1st Lieutenant Harold Ross Harris, Air Service United States Army. (San Diego Air and Space Museum Archives)
20 October 1922: 1st Lieutenant Harold Ross Harris, Air Service, United States Army, the Chief, Flight Test Branch, Engineering Division, at McCook Field, Dayton, Ohio, was test flying a Loening Aeronautical Engineering Company PW-2A monoplane, a single-engine, single-seat fighter. The PW-2A, serial number A.S. 64388, had experimental balance-type ailerons. During this flight, Lieutenant Harris engaged in simulated air combat with Lieutenant Muir Fairchild (future Vice Chief of Staff, United States Air Force) who was flying a Thomas-Morse MB-3.
While banking the PW-2A into a right turn, Harris’ control stick began to vibrate violently from side to side and the airplane’s wings were “torn apart.” With the Loening diving uncontrollably, Harris jumped from the cockpit at approximately 2,500 feet (762 meters). After free-falling about 2,000 feet (610 meters), he pulled the lanyard on his parachute which immediately deployed. Harris then descended with his parachute providing aerodynamic deceleration, coming safely to earth in the back yard of a home at 335 Troy Street. He suffered minor bruises when he landed on a trellis in the garden.
Loening Aeronautical Engineering Company PW-2A, A.S. 64388. This is the airplane from which Lieutenant Harold R. Harris “bailed out” over Dayton, Ohio, 20 October 1922. (San Diego Air and Space Museum)
Harris’ PW-2A crashed into a yard at 403 Valley Street, three blocks away. It was completely destroyed.
This was the very first time a free-fall parachute had been used in an actual inflight emergency. Lieutenant Harris became the first member of the Irvin Air Chute Company’s “Caterpillar Club.”
Crash scene at 403 Valley Street, Dayton, Ohio, 20 October 1922. (U.S. Air Force)
The Pittsburgh Post reported:
Flyer Quits Plane in Parachute, Saves Life; Unique Case
Dayton, O., Oct. 20.—Leaping from his Loenig [sic] monoplace in a parachute when the plane became uncontrollable over North Dayton today, Lieutenant Harold R. Harris, chief of the flying section of McCook Field, escaped death when his plane crashed to earth.
Technical data, officials at McCook Field said, show that Lieutenant Harris’ escape is the first time an air pilot has ever actually saved himself by use of a parachute. A mail plane flyer leaped in a parachute over Chicago several years ago, but the necessity of his leaving the plane was questioned.
Harris won the commercial plane event in the Pulitzer races in Detroit last week, flying the “Honeymoon Express” plane.
—The Pittsburgh Post, Saturday, 21 October 1922, Vol. 80, No. 303, Page 1, Column 1
Harold R. Harris was born at Chicago, Illinois, 20 December 1895, the first of four children of Ross Allen Harris, M.D., and Mae Ermine Plumb Harris. He enlisted as a private in the Aviation Section, Signal Enlisted Reserve Corps (E.R.C.), 2 May 1917. He was commissioned as a 2nd Lieutenant, Aviation Section, Signal Officers Reserve Corps (O.R.C.) on 15 December 1917. Harris was promoted to the rank of 1st Lieutenant on 19 January 1918. His commission was vacated 18 September 1920 and commissioned as a 1st Lieutenant, Air Service, United States Army, effective 1 July 1920.
Married Grace C. Harris, circa 1920. They had two children.
Ross attended the Air Service Engineering School, graduating in 1922. He also earned a Bachelor of Science degree (B.S.) from the California Institute of Technology, Pasadena, California (“Caltech”).
Harris left the Air Service in 1926. He founded the world’s first aerial crop dusting business, the Huff Daland Company. Next he became a vice president and chief of operations for Grace Airways, a joint venture of Grace Shipping and Pan American World Airways, providing passenger service between South America and the West Coast of the United States.
Brigadier General Harold R. Harris, U.S. Army Air Corps.
During World War II, Harris, using his airline experience, helped to establish the Air Transport Command. In 1942, he was commissioned as a colonel in the U.S. Army Air Corps. By 1945, he was Chief, Air Transport Command, with the rank of Brigadier General.
Following World War II, Harris joined American Overseas Airlines, which soon was absorbed by Pan American. Harris was once again a vice president for Pan Am.
In 1955, Harris became president of Northwest Airlines.
Brigadier General Harold Ross Harris, United States Army Air Corps (Retired) died 28 July 1988 at the age of 92 years.
