Otto Lilienthal

With the design and construction of his first working glider, Otto Lilienthal (1848-1896) bestowed a sense of viability and respectability on the young science of aviation. Lilienthal flew thousands of flights on gliders he designed based on careful observations of birds. His work directly inspired Orville and Wilbur Wright.

During the early days of the Industrial Revolution, notions of human flight were ridiculed. Yet Prussian design engineer Otto Lilienthal disregarded the social stigma associated with flying machine inventors and applied himself in earnest to the study of aerodynamic forces and design concepts. His hope was to further the quest to achieve manned flight. During his lifetime he accumulated 20 patents for his machine designs, including four for aviation devices.

His first crude aviation design was a simple pair of wings with which he attempted to gain altitude by jumping from a board. Eventually, Lilienthal achieved flight distances as high as 1,150 feet (350.75 meters) with his more sophisticated gliders. His efforts won international attention, and experts worldwide consulted him for assistance.

Lilienthal died tragically from injuries sustained in one of his flight experiments. Among his notes, lectures, and other writings he left information that proved invaluable to subsequent aircraft designers, including Wilbur and Orville Wright.

A Tireless Engineer

Otto Lilienthal was born in Anklam, Prussia, on May 23, 1848. Together with his brother Gustav, Lilienthal developed an interest in flying. At any early age, the two boys began to observe the movements of birds to try to understand the mechanisms of flight. In elementary school, Lilienthal's curriculum included bird studies. From 1864 to 1866, Lilienthal studied mechanics at the Regional Technical School in Potsdam.

Lilienthal became a professional design engineer, but aerospace studies remained a hobby and a passion. He spent a year in an on-the-job training program at the Berlin Trade School, then three years at the Royal Technical Academy in Berlin. While still an engineering student in 1867, Lilienthal began to experiment with aerodynamics and human flight. The results of his early experiments, which he later published, proved helpful to others who yearned to fly, even after Lilienthal's death.

As the Franco-Prussian War raged, Lilienthal interrupted his studies and his career in 1870 and enlisted to serve for one year in the Prussian military. He took part in the siege of Paris and got his discharge from the military in 1871. After his military service he was employed as a mechanical engineer at the Weber Company in Berlin. In 1872 he also joined the C. Hoppe machine factory in Berlin as a construction engineer. Lilienthal remained with both companies until 1880. Seemingly indefatigable, he founded a boiler factory the following year, based on machines of his own design. There he manufactured pulleys, sirens, and other apparatuses in addition to boilers. He pioneered a profit-sharing program for his factory workers in 1890.

Lilienthal married Agnes Fischer in 1878, and they had four children. The eldest, Otto Jr., was born in 1879. Even in fatherhood, Lilienthal's creative bent for invention surfaced, when he invented a set of stone building blocks, called Anker-Steinbaukasten, for his children.

Early Flight Experiments

Lilienthal subscribed to glider-based theories of flight, so he focused his attention on the shape of the wings in developing his designs for flying machines. His early experiments in 1874 with the forces of air involved kites and other apparatuses of his own design.

In their zeal for flying, Lilienthal and his brother joined the Aeronautical Society of Great Britain in 1873, while bemoaning the lack of such an organization in their native Germany. Lilienthal first lectured at the Aeronautical Society on his observations and theories about bird flight as the basis of aviation. He went on to lecture frequently to that group and many other audiences. After waiting for more than a decade for a German aviation society to form, he was gratified in 1886 to join a Berlin-based navigation group, Deutscher Verein zur Forderung der Luftschiffahrt (German Club for Promotion of Airship Navigation). In 1888 and 1889, Lilienthal gave a series of three lectures entitled "The Energy Involved in Bird Flight." On June 2, 1890, he lectured on "The Flight of Birds and Humans through the Warmth of the Sun" to a Prussian business society.

After eight years of maneuvering his aircraft designs through thin air, in 1889 he published a volume containing the data that he had accumulated. Lilienthal called his book The Carrying Capacity of Arched Surfaces in Sailing Flight. In it he reported and charted his preliminary findings. That same year he published a manual, Bird Flight as a Basis of Aviation, with details of the physics of flight. The book on bird flight was translated into English in 1911. Among his observations he included his own illustrations of birds.

Strides on Flight Mountain

In 1890, for the first time Lilienthal began to experiment with human passengers in his flying machines. In 1891, with the help of his brother, Lilienthal built his first working glider and tested it at Derwitz/Krilow. After some preliminary hops and jumps, Lilienthal made some design adjustments and shortened the wing span. The aircraft, which was essentially a hang glider, sustained a flight of approximately 80 feet (24.4 meters).

