Fifth of eight F9/40 prototypes, Gloster Meteor DG206/G was the first to fly, 5 March 1943. (BAE Systems)
5 March 1943: Gloster test pilot Neill Michael Daunt took Gloster Meteor DG206/G for its first flight at RAF Cranwell in Lincolnshire, England. DG206/G was the fifth of eight F9/40 prototypes, but first to fly. (The “/G” in the identification indicated that the aircraft was to be guarded at all times.)
Designed by Wilfred George Carter, Gloster’s Chief Designer, the Meteor was a single-place, twin-engine, low-wing monoplane with tricycle landing gear. It was powered by two turbojet engines.
Gloster F9/40 DG205/G, the first prototype Meteor to fly. Left to Right: Test pilot John A. Crosby-Warren; test pilot Neill Michael Daunt; Frank McKenna, Managing Director, Gloster Aircraft Co.; Air Commodore Frank Whittle, RAF; and Wilfred George Carter, Chief Designer, Gloster. (Mary Evans Picture Library)Test pilot Neill Michael Daunt, center, with a Gloster Meteor. (Test & Research Pilots, Flight Test Engineers)
Before the Meteor’s first flight, more than 100 Meteors had been ordered. The Mk.I was the first operational model with 20 built, but these were quickly upgraded to the Mk.III.
The Meteor Mk.III was 41 feet, 0 inches (12.497 meters) long with a wingspan of 43, feet 0 inches (13.106 meters) and overall height of 13 feet, 0 inches (3.962 meters). The wings had an angle of incidence of 1°. The center wing section had 0° 52½’ dihedral, while outboard of the engine nacelles, the wings had 6°. The total wing area was 374.0 square feet (34.8 square meters).
DG206 was initially intended to be powered by two Power Jets W.2 turbojet engines, however, when these were not ready, the Halford H.1 was substituted. The Halford H.1 turbojet which produced 2,300 pounds of thrust (10.231 kilonewtons) at 9,300 r.p.m. This engine was produced by de Havilland and named Goblin.
Cutaway illustration of the Halford H.1B Goblin turbojet engine. (Flight)
The Goblin is a linear descendant of the early Whittle units. It comprises a single-sided centrifugal compressor delivering air to sixteen combustion chambers grouped symmetrically around the axis of the unit and leading to the nozzle of the single-stage axial turbine which drives the compressor. Compressor impeller and turbine rotor are coupled by a tubular shaft to form a single rotating assembly which is mounted on only two ball bearings. The maximum diameters of the engine, around the compressor casing, is 50in., [1.27 meters] and with a jet pipe of minimum length fitted the overall length is about 8ft. [2.438 meters] Equipped with a jet pipe and all the necessary engine auxiliaries the dry weight of the complete unit is 1,500 lb. [680 kilograms] Fuel consumption is at the rate of 1.23 lb. / hr. per lb. thrust.
—FLIGHT and AIRCRAFT ENGINEER, No. 1923. Vol. XLVIII. Thursday, 1 November 1945 at Page 472, Column 2
The first fifteen Mk.IIIs were powered by Rolls-Royce Welland W.2B/23 engines, while subsequent airplanes were equipped with Rolls-Royce Derwent B.37 which produced 1,800 pounds of thrust (80 kilonewtons).
The Meteor Mk.III had a maximum speed at Sea Level of 435 miles per hour (700 kilometers per hour) and 465 miles per hour (748 kilometers per hour) at 30,000 feet (9,144 meters). Its critical mach number (Mcr) was 0.74. The maximum permissible speed (VNE) of 500 miles per hour (805 kilometers per hour) up to an altitude of 6,500 feet (1,981 meters). The airplane could maintain a rate of climb of at least 1,000 feet per minute (5 meters per second) until 31,000 feet (9,449 meters). At 20,000 feet (6,096 meters) with two 180 gallon (681 liters) drop tanks its range was 581 miles (935 kilometers).
The Meteor was armed with four Hispano Mk.II 20 mm autocannon grouped together in the nose, with 180 rounds of ammunition per gun. Total duration of fire was 15 seconds.
First operational sortie by a Meteor was flown from RAF Manston, by Flying Officer William H. McKenzie, RCAF, 1430, 27 July 1944, patrolling for inbound V-1s.
