed and built by the Hughes Aircraft Company. Intended as a transatlantic flight A transatlantic flig ...

, as notes from the meeting with John Towers demonstrate ((Olmsted 2020: 226-230. Olmsted only flew four times under powered flight in his entire life.

References

* Olmsted, Garrett. ''Olmsted Pusher''
World War I Aero
#87, November 1981, pgs. 30-52. Olmsted, Garrett. CLIPPED WINGS: ''Charles Olmsted's Role in the History of Flight''. 2020. Academia.edu.

External links

* https://www.academia.edu/41857334/CLIPPED_WINGS_Charles_Olmsteds_Role_in_the_History_of_Flight
Google Patents: 1019078National Museum of the U.S. Air Force: Olmsted High Efficient Propeller
* https://www.academia.edu/41857334/CLIPPED_WINGS_Charles_Olmsteds_Role_in_the_History_of_Flight
WorldCat Identities: Charles M. OlmstedThe Maximum Efficiency Propeller, by Garrett S. Olmsted
{{DEFAULTSORT:Olmsted, Charles M. 20th-century American engineers 1948 deaths 1881 births Harvard University alumni

Aeronautics

See also

References

External links