In 1892 an improved and redesigned Lilienthal glider achieved still greater distance. He next built a hill that he called Fliegeberg (flight mountain) at Lichterfelde in 1893. Lilienthal used the extended mound as a launch pad for his test flights. At times his glides from Fliegeberg surpassed 150 feet (45.75 meters). That same year he devised his first motor-driven apparatus with flapping wings.

Lilienthal modeled his flying craft after birds and butterflies and constructed the prototypes from wax, cloth, wire, and willow rods. A typical Lilienthal glider design was comprised of 140 square feet (13 square meters) of mono-wing surface. Through his studies of birds, he became intent on replicating the flight motions of the seagull, because of its extremely broad wing strokes and its ability to sail on the sea breeze. Also intriguing to Lilienthal was the stork. He said that it "seems to have been created for the purpose of serving as a model for human flight."

Lilienthal's popular "no. 11" model, the most often reproduced of his designs, went into serial production in 1894. As many as eight of these so-called "normal soaring apparatuses" were built. He gave some of his planes as gifts to clients and sold others. Lilienthal recorded with meticulous precision his activities and experiments with manned flight, including many photographs in his documentation.

Lilienthal's goal in his experiments was to comprehend the forces and motions involved in flight. He not only could fly but also could recreate his flights repeatedly with the same apparatus. This display of control was a clear indication that he was not just falling from the air but actually guiding the movement of the aircraft. Lilienthal flew more than 2,500 flights and achieved a maximum flight distance of approximately 1,150 feet (350.75 meters). He designed 18 different gliders, including 15 monoplanes and three biplanes. All were controlled by weight distribution of the passenger. By 1896, the Lilienthal brothers had built a motorized biplane with adjustable wing tips, powered by carbonic acid.

From 1890 through 1895, Lilienthal contributed a number of articles to the journal Prometheus, including book reviews and reports. His magazine articles included his practical experiences in soaring and discussed known impediments to successful flying. In 1895, foreign dignitaries intrigued by his aviation projects visited him. Among them were J. Shukowski, a Muscovite aviation expert, and S. P. Langley, a representative of the Smithsonian Institute in Washington, D.C.

In 1896, Lilienthal lectured at the Trade Exhibition in Berlin on June 16; it was his last known lecture. On August 10, 1896, he died in a Berlin hospital from injuries following a crash from an altitude of 50 feet (15.2 meters) on the previous day. The accident occurred when a heat eddy blew him off balance. His glider stalled when he attempted a recovery effort, and the resulting impact from the fall caused a fracture to his spine.

From Jump to Flight

At the time of his death, Lilienthal had begun to explore the issues of wing stroke. His belief that learning to glide was the natural forerunner to learning to fly was embodied in the opening paragraph of his article "Our Teachers in Sailing Flight," published in Prometheus. He wrote: "All perplexities concerning light motors, and speculations on the amount of power required for flying, are relegated to the background by the fact that the power of the wind alone is sufficient to effect any kind of independent flight [as seen by] those magnificent models in flying, those large and heavy birds."

Lilienthal's notion "from jump to flight" is widely regarded as the inspiration for aviation pioneers Orville and Wilbur Wright. In an article in Century in September 1908, the Wright Brothers wrote: "It was not until the news of the sad death of Lilienthal reached America in the summer of 1896 that we gave more than passing attention to the subject of flying. We then studied several pamphlets published by the Smithsonian Institute, especially articles by Lilienthal " The Wrights said that the wing surface shape of their 1901 machine was modeled after a Lilienthal design.

Throughout his experiments and his writings, Lilienthal upheld that flight was not to be realized suddenly by the invention of one single machine. He fostered the notion that a long process of study, and a thorough examination of the axioms of aerodynamics, was imperative to the successful invention of a progressive series of viable flying machines, with each machine proving more capable than its predecessor.

Two of Lilienthal's original flying machines survived into the twenty-first century. One of his "no. 11" gliders is on exhibit at the National Space and Air Museum at the Smithsonian Institute. Another of his planes, a "little biplane," also survived. Lilienthal's first flying apparatus, however, was lost; only replicas remain. In the 1980s, the Otto Lilienthal Museum in his hometown of Anklam opened in honor of the 100th anniversary of his first flights.

Books

Lilienthal, Otto, Bird Flight as a Basis of Aviation, New York, 1911.

Periodicals

Century, September 1908.

Online

"Otto Lilienthal's Aeronautical Bibliography," Archives Otto-Lilienthal-Museum Anklam,http://home.t-online.de/home/LilienthalMuseum/e4.htm (February 22, 2001).