Harold Ross Harris, circa 1950. (San Diego Air and Space Museum Archives)
Joseph Sadi-Lecointe. (Fédération Aéronautique Internationale)
20 October 1920: At Villacoublay, France, Joseph Sadi-Lecointe flew his Nieuport-Delâge 29V to a Fédération Aéronautique Internationale (FAI) World Speed Record of 302.53 kilometers per hour (187.98 miles per hour) over a straight 1 kilometer course.¹
Joseph Sadi-Lecointe in the cockpit of his Nieuport-Delâge 29V racer, after winning the Gordon Bennett Trophy, at Orleans/Etampes, 28 September 1920. Under the terms of trophy, the nation whose team won the event three consecutive times took permanent possession. After Sadi-Lecointe’s victory, the Gordon Bennett Trophy was in the permanent possession of the Aéro-Club de France.
Sadi-Lecointe’s Ni-D 29V was one of three racing variants of the highly successful single-engine, single-seat Ni-D 29C.1 biplane fighter, which was the fastest in the world at the time. The Ni-D 29V was 21 feet, 3.5 inches (6.489 meters) long, with a wing span of just 6.00 meters (19 feet, 8¼ inches), shortened from the 31 feet, 10 inch (9.703 meters) wingspan of the standard production chasseur.
Joseph Sadi-Lecointe flew this Nieuport-Delâge NiD-29V to win The Gordon Bennett Cup, 28 September 1920. (les avions Nieuport-Delâge)
The airplane was powered by a water-cooled, normally aspirated, 18.473 liter (1,127.29-cubic-inch displacement) right-hand tractor Hispano-Suiza 8Fb single overhead cam (SOHC) 90° V-8 engine, modified to increase its output to 320 horsepower. This was a direct-drive engine, and turned a two-bladed-fixed pitch propeller. The engine was 1.32 meters (4 feet, 4 inches) long, 0.89 meters (2 feet, 11 inches) wide, and 0.88 meters (2 feet, 10½ inches) high. It weighed 256 kilograms (564 pounds).
The standard airplane had a top speed of 235 kilometers per hour (146 miles per hour), a range of 580 kilometers (360 miles) and a service ceiling of 8,500 meters (27,887 feet).
Nieuport-Delâge Ni-D 29V (Unattributed)
Joseph Sadi-Lecointe learned to fly in 1910. The Aero Club de France awarded him its license number 431 on 10 February 1910.
He joined the Service Aéronautique (the original form of the French Air Force) as a mechanic in October 1912, and was designated pilote militaire nº375, 20 September 1913. He served as a pilot during World War I, flying the Blériot XI-2, Morane LA and Nieuprt X, then in December 1915 became a flight instructor at l’Ecole de Pilotage d’Avord. Sadi-Lacointe was promoted from the enlisted ranks to sous-lieutenant, 17 September 1917, and was assigned as a test pilot at Blériot–Société Pour L’Aviation et ses Dérivés, where he worked on the development of the famous SPAD S.XIII C.1 fighter.
After the War, he was a test pilot for Nieuport-Delâge, and participated in numerous races and set a series of speed and altitude records with the company’s airplanes.
Sadi-Lecointe returned to military service in 1925 and participated in the Second Moroccan War. Then in 1927, he returned to his position as chief test pilot for Nieuport-Delâge. From 1936 to 1940, he served as Inspecteur général de l’aviation civile (Inspector General of Aviation) for the French Air Ministry. With the outbreak of World War II in 1939, Lieutenant Colonel Sadi-Lecointe was again recalled to military service as Inspector of Flying Schools.
With the Fall of France, Sadi-Lacointe joined La Résistance française, and operated with the group, Rafale Andromède. He was captured and tortured by the Gestapo at Paris, and died as a result, 15 July 1944.
Joseph Sadi-Lecointe, Commandeur Ordre national de la Légion d’honneur, was awarded the Croix de Guerre in three wars. He was posthumously awarded the Médaille de la Résistance. The Aéro-Club de France awarded him its Grande Médaille d’Or de l’Aéro-Club de France. During his flying career, Sadi-Lecointe set seven World Records for Speed, and three World Records for Altitude.
MORT POUR LA FRANCE
Joseph Sadi-Lecointe was a test pilot for the Société Pour L’Aviation et ses Dérivés SPAD S.VII C.1 fighter (Bibliothèque nationale de France)
Eugène Welferinger à bord de l’Antoinette IV : [photographie de presse] / [Agence Rol]19 October 1908: From the grounds of the Château de Bagatelle, Paris, France, Eugène Welferinger (1872–1936) made the first flight of the Société d’aviation Antoinette monoplane, the Antoinette IV.
