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70-540: The concept of fixed-wing aircraft being carried and launched from airships was initially developed during the First World War - initially, this proposal originated in the United Kingdom, to allow British interceptors to conserve fuel by being carried to an altitude whereby they could then engage German zeppelins. The increasing use of airships in the armed forces of various countries led to variations on

140-523: A 2 hp (1.5 kW) single cylinder Daimler engine and flew 10 km (6 mi) from Canstatt to Kornwestheim . In 1897, an airship with an aluminum envelope was built by the Hungarian - Croatian engineer David Schwarz . It made its first flight at Tempelhof field in Berlin after Schwarz had died. His widow, Melanie Schwarz, was paid 15,000 marks by Count Ferdinand von Zeppelin to release

210-647: A boat if the vehicle was forced to land in water. The airship was designed to be driven by three propellers and steered with a sail-like aft rudder. In 1784, Jean-Pierre Blanchard fitted a hand-powered propeller to a balloon, the first recorded means of propulsion carried aloft. In 1785, he crossed the English Channel in a balloon equipped with flapping wings for propulsion and a birdlike tail for steering. The 19th century saw continued attempts to add methods of propulsion to balloons. Rufus Porter built and flew scale models of his "Aerial Locomotive", but never

280-432: A crucial role in maintaining stability and controlling the airship's attitude. Airships require a source of power to operate their propulsion systems. This includes engines, generators, or batteries, depending on the type of airship and its design. Fuel tanks or batteries are typically located within the envelope or gondola. To navigate safely and communicate with ground control or other aircraft, airships are equipped with

350-462: A fashion similar to hot air balloons . The first to do so was flown in 1973 by the British company Cameron Balloons . Small airships carry their engine(s) in their gondola. Where there were multiple engines on larger airships, these were placed in separate nacelles, termed power cars or engine cars . To allow asymmetric thrust to be applied for maneuvering, these power cars were mounted towards

420-618: A further four aircraft lie at the underwater wreck-site of the Macon ; the aircraft were found in their hangar when the wreck was discovered and documented in 1990 and 1991. These are known to have been BuAer numbers 9058 to 9061. Data from The Airships Akron & Macon: Flying Aircraft carriers of the United States Navy General characteristics Performance Armament Related lists Airship An airship , dirigible balloon or dirigible

490-464: A hook mounted above its top wing that attached to the cross-bar of a trapeze mounted on the carrier airship. For launching, the biplane's hook was engaged on the trapeze inside the airship's (internal) hangar, the trapeze was lowered clear of the hull into the (moving) airship's slipstream and, engine running, the Sparrowhawk would then disengage its hook and fall away from the airship. For recovery,

560-526: A mixture of solar-powered engines and conventional jet engines, would use only an estimated 8 percent of the fuel required by jet aircraft . Furthermore, utilizing the jet stream could allow for a faster and more energy-efficient cargo transport alternative to maritime shipping . This is one of the reasons why China has embraced their use recently. In 1670, the Jesuit Father Francesco Lana de Terzi , sometimes referred to as

630-482: A paper entitled " Mémoire sur l'équilibre des machines aérostatiques " (Memorandum on the equilibrium of aerostatic machines) presented to the French Academy on 3 December 1783. The 16 water-color drawings published the following year depict a 260-foot-long (79 m) streamlined envelope with internal ballonets that could be used for regulating lift: this was attached to a long carriage that could be used as

700-566: A payload of 1.5 tons. Bland believed that the machine could be driven at 80 km/h (50 mph) and could fly from Sydney to London in less than a week. In 1852, Henri Giffard became the first person to make an engine-powered flight when he flew 27 km (17 mi) in a steam-powered airship . Airships would develop considerably over the next two decades. In 1863, Solomon Andrews flew his aereon design, an unpowered, controllable dirigible in Perth Amboy, New Jersey and offered