Otto Lilienthal
Otto Lilienthal
Born	23 May 1848 (2009-05-23T18:48) Anklam, Province of Pomerania
Died	10 August 1896 (1896-08-11) Berlin
Resting place	Berlin
Nationality	Prussian, German
Occupation	Engineer
Known for	Successful gliding experiments
Spouse(s)	Agnes Fischer

Otto Lilienthal (May 23, 1848-August 10, 1896) was a German pioneer of human aviation who became known as the Glider King. He was the first person to make well-documented, repeated, successful gliding flights. He followed an experimental approach established earlier by Sir George Cayley. Newspapers and magazines published photographs of Lilienthal gliding, favorably influencing public and scientific opinion about the possibility of flying machines becoming practical..

Contents 1 Early life 2 Experiments in flight 3 Worldwide notice 4 Final flight 5 Legacy 6 Lilienthal in fiction 7 Gallery 8 See also 9 Footnotes 10 References 11 External links

Early life

Lilienthal was born in Anklam, Province of Pomerania, Prussia. He attended the grammar school in Anklam, and also studied the flight of birds with his brother Gustav, fascinated by the idea of manned flight. Lilienthal and his brother made strap-on wings, but failed in their attempts to fly. He then attended the regional technical school in Postdam for two years and trained at the Schwarzkopf Company before become a professional design engineer. He later would attend the Royal Technical Academy in Berlin against his father’s will.

In 1867 he began his flight experiments in earnest, interrupted when he volunteered to serve in the Franco-Prussian War. Hired by the Weber Company, he started systemetic experiments on the force of air, moving to Austria so he could jump off the Alpine cliffs. Returning to Germany, he married Agnes Fischer in 1878. Five years later, he founded his own company to make boilers and steam engines. Lilienthal published his famous book Birdflight as the Basis of Aviation in 1889.

Experiments in flight

Lilienthal's greatest contribution was in the development of heavier-than-air flight. He made his flights from an artificial hill he built near Berlin and from natural hills, especially in the Rhinow region.

A sketch toward a second hang glider in about 1891 involved a triangle control frame with a complex basebar that would lead to lower double kingposting while the apex of the triangle would serve as a single kingpost;^[1] his filing of a U.S. Patent in 1894 directed pilots to grip the "bar" for carrying and flying the hang glider.^[2] The A-frame of Percy Pilcher and Otto Lilienthal echoes in today's control frame for hang gliders and ultralight trike aircraft. Working in conjunction with his brother Gustav, he made over 2,000 flights in gliders of his design starting in 1891 with his first glider version, the Derwitzer, until his death in a gliding crash in 1896.

He could use the updraft of a 10 m/s wind against a hill to remain stationary with respect to the ground, shouting to a photographer on the ground to maneuver into the best position for a photo.

Lilienthal did research in accurately describing the flight of birds, especially storks, and used polar diagrams for describing the aerodynamics of their wings. Hemade many experiments in an attempt to gather reliable aeronautical data.

His gliders were controlled by changing the centre of gravity by shifting his body, much like modern hang gliders. However they were difficult to manoeuver and had a tendency to pitch down, from which it was difficult to recover. One reason for this was that he held the glider by his shoulders, rather than hanging from it like a modern hang glider. Only his legs and lower body could be moved, which limited the amount of weight shift he could achieve.

Lilienthal made many attempts to improve stability with varying degrees of success. These included making a bi-plane which halved the wing span for a given wing area, and by having a hinged tail-plane that could move upwards to make the flare at the end of a flight easier. He speculated that flapping wings of birds might be necessary and had begun work on such a powered aircraft.

While his lifelong pursuit was flight, he was also an inventor and devised a small engine that worked on a system of tubular boilers. His engine was much safer than the other small engines of the time. This invention gave him the financial freedom to focus on aviation. His brother Gustav (1849-1933) was living in Australia at the time, and Lilienthal did not engage in aviation experiments until his brother's return in 1885.

Worldwide notice

Models of his gliders

Reports of Lilienthal's flights spread in Germany and elsewhere, with photographs appearing in scientific and popular publications. Among the those who photographed him were pioneers such as Ottomar Anschütz and American physicist Robert Williams Wood.

Lilienthal was a member of the Verein zur Förderung der Luftschifffahrt, and regularly detailed his experiences in articles in its journal, the Zeitschrift für Luftschifffahrt und Physik der Atmosphäre, and in the popular weekly publication Prometheus. These were translated in the United States, France and Russia. Many people from around the world came to visit him, including Samuel Pierpont Langley from the United States, Russian Nikolai Zhukovsky, Englishman Percy Pilcher and Austrian Wilhelm Kress. Zhukovsky wrote that Lilienthal's flying machine was the most important invention in the aviation field. Lilienthal corresponded with many people, among them Octave Chanute, James Means, Alois Wolfmüller and other flight pioneers.