A single-place, single-engine airplane, the Antoinette IV was one the first successful monoplanes. American Machinist described it as a “purely racing machine.”
The airplane and its V-8 engine were designed by Léon Levavasseur. It was modified a number of times, as was its sister ship, the Antoinette V.
“Left front view of Société Antoinette ‘Antoinette IV’ on the ground. This version is of ‘Antoinette IV’ is fitted with two large in-line wheels, substantial mid-wing skids, and a paddle-type propeller. Designer Léon Levavasseur stands at left (bearded man wearing dark vest and cap). Issy-les-Moulineaux, Paris, France, November 1908.” (M. Rol & Cie, 4 Rue Richer, Paris/Library of Congress)
Augustus Post, Secretary of the Aero Club of America, wrote in the weekly technical publication, American Machinist:
M. Levavasseur considered that the monoplane offered the advantages of simplicity of form, natural stability, and was easier to construct; that is to say, that the thrust of the motor required for flight was less under the same conditions of speed and weight.
The “Antoinette” is particularly interesting on account of the manner in which the problems have been studied and the great amount of thought that has been given to them. The machine is perhaps without question the most finely finished of those in its class, shows the most careful workmanship in its most minute detail, and presents more new and original features than any of the other machines which may be compared with it. It also provides a comfortable cockpit for the aviator, a distinct advantage in long and trying flights.
—American Machinist, Hill Publishing Company, New York, 7 October 1909, Page 608 at Column 2
Antoinette IV, right front quarter view. (Phototeque chronorama)Antoinette IV, front view. (Geneanet)
The Antoinette IV was approximately 11,50 mètres (37.72966 feet) long with a wingspan of 14,80 mètres (48.55643 feet). The leading edge was swept aft 3°. They had a chord of 3 meters (9.8 feet) at the root, tapering to 2 meters (6.6 feet) at the tip. The wing had an angle of incidence of 4° with 6° dihedral. The total surface area was 34 square meters (366 square feet). The weight of the Antoinette IV was 460 kilograms (1,014 pounds) with one hour of fuel. It was capable of reaching 120 kilometers per hour (75 miles per hour).
Antoinette IV in an early configuration. (La Phototeque de Chonorama)
The airplane was described in contemporary reports as “beautiful” and often mentioned was the very narrow triangular cross section of its fuselage. Different configurations of landing gear were tried, with combinations of skids and wheels, wheels in tandem, and side-by-side. Directional control was created through “wing-warping” as had been used by the Wright Brothers. This was later modified to an aileron system. The tail surfaces were cruciform, with two triangular rudders located above and below the triangular elevator. Flight controls were four hand wheels and two pedals which connected to the control surfaces by cables.
An unidentified Antoinette employee with Hubert Latham (center) and Léon Levavasseur (right), The airplane is the Antoinette IV. (Librairie Militaire Guérin Mourmelon, via Old Machine Press)
As originally built, the Antoinette IV was powered by a steam-cooled, normally-aspirated, 7.274 liter (443.861 cubic inch displacement) Antoinette 8V 90° overhead valve V-8 engine which produced approximately 45–50 chaval-vapeur (44.4–49.3 horsepower) at 1,400 r.p.m. This engine was considerably smaller and lighter than Levavasseur’s previous V-8s. Because the compression ratio was increased, the aluminum cylinder heads were replaced with forged steel heads. Carburetors were used instead of direct injection, which was prone to clogging. The 8V was a direct-drive engine which turned a propeller with two aluminum blades which were riveted to a steel tube that attached to the engine’s output shaft. The propeller had a diameter of 2.20 meters (7 feet, 2.6 inches). The V-8 engine was 0.750 meters (2 feet, 5.5 inches inches) long, 0.600 meters (1 foot, 11.6 inches) wide and (0.600 meters (1 foot, 11.6 inches) high. It weighed 60 kilograms (132 pounds), dry, and 85 kilograms (187 pounds) in running order.
Two-view drawing of an early configuration of Léon Levavasseur’s Antoinette Monoplane. (Flight, Vol. I, No. 43, 23 October 1909, at Page 663)
The engine sold for ₣12,500 (approximately $2,451 U.S. dollars) with delivery expected in 10 months. Antoinette airplanes could be purchased for ₣25,000, or about $4,902 U.S. dollars.
On 19 July 1909, Arthur Louis Hubert Latham, who had been taught to fly by Welféringer, attempted to fly the Antoinette IV across the English Channel, but an engine failure forced it down about 8 miles (13 kilometers) off the French coast.