Gloster Meteor F Mk.I EE227, YQ Y, No. 616 Squadron, RAF Manston. (Flight Lieutenant Miller, RAF Official Photographer/Imperial War Museums CL 2926)
The prototype Vickers-Supermarine Type 300, K5054, in light blue lacquer paint. (RAF Museum)
5 March 1936: At 4:35 p.m., Thursday afternoon, Vickers Aviation Ltd.’s Chief Test Pilot, Captain Joseph (“Mutt”) Summers, took off on the first flight of the Vickers-Supermarine Type 300, K5054, prototype of the legendary Supermarine Spitfire, at Eastleigh Aerodrome, Southampton, England. Landing after only 8 minutes, Summers is supposed to have said, “Don’t change a thing!”
The Vickers-Supermarine Type 300 was a private venture, built to meet an Air Ministry requirement ¹ for a new single-place, single-engine interceptor for the Royal Air Force. The airplane was designed by a team led by Reginald Joseph Mitchell, C.B.E., F.R.Ae.S., and was built at the Supermarine Aviation Works, Southampton, Hampshire, England.
R.J. Mitchell was famous for his line of Schneider Trophy-winning and world record-setting Supermarine racers of the late 1920s and early 1930s, the Supermarine S.4, S.5, S.6 and S.6B.² Mitchell was appointed Commander of the Most Excellent Order of the British Empire (Civil Division) (CBE) in His Majesty’s New Year’s Honours, 2 January 1932, for “services in connection with the Schneider Trophy Contest.”
Reginald Joseph Mitchell, C.B.E., F.R.Ae.S.
The Vickers-Supermarine Type 300 was 29 feet, 11 inches (9.119 meters) long, with a wingspan of 36 feet, 10 inches (11.227 meters) and overall height of 12 feet, 8 inches (3.861 meters). The airplane’s wings had a distinctively ellipsoid shape. Their angle of incidence was 2.1° at the root and 0° at the tip, and there were 6.0° dihedral. The total area was 242.0 square feet (22.48 square meters). The Type 300’s empty weight was 4,082 pounds (1,852 kilograms) and its loaded weight was 5,332 pounds (2,419 kilograms).
K5054 was powered by an experimental Rolls-Royce Merlin C “ramp head” engine. This was a right-hand tractor, liquid-cooled, supercharged, 1,648.9-cubic-inch-displacement (27.04-liter) single overhead camshaft (SOHC) 60° V-12. Its company serial number was C9, and the number assigned to it by the Air Ministry, A111,139). The Merlin C had a Normal Power rating of 1,029 horsepower at 2,600 r.p.m. at an altitude of 11,000 feet (3,353 meters), with +6 pounds per square inch boost (0.41 Bar). The engine turned an Airscrew Co., Ltd., Watts-type two-bladed, fixed-pitch, compressed wood propeller through a gear reduction drive (possibly 0.420:1). An improved 1,035 horsepower Merlin F engine, serial number F21 (Air Ministry serial number A115,73 ), was later installed.
Interestingly, Rolls-Royce discovered that using exhaust stacks to direct the flow of gases rearward provided an additional 70 pounds of thrust, an increase of 7% over that provided by the propeller alone. Later testing of K5054 with “fish tail” exhaust stacks increased its top speed to about 360 miles per hour (579 kilometers per hour).
The Type 300 had a cruise speed of 311 miles per hour (501 kilometers per hour) at 15,000 feet (4,572 meters), and the prototype could reach that altitude in 5 minutes, 42 seconds. Its maximum speed was 349 miles per hour (562 kilometers per hour) at 16,800 feet (5,121 meters). K5054 had a service ceiling of 35,400 feet (10,790 meters).
A report summarizing the flight testing of K5054 stated, “The aeroplane is simple and easy to fly and has no vices.” Visibility was good, the cockpit was comfortable, and it was a stable gun platform.
K5054 after forced landing at Martlesham Heath, 22 March 1937. Note the “fish tail” exhaust stacks. (Solent Sky Museum)
On 22 March 1937, K5054’s engine lost oil pressure and the pilot made a belly landing on Marlesham Heath. The Spitfire was damaged, but it was repaired and returned to service.
The prototype Spitfire stalled on landing at RAE Farnborough, 4 September 1939. After several bounces on the runway, it nosed over. The pilot, Flight Lieutenant Gilbert Stanbridge (“Spinner”) White, was severely injured. He died 9 September.
K5054 was disassembled and scrapped.
The Air Ministry ordered the Spitfire Mk.I into production before K5054’s first flight, with an initial order for 310 airplanes. The first production fighter was delivered to the Royal Air Force 4 August 1938. Between 1938 and 1948, 20,351 Spitfires were built in 24 variants.