770-497: A public demonstration flight in 1878 of his hand-powered one-man rigid airship, and went on to build and sell five of his aircraft. In 1874, Micajah Clark Dyer filed U.S. Patent 154,654 "Apparatus for Navigating the Air". It is believed successful trial flights were made between 1872 and 1874, but detailed dates are not available. The apparatus used a combination of wings and paddle wheels for navigation and propulsion. In operating

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840-435: A range of instruments, including GPS systems, radios, radar, and navigation lights. Some airships have landing gear that allows them to land on runways or other surfaces. This landing gear may include wheels, skids, or landing pads. The main advantage of airships with respect to any other vehicle is that they require less energy to remain in flight, compared to other air vehicles. The proposed Varialift airship, powered by

910-485: A rigid framework covered by an outer skin or envelope. The interior contains one or more gasbags, cells or balloons to provide lift. Rigid airships are typically unpressurised and can be made to virtually any size. Most, but not all, of the German Zeppelin airships have been of this type. A semi-rigid airship has some kind of supporting structure but the main envelope is held in shape by the internal pressure of

980-408: A single organizational home for naval aviation. Prior to 1921, cognizance for aviation had been divided among various Navy bureaus and other organizations. The first Chief of BuAer was Rear Admiral William A. Moffett (1869–1933), a Medal of Honor recipient and battleship commander who had long supported the development of naval aviation. He served as bureau chief from 1921 until his death in 1933, in

1050-603: A single, independent air force. Upon Moffett's death, he was succeeded as Chief of the Bureau by Rear Admiral Ernest J. King , a future Fleet Admiral and Chief of Naval Operations during World War II . Other important bureau chiefs included Rear Admiral John S. McCain Sr. , the grandfather of U.S. Senator John S. McCain III (R-Ariz.). During the 1930s, BuAer presided over rapid technological change in naval aircraft. The bureau's policy

1120-433: A successful engagement was achieved, for example in gusty conditions. Once the Sparrowhawk was securely caught, it could then be hoisted by the trapeze back within the airship's hull, the engine being cut as it passed the hangar door. Although seemingly a tricky maneuver, pilots soon learned the technique and it was described as being much easier than landing on a moving, pitching and rolling aircraft carrier. Almost inevitably,

1190-518: A successful full-size implementation. The Australian William Bland sent designs for his " Atmotic airship " to the Great Exhibition held in London in 1851, where a model was displayed. This was an elongated balloon with a steam engine driving twin propellers suspended underneath. The lift of the balloon was estimated as 5 tons and the car with the fuel as weighing 3.5 tons, giving

1260-410: A thin gastight metal envelope, rather than the usual rubber-coated fabric envelope. Only four metal-clad ships are known to have been built, and only two actually flew: Schwarz 's first aluminum rigid airship of 1893 collapsed, while his second flew; the nonrigid ZMC-2 built for the U.S. Navy flew from 1929 to 1941 when it was scrapped as too small for operational use on anti-submarine patrols; while

1330-415: A type of aerostat. The term aerostat has also been used to indicate a tethered or moored balloon as opposed to a free-floating balloon. Aerostats today are capable of lifting a payload of 3,000 pounds (1,400 kg) to an altitude of more than 4.5 kilometres (2.8 mi) above sea level. They can also stay in the air for extended periods of time, particularly when powered by an on-board generator or if

1400-496: A vessel is propelled in water. An instrument answering to a rudder is attached for guiding the machine. A balloon is to be used for elevating the flying ship, after which it is to be guided and controlled at the pleasure of its occupants. More details can be found in the book about his life. In 1883, the first electric-powered flight was made by Gaston Tissandier , who fitted a 1.5 hp (1.1 kW) Siemens electric motor to an airship. The first fully controllable free flight