Hubert Latham is rescued from the English Channel by the crew of the French torpedo boat destroyer, Harpon, 19 July 1909. (hydroretro)
The airplane remained afloat and Latham was rescued by the French torpedo boat destroyer FS Harpon, but the airplane was severely damaged during the recovery.
Léon Lavavasseur, circa 1905. (National Aviation Museum/CORBIS)
Léon Levavasseur was a French engineer, born 8 January 1863 near Cherbourg, France. He invented the 90° V-8 engine, which he patented in 1902. He specialized in lightweight engines, using components designed to be only as strong as was required by their specific use. He developed direct fuel injection and evaporative cooling for internal combustion engines.
Mlle. Antoinette Gastambide, namesake of the Antoinette IV and the company that built it. (L’Aérophile)
His company, Société d’aviation Antoinette, and its products, were named for the daughter of his business partner, Jules Gastambide. The company initially produced lightweight engines for other airplane builders, but began to construct complete airplanes in 1906. Both Levavasseur and Gastambide left Antoinette in 1909 following a disagreement with the board of directors, but they returned five months later. The company failed in 1911.
Levavasseur was appointed Chevalier de la légion d’honneur in 1909.
Léon Levavasseur died in Paris, France, 26 February 1922, at the age of 59 years.
Recommended: An excellent article about Léon Levavasseur’s Antoinette engines can be found at Old Machine Press:
“Aviation in itself is not inherently dangerous. But to an even greater degree than the sea, it is terribly unforgiving of any carelessness, incapacity or neglect.”
Probably every pilot, or aspiring pilot, has read these words in some form. The statement was made by Captain Alfred G. Lamplaugh, Principle Surveyor for The British Aviation Insurance Co., Ltd.
Captain Alfred Gilmer Lamplugh, C.B.E., F.R.Ae.S, M.I.Ae.S., M.C.A.I., F.R.G.S.—nicknamed “Lamps”— was well known and respected in aviation circles in the United Kingdom. He was one of the great (though largely unkown) personalities of the aviation world.
The Journal of the Royal Aeronautical Society reported:
THE DEATH OF CAPTAIN A. G. LAMPLUGH on 15th December 1955, at only sixty years of age is a grievous blow to aviation and one that I personally feel most deeply, for our activities in the aeronautical world brought us together on frequent occasions over a period of many years.
Captain Alfred Gilmer Lamplugh, C.B.E., F.R.Ae.S., M.C.A.I., F.R.G.S., had been Underwriter and Principal Surveyor of the British Insurance Co. Ltd. since its formation until his retirement and election to its board of directors in September last.
He was educated at King Edward’s School and Queen’s College, Birmingham. His interests were technical rather than scholastic, however, and he served an apprenticeship with a firm of motor engineers. In 1913 he learned to fly and obtained one of the very early “B” licenses.
The Great War came and he went into the army, to be seconded later to the R.F.C. He served in that corps and the R.A.F. until 1919.
It was abroad, in China, that he gained his first experience in insurance. Then home once more, he became Underwriter to the British Aviation Insurance Group, later British Aviation Insurance Co. Ltd., and was introduced to aviation insurance, this group in those days being the only body to undertake such work.
His interest in almost every aspect of things aeronautical was enormous and far beyond a merely professional one. This interest—and his great abilities—were reflected in the number of positions, mainly honorary in nature, which he filled with success and in many cases for long periods.
He was a member of the Committee of the Royal Aero Club for nearly thirty years; a memmer of the Council of the Air Registration Board since its inception; an honorary member of the British Airline Pilots’ Association; a member of the International Union of Aviation Insurers; Chairman of the Aviation Insurance Offices Association; and President of the London Gliding Club. In 1943 he was Chairman of the Independent Committee on the Future of Civil Aviation.
He did much for flying, both in these capacities and in other ways, not least by his services in the field of insurance. It was in recognition of this that he was appointed a Companion of the order of the British Empire.
“Lamps” made it his business and his pleasure to be at the heart of aeronautical activities, not only getting to know people, but getting to know them well. He was a familiar figure at aviation gatherings of every sort since the early ‘twenties and will be missed by very many of us indeed.
SIR FREDERICK HANDLEY PAGE
J. Laurence Pritchard writes:
I have a great affection for “Lamps,” and I am glad to be able to express it in the JOURNAL of the Society, of which he was a good friend.