RAF Hendon Air Display program, 1937. (Courtesy of Aviation Ancestry)Captain Joseph Summers, C.B.E.
Captain Joseph Summers, C.B.E., was born 10 March 1904. He was the older brother of Group Captain Maurice Summers, who was also a test pilot for Vickers. In 1922, he married Miss Dulcie Jeanette Belcher at Sculcoates, Yorkshire. They would have several children.
In 1924, Summers received a short-service commission as an officer in the Royal Air Force. He trained as a pilot with No. 2 Flight Training Squadron, at RAF Duxford. He was hospitalized for six months, which delayed his training, but he graduated in 1924 and was assigned to No. 29 Fighter Squadron. Summers was considered to be an exceptional pilot, and with just six months’ operational experience, he was assigned as a test pilot at the Aircraft and Armaments Engineering Establishment (A&AEE) at RAF Martlesham Heath. He remained there for the reminder of his military service. In June 1929 he became a test pilot for Vickers Ltd. (Aviation Department). He became the company’s chief test pilot in 1932.
During his career as a test pilot, “Mutt” Summers made the first flights of 54 prototype aircraft, including the Spitfire, the Vickers Type 618 Nene-Viking, the Vickers Type 630 Viscount four-engine turboprop airliner, and the Vickers Type 667 Valiant, a four-engine jet bomber. He flew more than 5,600 hours in 366 different aircraft types.
“Mutt’s approach to test flying was much more in sympathy with the knee-pad than with the complicated automatic observers which nowadays are an indispensable part of test flying. He vigorously defended the feel of an aeroplane as measured by his hand or by the seat of his pants, and I believe was always suspicious of the scientific approach. . . One learned never to regard his criticism or advice lightly. In a world of science and instrumentation his judgement and horsesense often threw an unscientific but accurate light on some dark problem.”
—Sir George R. F. Edwards, O.M., C.B.E., F.S., D.L., Executive Director of the British Aircraft Corporation, quoted in Flight and Aircraft Engineer, No. 2357, Vol. 65, Friday, 26 March 1954, at Page 355, Column 2.
Joseph Summers, Esq., was appointed an Officer of the Most Excellent Order of the British Empire, Civil Division (O.B.E.), in His Majesty’s New Year’s Honours, Wednesday, 9 January 1946. He was promoted to Commander of the Most Excellent Order of the British Empire (Civil Division) (C.B.E.) in Her Majesty’s Coronation Honours, Monday, 1 June 1953.
Summers died 16 March 1954 at the age of 50 years.
Supermarine Spitfire, Royal Air Force Battle of Britain Memorial Flight.
¹ Air Ministry Specification F.37/34 High Speed Monoplane Single Seater Fighter
² FAI Record File Number 11833, World Record for Speed Over a 3-Kilometer Course: 364.92 kilometers per hour (226.75 miles per hour). Supermarine S.4, Henri Biard, 13 September 1925.
FAI Record File Number 14999, World Record for Speed Over 100 Kilometers: 531.20 kilometers per hour (330.07 miles per hour), Supermarine S.6, Henry Richard Danvers Waghorn, 7 September 1929.
FAI Record File Number 11831, World Record for Speed Over a 3-Kilometer Course: 655 kilometers per hour (407 miles per hour), Supermarine S.6B, George Hedley Stainforth, 29 September 1931.
Lockheed XF-104 prototype, 53-7786, photographed 5 March 1954. (Lockheed Martin)
4 March 1954: Lockheed test pilot Anthony W. LeVier takes the prototype XF-104 Starfighter, 53-7786, for its first flight at Edwards Air Force Base in the high desert of southern California. The airplane’s landing gear remained extended throughout the flight, which lasted about twenty minutes.
Lockheed XF-104 53-7786 rolling out on Rogers Dry Lake, Edwards Air Force Base, California. This photograph shows how short the XF-104 was in comparison to the production F-104A. Because of the underpowered J65-B-3 engine, there are no shock cones in the engine inlets. (U.S. Air Force via Jet Pilot Overseas)
Designed by the legendary Kelly Johnson, the XF-104 was a prototype Mach 2+ interceptor and was known in the news media of the time as “the missile with a man in it.”
Tony LeVier was a friend of my mother’s family and a frequent visitor to their home in Whittier, California.