1470-525: Is a type of aerostat ( lighter-than-air ) aircraft that can navigate through the air flying under its own power . Aerostats use buoyancy from a lifting gas that is less dense than the surrounding air to achieve the lift needed to stay airborne. In early dirigibles, the lifting gas used was hydrogen , due to its high lifting capacity and ready availability, but the inherent flammability led to several fatal accidents that rendered hydrogen airships obsolete. The alternative lifting gas, helium gas

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1540-435: Is generally hydrogen, helium or hot air. Hydrogen gives the highest lift 1.1 kg/m (0.069 lb/cu ft) and is inexpensive and easily obtained, but is highly flammable and can detonate if mixed with air. Helium is completely non flammable, but gives lower performance-1.02 kg/m (0.064 lb/cu ft) and is a rare element and much more expensive. Thermal airships use a heated lifting gas, usually air, in

1610-611: Is known as a vacuum airship . In 1709, the Brazilian-Portuguese Jesuit priest Bartolomeu de Gusmão made a hot air balloon, the Passarola, ascend to the skies, before an astonished Portuguese court. It would have been on August 8, 1709, when Father Bartolomeu de Gusmão held, in the courtyard of the Casa da Índia , in the city of Lisbon, the first Passarola demonstration. The balloon caught fire without leaving

1680-646: Is not flammable, but is rare and relatively expensive. Significant amounts were first discovered in the United States and for a while helium was only available for airship usage in North America . Most airships built since the 1960s have used helium, though some have used hot air . The envelope of an airship may form the gasbag, or it may contain a number of gas-filled cells. An airship also has engines, crew, and optionally also payload accommodation, typically housed in one or more gondolas suspended below

1750-399: Is the more recent, following advances in deformable structures and the exigency of reducing weight and volume of the airships. They have a minimal structure that keeps the shape jointly with overpressure of the gas envelope. An aerostat is an aircraft that remains aloft using buoyancy or static lift, as opposed to the aerodyne , which obtains lift by moving through the air. Airships are

1820-561: The Bureau of Naval Weapons (BuWeps). This was only a temporary solution, however, and in 1966 the Navy undertook a wholesale revision of its material organization. The bureau system , which had existed since the 1840s, was replaced with the "Systems Commands" (SYSCOMs). BuWeps was replaced with the current Naval Air Systems Command (NAVAIR). [REDACTED]  This article incorporates public domain material from websites or documents of

1890-490: The Franco-Prussian war and was intended as an improvement to the balloons used for communications between Paris and the countryside during the siege of Paris , but was completed only after the end of the war. In 1872, Paul Haenlein flew an airship with an internal combustion engine running on the coal gas used to inflate the envelope, the first use of such an engine to power an aircraft. Charles F. Ritchel made

1960-672: The Parc Saint Cloud to and around the Eiffel Tower and back in under thirty minutes. This feat earned him the Deutsch de la Meurthe prize of 100,000 francs . Many inventors were inspired by Santos-Dumont's small airships. Many airship pioneers, such as the American Thomas Scott Baldwin , financed their activities through passenger flights and public demonstration flights. Stanley Spencer built

2030-756: The USS Birmingham (CL-2) and again on USS Pennsylvania (ACR-4) in early 1911. These tests were enough for the USN to establish naval aviation units in the summer of 1911. The purchase of the first naval aircraft in May 1911 and passage of naval appropriations act in August 1916 lead to the establishment of the Naval Reserve Flying Corps , which would train and deploy air corps for World War I . Congress established BuAer in 1921 in order to create

2100-443: The "Father of Aeronautics ", published a description of an "Aerial Ship" supported by four copper spheres from which the air was evacuated. Although the basic principle is sound, such a craft was unrealizable then and remains so to the present day, since external air pressure would cause the spheres to collapse unless their thickness was such as to make them too heavy to be buoyant. A hypothetical craft constructed using this principle

2170-417: The 1929 nonrigid Slate Aircraft Corporation City of Glendale collapsed on its first flight attempt. A ballonet is an air bag inside the outer envelope of an airship which, when inflated, reduces the volume available for the lifting gas, making it more dense. Because air is also denser than the lifting gas, inflating the ballonet reduces the overall lift, while deflating it increases lift. In this way,