On September 14, last year, he wrote to me, in reply to a letter of mine about a project of his, “It would be nice to have some stabilizing influence like yours in the show and it was kind of you to write. Your interest has bucked me up a lot.”
“Lamps” must have known that his chance of carrying out his idea was very small indeed, but his magnificent courage would never allow him not to try, whatever the odds were. I shall always be glad that I was the first to reply to his suggestion, for he was the first to listen to any suggestion of mine when he was on the Council of the Society, and its Honorary Treasurer.
“Lamps” joined the Society in 1924, and became an Associate Fellow two years later. In 1929 he was made a Fellow.
On the Council, to which he was first elected in 1933, he was a tower of strength with his direct comments, which were always listened to, and generally agreed upon. It was a tribute to his practical and sane outlook that the year he was elected to the Council, he was asked to serve on the Finance Committee, upon which he served until 1947.
He was Honorary Treasurer in those difficult years 1941–46 when Councils and Committees were not able to give close consideration to the affairs of the Society, and I wanted what help I could get.
“Lamps” often dropped in casually in those days, talked about any difficulties I may have had, and just as casually went out saying, All right, chaps, it’ll be done.” It was. Few appreciated how quietly he kept up others’ morale, how shrewdly he summed up all those with whom he came in contact.
During the War he once gave me a lift in his car into the West Country. Those were the days when all sign posts had been obliterated, post office and village signs blotted out; and driving was difficult. Yet he drove with great assurance, often on minor roads, while we talked of everybody and everything. In his car he had a small portable wireless set, given him in New York, so that he could hear the news wherever he happened to be. Fixed below the dashboard was an aeroplane compass.
“That’s how I find my way,” he replied cheerily, when I complimented him on his knowledge of all the by-roads.
When the offices of the Guild of Air Pilots were destroyed I agreed to find room for their staff at 4 Hamilton Place. “Lamps” was one of the Wardens of the Guild and often came in to see how things were going. One day a bomb dropped in Hyde Park and blew in some of the office windows. I had given very definite orders that the moment the sirens sounded their warning all curtains were to be drawn and staff were to keep away from the windows.
I went round the building, and as I walked up the stairs to the Guild of Air Pilots’ room Lamplugh followed me. He had dashed round to see how things were. One of the girls was sitting in front of her typewriter by a window, the blind not drawn. For disobeying the orders upon which her life might have depended she got no praise but was told sharply where to sit in the future. I expected “Lamps” to say something to me about the way I spoke to someone not on the Society’s staff. All he said was, as we walked away, “Good show, chaps.”
I believe that when someone tries to assess the personalities of those early years of aviation, that of Alfred Gilmer Lamplugh will rank very highly indeed, for he had the courage and vision when both were required in full measure.
***************
Alfred Gilmer Lamplugh was born at Garton on the Wolds, East Riding of Yorkshire, England, 19 October 1895. He was the first of three children of Sydney Augustus Lamplugh and Ellen Cecile Gilmer Lamplugh. His younger brother, Air Mechanic 1st Class Sidney Clifford Lamplugh, was killed 6 March 1917, when the airplane on which he was an observer entered a spin and crashed shortly after takeoff. His sister, Joan Frances Mary Elinor Lamplugh, M.B., Ch.B., was a physician and surgeon who ran two medical missions in Rhodesia.
Alfred Lamplugh had apprenticed with the Austin Motor Company. He learned to fly in 1913, and he received Air Ministry B License No. 155.
He enlisted in the 4th Hussars, British Army, on 1 September 1914 and on 22 January 1915 received a commission as a Temporary Second Lieutenant, 8th Battalion, North Staffordshire Regiment. Infantry. He was transferred (“seconded”) to the Royal Flying Corps 12 August 1916. He was trained to fly at the Military School, Birmingham, in a Maurice Farman biplane. Lieutenant Lamplugh received an aviator’s certificate from the Royal Aero Club, 8 December 1916.
Lieutenant Alfred Gilmer Lamplugh, Royal Flying Corps. (Moseley Society History Group)
He was assigned to the 5th Reserve Squadron. (The R.F.C. became the Royal Air Force on 1 April 1918.) Lieutenant Lamplaugh was deployed to Mesoptamia and according to one source, served as a pilot for T. E. Lawrence (“Lawrence of Arabia”).He was promoted to captain 2 August 1919. On 24 October 1919, Captain Lamplugh was appointed Flying Officer, Royal Air Force.