Legendary aircraft designer Clarence L. “Kelly” Johnson shakes hands with test pilot Tony LeVier after the first flight of the XF-104 at Edwards Air Force Base. (Lockheed via Mühlböck collection)
There were two Lockheed XF-104 prototypes. Initial flight testing was performed with 083-1001 (USAF serial number 53-7786). The second prototype, 083-1002 (53-7787) was the armament test aircraft. Both were single-seat, single-engine supersonic interceptor prototypes.
The wing of the Lockheed XF-104 was very thin, with leading and trailing edge flaps and ailerons. (San Diego Air & Space Museum)
The XF-104 was 49 feet, 2 inches (14.986 meters) long with a wingspan of 21 feet, 11 inches (6.680 meters) and overall height of 13 feet, 6 inches (4.115 meters). The wings had 10° anhedral. The prototypes had an empty weight of 11,500 pounds (5,216 kilograms) and maximum takeoff weight of 15,700 pounds (7,121 kilograms).
Lockheed XF-104 53-7786 (San Diego Air & Space Museum)
The production aircraft was planned for a General Electric J79 afterburning turbojet but that engine would not be ready soon enough, so both prototypes were designed to use a Buick-built J65-B-3, a licensed version of the British Armstrong Siddeley Sapphire turbojet engine. The J65-B-3 was a single-shaft axial-flow turbojet with a 13-stage compressor section and 2-stage turbine. It produced 7,200 pounds of thrust (32.03 kilonewtons) at 8,200 r.p.m. The J65-B-3 was 9 feet, 7.0 inches (2.921 meters) long, 3 feet, 1.5 inches (0.953 meters) in diameter, and weighed 2,696 pounds (1,223 kilograms).
On 15 March 1955, XF-104 53-7786 reached a maximum speed of Mach 1.79 (1,181 miles per hour, 1,900 kilometers per hour), at 60,000 feet (18,288 meters).
XF-104 53-7786 was destroyed 11 July 1957 when the vertical fin was ripped off by uncontrollable flutter. The pilot, William C. Park, safely ejected.
Lockheed XF-104 53-7786 with wingtip fuel tanks. (Lockheed Martin)
Lockheed XF-104 53-7786 with wingtip fuel tanks. Compare these finned tanks to those in the image above. (Lockheed Martin)
Lockheed Martin has an excellent color video of the XF-104 first flight on their web site at:
Flight Officer Charles E. Yeager, Air Corps, Army of the United States, with his North American Aviation P-51B-5-NA Mustang, 43-6763, “Glamourus Glen.” (littlefriends.co.uk)
4 March 1944: Flight Officer Charles E. Yeager, Air Corps, Army of the United States, was leading an element of White Flight, 363d Fighter Squadron, 357th Fighter Group, southeast of Kassel, Germany. Yeager was flying a North American Aviation P-51B Mustang, 43-6763, named Glamourus Glen and marked B6 Y. It was his seventh combat mission. At 13:05 British Standard Time, he observed a Messerschmitt Bf 109G fighter. He wrote (errors in original):
Leading the second element of Chambers White Flight, I was flying at 26,000 feet[7,925 meters] when I spotted a Me. 109 to the right and behind us about 2,000 feet [610 meters] below. I broke right and down. The E/A [Enemy Aircraft] turned right and down and went onto a 50° dive. I closed up fast and opened fire at 200 yards[183 meters]. I observed strikes on fuselage and wing roots, with pieces flying off. I was overrunning so I pulled up and did an aleron roll and fell in behind again and started shooting at 150 yards [137 meters]. The e/A engine was smoking and wind-milling. I overran again, observing strikes on fuselage and canopy. I pulled up again and did a wingover on his tail. His canopy flew off and the pilot bailed out and went into the overcast at 9,000 feet [2,743 meters]. The E/A had a large Red and Black “Devil’s Head’ on the left side of the ship. The E/A took no evasive action after the first burst.
A flight of three Luftwaffe Messerschmitt Bf 109 fighters, 20 July 1944. (Bundsarchive Bild 101l-676-7975-36)
Flight Officer Yeager’s combat report indicates that he fired 461 rounds of .50 caliber ammunition. He was credited with one enemy aircraft destroyed. (He previously had claimed another enemy plane shot down over the English Channel, but that was not credited.)
The following day, 5 March, Yeager was again in the cockpit of Glamourus Glen. A Focke-Wulf Fw 190A 4 flown by Unteroffizier Irmfried Klotz, shot him down east of Bourdeaux, France.