Curtiss F9C Sparrowhawk - Misplaced Pages Continue

2240-454: The 1937 burning of the German hydrogen -filled Hindenburg . From the 1960s, helium airships have been used where the ability to hover for a long time outweighs the need for speed and manoeuvrability, such as advertising, tourism, camera platforms, geological surveys and aerial observation . During the pioneer years of aeronautics, terms such as "airship", "air-ship", "air ship" and "ship of

2310-570: The 1940s; their use decreased as their capabilities were surpassed by those of aeroplanes. Their decline was accelerated by a series of high-profile accidents, including the 1930 crash and burning of the British R101 in France, the 1933 and 1935 storm-related crashes of the twin airborne aircraft carrier U.S. Navy helium-filled rigids, the USS ; Akron and USS Macon respectively, and

2380-749: The Luftschiff Zeppelin LZ1 made its first flight. This led to the most successful airships of all time: the Zeppelins, named after Count Ferdinand von Zeppelin who began working on rigid airship designs in the 1890s, leading to the flawed LZ1 in 1900 and the more successful LZ2 in 1906. The Zeppelin airships had a framework composed of triangular lattice girders covered with fabric that contained separate gas cells. At first multiplane tail surfaces were used for control and stability: later designs had simpler cruciform tail surfaces. The engines and crew were accommodated in "gondolas" hung beneath

2450-415: The Navy's material organization was insufficient. In particular, the Navy needed better integration of aerial weapons with naval aircraft. There was also the question of "pilotless aircraft" (the ancestors of the late 20th century's Unmanned Aerial Vehicles ); BuAer considered these to be aircraft, while BuOrd saw them as guided missiles. To fix the problem, in 1959 the Navy merged BuAer and BuOrd to create

2520-502: The Sparrowhawks was to act as 'flying ballast'. The airship could take off with additional ballast or fuel aboard instead of its airplanes. Once the airship was cruising, the aircraft would be flown aboard, the additional weight being supported by dynamic lift until the airship lightened. Only one intact Sparrowhawk survives today. Bureau of Aeronautics (BuAer) number 9056 was pending write-off at NAS Hampton Roads in 1939 when it

2590-491: The air" meant any kind of navigable or dirigible flying machine. In 1919 Frederick Handley Page was reported as referring to "ships of the air", with smaller passenger types as "air yachts". In the 1930s, large intercontinental flying boats were also sometimes referred to as "ships of the air" or "flying-ships". Nowadays the term "airship" is used only for powered, dirigible balloons, with sub-types being classified as rigid, semi-rigid or non-rigid. Semi-rigid architecture

2660-454: The airships, the Sparrowhawks' effectiveness was greatly hampered by their poor radio equipment, and they were effectively limited to remaining within sight of the airship. However, in 1934 new direction-finding sets and new voice radios were fitted which allowed operations beyond visual range, exploiting the extended range offered by the belly fuel tanks and allowing the more vulnerable mother ship to stay clear of trouble. One interesting use of

2730-410: The ballonet can be used to adjust the lift as required by controlling the buoyancy. By inflating or deflating ballonets strategically, the pilot can control the airship's altitude and attitude. Ballonets may typically be used in non-rigid or semi-rigid airships, commonly with multiple ballonets located both fore and aft to maintain balance and to control the pitch of the airship. Lifting gas

2800-452: The biplane would fly underneath its mother ship, until beneath the trapeze, climb up from below, and hook onto the cross-bar. The width of the trapeze cross-bar allowed a certain lateral lee-way in approach, the biplane's hook mounting had a guide rail to provide protection for the turning propeller (see photo), and engagement of the hook was automatic on positive contact between hook and trapeze. More than one attempt might have to be made before