Flying Officer Alfred Lamplugh married Miss Marie Emily Hugo at King’s Norton, Worcestershire, in December 1919. They would have two sons, Alfred Brian Hugo Lamplugh and Beric Clifford Gordon Lamplugh.
On 29 January, Lamplugh, then employed as an insurance manager, saild aboard S.S. Adriatic from Southampton to New York, arriving there 8 February 1920. He crossed the North American continent by railroad, then sailed across the Pacific to Hong Kong. Mrs. Lamplugh joined him later. They returned to England with their son Brian aboard S.S. Carnarvonshire, arriving 6 March 1923.
In 1922, Flying Officer Lamplugh was transferred to the Reserve of Air Force Officers, in which he remained until relinquishing his commission 30 December 1938. He was permitted to retain his rank.
In the King’s Birthday Honours, 13 June 1946, Lamplugh was appointed a Commander of the Most Excellent Order of the British Empire.
Alfred Lamplugh died at Marylebone, London, England, 15 December 1955. The following day, he was posthumously appointed Officier de l’Ordre de Leopold II by Belgium.
Rockwell International B-1B Lancer 82-0001 takes off for the first time at Air Force Plant 42, Palmdale, California. (U.S. Air Force)
18 October 1984: The first production Rockwell International B-1B Lancer, serial number 82-0001, a supersonic four-engine strategic bomber with variable sweep wings, made its first flight from Air Force Plant 42, Palmdale, California.
Rockwell test pilot Mervyn Leroy Evenson (Colonel, U.S.Air Force, retired) was the aircraft commander, with co-pilot Lieutenant Colonel Leroy Benjamin Schroeder; Major S.A. Henry, Offensive Systems Officer; Captain D.E. Hamilton, Defensive Systems Officer.
Rockwell International B-1B takeoff on Oct. 25, 1986. Note the lit afterburners. (U.S. Air Force)
After 3 hours, 20 minutes, the B-1B landed at Edwards Air Force Base where it would enter a flight test program.
Rockwell B-1B 82-0001 parked at the Rockwell International Corp. facility, Palmdale, California, 3 September 1984. (MSGT Mike Dial, U.S. Air Force)
The Rockwell International B-1B Lancer is a supersonic intercontinental bomber capable of performing strategic or tactical missions. It is operated by a flight crew of four.
The B-1B is 147 feet, 2.61 inches (44.8719 meters) long, with the wing span varying from 86 feet, 8.00 inches (26.4160 meters) at 67.5° sweep to 136 feet, 8.17 inches (41.6603 meters) at when fully extended to 15° sweep. It is 33 feet, 7.26 inches (10.2428 meters) high to the top of the vertical fin. The bomber’s empty weight is approximately 180,500 pounds (81,873 kilograms). Its maximum weight in flight is 477,000 pounds (216,634 kilograms). The internal payload is up to 75,000 pounds (34,019 kilograms).
The bomber is powered by four General Electric F101-GE-102 turbofan engines, mounted in two-engine nacelles under the wing roots. These are rated at 17,390 pounds of thrust (17.355 kilonewtons) and produce 30,780 pounds (136.916 kilonewtons) with “augmentation.” The engine has two fan stages, a 9-stage axial-flow compressor and a 3-stage turbine. The F101-GE-102 is 15 feet, 0.7 inches (4.590 meters) long, 4 feet, 7.2 inches (1.402 meters) in diameter and weighs 4,460 pounds (2,023 kilograms).
Rockwell International B-1B Lancer. (U.S. Air Force)
“The Bone” has a maximum speed of Mach 1.2 at Sea Level (913 miles per hour, or 1,470 kilometers per hour). The service ceiling is “over 30,000 feet” (9,144 meters). The Lancer’s maximum range is “intercontinental, unrefueled.”
It can carry up to 84 Mk.82 500-pound (226.8 kilogram) bombs, 24 Mk.84 2,000-pound (907.2 kilogram) bombs or other weapons in three weapons bays. The B-1B was built with the capability to carry 24 B61 thermonuclear bombs, though, since 2007, the fleet no longer has this capability.
A Rockwell B-1B Lancer drops Mk. 82 bombs from its three weapons bays. (U.S. Air Force)
100 B-1B Lancers were built between 1983 and 1988. As of September 2021, 45 B-1B bombers remained the active Air Force inventory. The Air Force plans upgrades to the aircraft and to keep it in service until 2033.
To comply with the START weapons treaty, B-1B 82-0001 was scrapped at Ellsworth Air Force Base, South Dakota, in the mid-1990s.
A Rockwell International B-1B Lancer in flight. (U.S. Air Force)