In his autobiography, Chuck Yeager wrote:
. . . The world exploded and I ducked to protect my face with my hands, and when I looked a second later, my engine was on fire, and there was a gaping hole in my wingtip. The airplane began to spin. It happened so fast, there was no time to panic. I knew I was going down; I was barely able to unfasten my safety belt and crawl over the seat before my burning P-51 began to snap and roll, heading for the ground. I just fell out of the cockpit when the plane turned upside down—my canopy was shot away.
—Yeager: an Autobiography, by Charles E. Yeager and Leo Janos, Bantam Books, New York, 1985, Chapter 4 at Page 26.
Focke-Wulf Fw 190A-3, June 1942. (Imperial War Museum)
Yeager was slightly wounded. His Mustang was destroyed. Over the next few months he evaded enemy soldiers and escaped through France and Spain, returning to England in May 1944. He returned to combat with a new P-51D Mustang, and by the end of World War II was officially credited with 11.5 enemy aircraft destroyed.
Colonel Yeager became Commandant of the U.S. Air Force Aerospace Research Pilot School at Edwards Air Force Base, 23 July 1962. (U.S. Air Force)
Yeager remained in the Air Force until retiring in 1975 with the rank of brigadier general, and having served 12,222 days. He was a world famous test pilot, breaking the sound barrier with a Bell XS-1 rocketplane, 14 October 1947. He commanded F-86H Sabre and F-100D fighter bomber squadrons, flew the B-57 Canberra over Southeast Asia during the Vietnam War, and commanded the Air Force Flight Test Center at Edwards Air Force Base in the high desert of southern California. General Yeager celebrated his 94th birthday 13 February 2017.
Identical to the Inglewood, California-built North American Aviation P-51B Mustang, this is a Dallas, Texas-built P-51C-1-NT, 42-103023. (North American Aviation, Inc.)
The North American Aviation P-51 Mustang is a single-place, single-engine long range fighter. It is a low-wing monoplane with retractable landing gear and is of all-metal construction. The fighter is powered by a liquid-cooled V-12 engine. It was originally produced for the United Kingdom’s Royal Air Force as the Mustang Mk.I. Two examples were provided to the U.S. Army Air Corps, designated XP-51. This resulted in orders for the P-51A and A-36 Apache dive bomber variant. These early Mustangs were powered by the Allison V-1750 engine driving a three-bladed propeller, which also powered the Lockheed P-38 Lightning and Curtiss P-40 Warhawk.
In 1942, soon after the first production Mustang Mk.I arrived in England, Rolls-Royce began experimenting with a borrowed airplane, AM121, in which they installed the Supermarine Spitfire’s Merlin 61 engine. This resulted in an airplane of superior performance.
In the United States, the Packard Motor Car Company of Detroit, Michigan, had begun building Merlin engines under license from Rolls-Royce. These American engines were designated V-1650. North American modified two P-51s from the production line to install the Packard V-1650-3. These were designated XP-51B. Testing revealed that the new variant was so good that the Army Air Corps limited its order for P-51As to 310 airplanes and production was changed to the P-51B.
Cutaway illustration shows the internal arrangement of the P-51B/C Mustang. (Eugene Clay, North American Aviation, Inc.)
The P-51B and P-51C are virtually Identical. The P-51Bs were built by North American Aviation, Inc., at Inglewood, California. P-51Cs were built at North American’s Dallas, Texas plant. They were 32 feet, 2.97 inches (9.829 meters) long, with a wingspan of 37 feet, 0.31-inch (11.282 meters) and overall height of 13 feet, 8 inches (4.167 meters) high. The fighter had an empty weight of 6,985 pounds (3,168 kilograms) and a maximum gross weight of 11,800 pounds (5,352 kilograms).
P-51Bs and Cs were powered by a right-hand tractor, liquid-cooled, supercharged, 1,649-cubic-inch-displacement (27.04-liter) Packard V-1650-3 or -7 Merlin single overhead cam (SOHC) 60° V-12 engine which produced 1,380 horsepower at Sea Level, turning 3,000 r.p.m at 60 inches of manifold pressure (V-1650-3) or 1,490 horsepower at Sea Level, turning 3,000 r.p.m. at 61 inches of manifold pressure (V-1650-7). (Military Power rating, 15 minute limit.) These were license-built versions of the Rolls-Royce Merlin 63 and 66. The engine drove a four-bladed Hamilton Standard Hydromatic constant-speed propeller with a diameter of 11 feet, 2 inches (3.404 meters) through a 0.479:1 gear reduction.