2870-508: The company. The term zeppelin originally referred to airships manufactured by the German Zeppelin Company , which built and operated the first rigid airships in the early years of the twentieth century. The initials LZ, for Luftschiff Zeppelin (German for "Zeppelin airship"), usually prefixed their craft's serial identifiers. Streamlined rigid (or semi-rigid) airships are often referred to as "Zeppelins", because of

Curtiss F9C Sparrowhawk - Misplaced Pages Continue

2940-439: The crash of the airship USS Akron (ZRS-4) . Working closely with RADM Moffett, CAPT Henry C. Mustin (1874–1923) served as BuAer's first Assistant Chief helping lead naval aviation to the forefront of American military strength. A talented administrator, Moffett ensured the continued independence of naval aviation during the 1920s, when Army Brig. Gen. Billy Mitchell and others sought to merge all U.S. military aviation into

3010-489: The decision to build two new airships capable of accommodating an on-board air group of specially designed aircraft. This was ultimately developed into the Curtiss Sparrowhawk. Although designed as a pursuit plane or fighter, the Sparrowhawk's primary duty in service was reconnaissance , enabling the airships it served to search a much wider area of ocean. The Sparrowhawk was primarily chosen for service aboard

3080-601: The design of the Campbell Air Ship, designed by Professor Peter C. Campbell, was built by the Novelty Air Ship Company. It was lost at sea in 1889 while being flown by Professor Hogan during an exhibition flight. From 1888 to 1897, Friedrich Wölfert built three airships powered by Daimler Motoren Gesellschaft -built petrol engines, the last of which, Deutschland , caught fire in flight and killed both occupants in 1897. The 1888 version used

3150-505: The design, procurement, and support of naval aircraft and related systems. Aerial weapons, however, were under the cognizance of the Navy's Bureau of Ordnance (BuOrd). The USN's first attempt for naval aviation began in 1908 when it conducted observations of the Wright Brothers aircraft at Fort Myer . The first test of an aircraft from naval vessel was in 1910 when a Curtiss Model D flown by Eugene Burton Ely took off from

3220-518: The device to the U.S. Military during the Civil War. He flew a later design in 1866 around New York City and as far as Oyster Bay, New York. This concept used changes in lift to provide propulsive force, and did not need a powerplant. In 1872, the French naval architect Dupuy de Lome launched a large navigable balloon, which was driven by a large propeller turned by eight men. It was developed during

3290-412: The engine controls, throttle etc., mounted directly on the engine. Instructions were relayed to them from the pilot's station by a telegraph system , as on a ship. If fuel is burnt for propulsion, then progressive reduction in the airship's overall weight occurs. In hydrogen airships, this is usually dealt with by simply venting cheap hydrogen lifting gas. In helium airships water is often condensed from

3360-515: The engine exhaust and using auxiliary blowers. The envelope itself is the structure, including textiles that contain the buoyant gas. Internally two ballonets are generally placed in the front part and in the rear part of the hull and contains air. The problem of the exact determination of the pressure on an airship envelope is still problematic and has fascinated major scientists such as Theodor Von Karman . A few airships have been metal-clad , with rigid and nonrigid examples made. Each kind used

3430-416: The envelope. The main types of airship are non-rigid , semi-rigid and rigid airships . Non-rigid airships, often called "blimps", rely solely on internal gas pressure to maintain the envelope shape. Semi-rigid airships maintain their shape by internal pressure, but have some form of supporting structure, such as a fixed keel, attached to it. Rigid airships have an outer structural framework that maintains

3500-455: The exhaust and stored as ballast. To control the airship's direction and stability, it is equipped with fins and rudders. Fins are typically located on the tail section and provide stability and resistance to rolling. Rudders are movable surfaces on the tail that allow the pilot to steer the airship left or right. The empennage refers to the tail section of the airship, which includes the fins, rudders, and other aerodynamic surfaces. It plays