Final flight

On 9 August, 1896, Lilienthal's glider lost its lift and he fell from a height of 17 m (56 ft), breaking his spine. He died the following day in Berlin, saying, "Kleine Opfer müssen gebracht werden!" ("Small sacrifices must be made!"). He was buried at Lankwitz Cemetery in Berlin.

Legacy

Lilienthal's research was well known to the Wright brothers, and they credited him as a major inspiration for their decision to pursue manned flight. However, they abandoned his aeronautical data after two seasons of gliding and began using their own wind tunnel data.^[3]

The Lilienthal monument, Berlin 2006

Of all the men who attacked the flying problem in the 19th century, Otto Lilienthal was easily the most important. ... It is true that attempts at gliding had been made hundreds of years before him, and that in the nineteenth century, Cayley, Spencer, Wenham, Mouillard, and many others were reported to have made feeble attempts to glide, but their failures were so complete that nothing of value resulted.

—Wilbur Wright ^[4]

In September 1909 Orville Wright was in Germany making demonstration flights at Tempelhof aerodrome. He paid a call to Lilienthal's widow and on behalf of himself and Wilbur paid tribute to Lilienthal for his influence in aviation and on their own initial experiments in 1899.

Lilienthal in fiction

• Lilienthal plays a major part (in absentia) in Theodora Goss's short story "The Wings of Meister Wilhelm," nominated for a World Fantasy Award and published in her anthology In the Forest of Forgetting.
• H.G. Wells in his 1898 science-fiction story The War of the Worlds, near the end of chapter 2, book 2, refers to "our Lilienthal soaring machines," explaining that these and other human technology must seem rudimentary when compared to the story's invading Martians’.
• H.G. Wells mentions Lilienthal at the beginning of Chapter XVI of "When the Sleeper Wakes" (1899), calling him "the aerial proto-martyr". The reference is missing from the revised later edition entitled "The Sleeper Wakes" (1910).
• Lilienthal appears momentarily as an idol for the main character, Conor, in Eoin Colfer's Airman.
• Lilienthal is mentioned in Edward D. Hoch's short story "The Flying Man".
• A fictional characterization of Lilienthal was resurrected as an evil clone in the Japanese Read or Die (2001) novels, anime, and manga.
• Lilienthal's "great grandson" appears in the Spanish short story, "El Sueño de Otto."

Gallery

See also

• Aviation history
• George Cayley
• Jean-Marie Le Bris
• John Joseph Montgomery
• Triangle control frame Otto Lilienthal's sketch for his second glider included the foundations of the triangle control frame that would become variously formatted as a key subassembly for almost all hang gliders of the future.
• German inventors and discoverers

Footnotes

1. ^ Flying Machines: Sketch toward his second hang glider is included.
2. ^ FLYING-MACHINE OTTO LILIENTHAL
3. ^ Crouch, ch. 16, "Tunnel Vision," pp. 226-28
4. ^ Aero Club of America Bulletin, Sept. 1912

References

• Lilienthal, Otto (1911). Birdflight as the Basis of Aviation. reprinted 2001: ISBN 0-938716-58-1 (Translation from German edition, Berlin 1889: Der Vogelflug als Grundlage der Fliegekunst reprinted 2003: ISBN 3-9809023-8-2
• Crouch, Tom D (1989). The Bishop's Boys: A Life of Wilbur and Orville Wright. W. W. Norton & Company. ISBN 039330695X
• Encyclopaedia Judaica, art. "Lilienthal, Otto"

External links

Wikiquote has a collection of quotations related to: Otto Lilienthal

Wikimedia Commons has media related to: Otto Lilienthal

• Lilienthal Museum
• Lilienthal's appendix From Chanute's book Progress in Flying Machines 1893.
• Movies and simulations
• Biography / family tree of Otto Lilienthal
• Otto Lilienthal. (n.d.). Retrieved 2009, from Otto Lilienthal Biography: http://www.answers.com/topic/otto-lilienthal
• Otto Lilienthal Biography ( 1848- 1896). (n.d.). Retrieved 2009, from www.madehow.com: http://www.madehow.com/inventorbios/29/Otto-Lilienthal.html

Persondata
NAME	Lilienthal, Otto
ALTERNATIVE NAMES
SHORT DESCRIPTION	German aviation pioneer
DATE OF BIRTH	May 23, 1848
PLACE OF BIRTH	Anklam, Germany
DATE OF DEATH	August 10, 1896
PLACE OF DEATH	Berlin, Germany

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