A Packard Motor Car Company V-1650-7 Merlin liquid-cooled, supercharged SOHC 60° V-12 aircraft engine at the Smithsonian Institution National Air and Space Museum. This engine weighs 905 pounds (411 kilograms) and produces 1,490 horsepower at 3,000 r.p.m. (NASM)
The P-51B/C had a cruise speed of 362 miles per hour (583 kilometers per hour) and the maximum speed was 439 miles per hour (707 kilometers per hour) at 25,000 feet (7,620 meters). The service ceiling was 41,900 feet (12,771 meters). With internal fuel, the combat range was 755 miles (1,215 kilometers).
Armament consisted of four Browning AN-M2 .50-caliber machine guns, mounted two in each wing, with 350 rounds per gun for the inboard guns and 280 rounds per gun for the outboard.
1,988 P-51B Mustangs were built at North American’s Inglewood, California plant and another 1,750 P-51Cs were produced at Dallas, Texas. This was nearly 23% of the total P-51 production.
North American Aviation P-51B-1-NA Mustang in flight. (Air Force Historical Research Agency)
Airship Hindenburg, D–LZ 129, over Friedrichshafen, Germany, March 1936. (Unattributed)Dr. Hugo Eckener
4 March 1936: The airship Hindenburg (D–LZ 129) made its first flight at Friedrichshafen, on the north shore of Lake Constance in southern Germany. In command was Hugo Eckener,¹ chairman of Luftschiffbau Zeppelin GmbH. There were 87 passengers and crew aboard.
The airship was operated by a flight crew of 40, with 12 stewards and cooks. There were 50 passenger sleeping berths in private cabins, with large public areas on the upper, “A” deck, with crew quarters, galley, a public bar and smoking lounge on the lower “B” deck. The ship’s control station was located in a gondola below the forward part of the hull.
The airship was designed by Ludwig Dürr. Its rigid structure was built of triangular-section duralumin girders (a specially heat-treated alloy of aluminum and copper, and anodized blue for corrosion protection). There were 15 ring frames and 36 longitudinals.
The airship’s control surfaces were operated by electric servo motors.
The Zeppelin’s covering was cotton fabric painted with a cellulose varnish which had been impregnated with aluminum powder, both to give it the silver color, but also to act as a reflector to protect the sixteen hydrogen-filled bouyancy gas bags contained inside from heat and ultraviolet light.
Hindenburg‘s dining room (Speisesaal). (O. v. Stetten)
Hindenburg was 803 feet, 10 inches (245.008 meters) long, with a diameter of 135 feet, 1 inch (41.173 meters). Hindenburg had a gross weight of approximately 215,000 pounds (97,522 kilograms).
The huge airship was powered by four liquid-cooled, fuel-injected, 88.514 liter (5,401.478-cubic-inch-displacement) Daimler-Benz DB 602 50° V-16 diesel engines with 4 valves per cylinder and a compression ratio of 16:1. Mounted in a pusher configuration, the engines turned 19 foot, 8.4 inch (6.005 meter) diameter, four-bladed fixed-pitch wooden propellers through a 0.50:1 gear reduction. The DB 602 had a cruise power rating of 850 horsepower at 1,350 r.p.m. It could produce 900 horsepower at 1,480 r.p.m., and a maximum 1,320 horsepower at 1,650 r.p.m. (5 minute limit). The engines could be run in reverse. The DB 602 was 2.69 meters (8 feet, 10 inches) long, 1.02 meters (3 feet, 4 inches) wide and 1.35 meters (4 feet, 5 inches) high. Each engine weighed 1,976 kilograms (4,356 pounds).
A Daimler-Benz DB 602 V-16 diesel airship engine at the Zeppelin Museum Friedrichshafen. (Wikipedia)This photograph shows Hindenburg‘s duralumin structure and a latex/cotton hydrogen cell. A walkway goes through the center of the cell. (Luftschiffbau Zeppelin GmbH)
Lift was provided by 16 hydrogen gas cells which were made of multiple layers of cotton fabric which was brushed with latex gelatin. These contained 7,062,000 cubic feet (199,974 cubic meters) of hydrogen with a lift capacity of 511,500 pounds (232,013 kilograms), nearly double the airship’s weight when fully loaded.
LZ 129 had a cruising speed of 76 miles per hour (122 kilometers per hour) and a maximum speed of 84 miles per hour (135 kilometers per hour).
Airship Hindenburg, D–LZ 129, moored at Lakehurst, New Jersey, 1936. (U.S. Navy).
¹ Eckner is universally referred to as “Dr. Eckener.” He earned a doctorate from the Institute for Experimental Psychology, University of Leipzig, 1892.