3570-528: The fame that this company acquired due to the number of airships it produced, although its early rival was the Parseval semi-rigid design. Hybrid airships fly with a positive aerostatic contribution, usually equal to the empty weight of the system, and the variable payload is sustained by propulsion or aerodynamic contribution. Airships are classified according to their method of construction into rigid, semi-rigid and non-rigid types. A rigid airship has

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3640-556: The first British airship with funds from advertising baby food on the sides of the envelope. Others, such as Walter Wellman and Melvin Vaniman , set their sights on loftier goals, attempting two polar flights in 1907 and 1909, and two trans-Atlantic flights in 1910 and 1912. Bureau of Aeronautics The Bureau of Aeronautics (BuAer) was the U.S. Navy 's material-support organization for naval aviation from 1921 to 1959. The bureau had "cognizance" ( i.e. , responsibility) for

3710-436: The ground, but, in a second demonstration, it rose to 95 meters in height. It was a small balloon of thick brown paper, filled with hot air, produced by the "fire of material contained in a clay bowl embedded in the base of a waxed wooden tray". The event was witnessed by King John V of Portugal and the future Pope Innocent XIII . A more practical dirigible airship was described by Lieutenant Jean Baptiste Marie Meusnier in

3780-476: The hull driving propellers attached to the sides of the frame by means of long drive shafts. Additionally, there was a passenger compartment (later a bomb bay ) located halfway between the two engine compartments. Alberto Santos-Dumont was a wealthy young Brazilian who lived in France and had a passion for flying. He designed 18 balloons and dirigibles before turning his attention to fixed-winged aircraft. On 19 October 1901 he flew his airship Number 6 , from

3850-468: The idea of using aircraft with them, with major uses being for reconnaissance, extending the reach of the airship beyond the horizon, and to provide the airship with a degree of self-defence. In the late 1920s, the US Navy began experimenting with its airships, initially using USS  Los Angeles as a platform for testing the concept of the so-called parasite aircraft . The success of these tests led to

3920-524: The industrialist Carl Berg from his exclusive contract to supply Schwartz with aluminium . From 1897 to 1899, Konstantin Danilewsky, medical doctor and inventor from Kharkiv (now Ukraine , then Russian Empire ), built four muscle-powered airships, of gas volume 150–180 m (5,300–6,400 cu ft). About 200 ascents were made within a framework of experimental flight program, at two locations, with no significant incidents. In July 1900,

3990-425: The large rigid-framed airships Akron and Macon because of its small size (20.2 ft (6.2 m) long and with only a 25.5 ft (7.8 m) wingspan), though its weight, handling and range characteristics, and also downward visibility from the cockpit, were not ideal for its reconnaissance role. The theoretical maximum capacity of the airships' hangar was five aircraft, one in each hangar bay and one stored on

4060-546: The lifting gas. Typically the airship has an extended, usually articulated keel running along the bottom of the envelope to stop it kinking in the middle by distributing suspension loads into the envelope, while also allowing lower envelope pressures. Non-rigid airships are often called "blimps". Most, but not all, of the American Goodyear airships have been blimps. A non-rigid airship relies entirely on internal gas pressure to retain its shape during flight. Unlike

4130-413: The machinery the wings receive an upward and downward motion, in the manner of the wings of a bird, the outer ends yielding as they are raised, but opening out and then remaining rigid while being depressed. The wings, if desired, may be set at an angle so as to propel forward as well as to raise the machine in the air. The paddle-wheels are intended to be used for propelling the machine, in the same way that

4200-579: The pilots soon acquired the epithet " The men on the Flying Trapeze " and their aircraft were decorated with appropriate unit emblems. Once the system was fully developed, in order to increase their scouting endurance while the airship was on over-water operations, the Sparrowhawks would have their landing gear removed and replaced by a fuel tank. When the airship was returning to base, the biplanes' landing gear would be replaced so that they could land independently again. For much of their service with

4270-497: The procurement and maintenance of tens of thousands of aircraft. In 1943, the Navy established the position of Deputy Chief of Naval Operations for Air, or DCNO(Air), a move which relieved some of BuAer's responsibility for Fleet operations. RADM McCain , now promoted to vice admiral, was the first to fill the position. BuAer downsized after the war, but continued its focus on aeronautical research and development. But as naval technology became increasingly complex, it became clear that

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4340-401: The rigid design, the non-rigid airship's gas envelope has no compartments. However, it still typically has smaller internal bags containing air ( ballonets ). As altitude is increased, the lifting gas expands and air from the ballonets is expelled through valves to maintain the hull's shape. To return to sea level, the process is reversed: air is forced back into the ballonets by scooping air from

4410-468: The shape and carries all structural loads, while the lifting gas is contained in one or more internal gasbags or cells. Rigid airships were first flown by Count Ferdinand von Zeppelin and the vast majority of rigid airships built were manufactured by the firm he founded, Luftschiffbau Zeppelin . As a result, rigid airships are often called zeppelins . Airships were the first aircraft capable of controlled powered flight, and were most commonly used before

4480-434: The sides of the envelope, away from the centre line gondola. This also raised them above the ground, reducing the risk of a propeller strike when landing. Widely spaced power cars were also termed wing cars , from the use of "wing" to mean being on the side of something, as in a theater, rather than the aerodynamic device . These engine cars carried a crew during flight who maintained the engines as needed, but who also worked

4550-459: The tether contains electrical conductors. Due to this capability, aerostats can be used as platforms for telecommunication services. For instance, Platform Wireless International Corporation announced in 2001 that it would use a tethered 1,250 pounds (570 kg) airborne payload to deliver cellular phone service to a 140 miles (230 km) region in Brazil. The European Union 's ABSOLUTE project

4620-481: The trapeze but, in the Akron , two structural girders obstructed the aft two hangar bays, limiting her to a maximum complement of three Sparrowhawks. A modification to remove this limitation was pending at the time of the airship's loss. Macon had no such limitation and she routinely carried four airplanes. To achieve launching and recovery from the airship in flight, a 'skyhook' system was developed. The Sparrowhawk had

4690-577: Was also reportedly exploring the use of tethered aerostat stations to provide telecommunications during disaster response. A blimp is a non-rigid aerostat. In British usage it refers to any non-rigid aerostat, including barrage balloons and other kite balloons , having a streamlined shape and stabilising tail fins. Some blimps may be powered dirigibles, as in early versions of the Goodyear Blimp . Later Goodyear dirigibles, though technically semi-rigid airships, have still been called "blimps" by

4760-580: Was made in 1884 by Charles Renard and Arthur Constantin Krebs in the French Army airship La France . La France made the first flight of an airship that landed where it took off; the 170 ft (52 m) long, 66,000 cu ft (1,900 m ) airship covered 8 km (5.0 mi) in 23 minutes with the aid of an 8.5 hp (6.3 kW) electric motor, and a 435 kg (959 lb) battery. It made seven flights in 1884 and 1885. In 1888,

4830-606: Was to limit its own production, in order to support the civilian aircraft industry. BuAer used the Naval Aircraft Factory in Philadelphia , Pennsylvania , as a facility for building small numbers of prototype aircraft. World War II brought immense changes as well. BuAer was forced to expand rapidly in order to comply with the nation's defense needs. By the war's end, the bureau had developed an administrative structure that oversaw thousands of personnel, and

4900-745: Was transferred to the Smithsonian Institution . In later years it had been rebuilt, using parts from the surviving F9C-2 (BuAer number 9057) and the XF9C-2 (9264). It was previously at the National Museum of Naval Aviation , at NAS Pensacola, and is currently displayed at the Steven F. Udvar-Hazy Center of the Smithsonian's National Air and Space Museum collection, wearing the markings of F9C-2 A9056 of USS Macon . The remains of

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