Tag Archives: Douglas Aircraft Company

22 July 1944

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22 July 1944: During an air attack on a Japanese seaplane base and barge landing at Kokas, Enga, Dutch New Guinea, a Douglas A-20G-25-DO Havoc light attack bomber, serial number 43-9432, was hit by anti-aircraft gunfire and crashed into the sea. The pilot, 1st Lieutenant James L. Knarr, on his 70th combat mission, and gunner Staff Sergeant Charles G. Reichley, on his 46th, were killed. The A-20, named Bevo, had been assigned to the 387th Bombardment Squadron, 312th Bombardment Group, based at the Hollandia Airfield Complex.

1. Bevo, a Douglas A-20G Havoc, at the upper right, has been hit by anti-aircraft gunfire and banks right. (U.S. Air Force)
1. Bevo, a Douglas A-20G Havoc, at the upper right, has been hit by anti-aircraft gunfire and banks right, trailing smoke from the open bomb bay. (U.S. Air Force, 53686 A.C.)
2. With the smoke increasing, the A-20 continues to roll right wing down and quickly loses altitude. (U.S. Air Force)
2. With the smoke increasing, the A-20 continues to roll right and quickly loses altitude. (U.S. Air Force, A-53686 A.C.)
3. The attack bomber hits the water and begins to disintegrate. (U.S. Air Force)
3. The attack bomber hits the water and begins to disintegrate. (U.S. Air Force, B-53686 A.C.)
4. Wreckage explodes across the surface of the water. (U.S. Air Force)
4. Wreckage explodes across the surface of Sekar Bay. (U.S. Air Force, C-53686 A.C.)

The Douglas A-20G Havoc was a twin-engine light bomber developed from an earlier export aircraft produced for France and Britain. (In British service, it was known as the Boston. 7,348 A-20s were built at Douglas Aircraft Company plants in Long Beach, El Segundo and Santa Monica, California, from 1939 to 1945. All 2,850 of the A-20G variant were built at Santa Monica from 1943 to 1945.

The A-20G was 48 feet (14.630 meters) long with a wingspan of 61 feet, 4 inches (18.694 meters) and overall height of 17 feet, 7 inches (5.359 meters). It had an empty weight of 17,200 pounds (7,802 kilograms) and maximum takeoff weight of 30,000 pounds (13,608 kilograms).

The A-20G was powered by two air-cooled, supercharged, 2,603.7-cubic-inch-displacement (42.688 liters) Wright Aeronautical Corporation GR2600A5B-0 Cyclone 14 (R-2600-23) two-row, fourteen-cylinder radial engines, each rated at 1,350 horsepower at 2,300 r.p.m., and 1,600 horsepower 2,400 r.p.m., for takeoff. The engines (also commonly called the “Twin Cyclone”) turned three-bladed Hamilton Standard Hydromatic constant-speed propellers with a diameter of 12 feet, 7 inches (3.835 meters) through a 0.5625:1 gear reduction. The R-2600-23 was 4 feet, 10.32 inches (1.481 meters) long, 4 feet, 7.1 inches (1.400 meters) in diameter, and weighed 2,056 pounds (933 kilograms).

The A-20G had a cruise speed of 230 miles per hour (370 kilometers per hour) and maximum speed of 339 miles per hour (546 kilometers per hour) at 12,400 feet (3,780 meters). The service ceiling was 25,800 feet (7,864 meters). Range with a 2,000 pound (907 kilogram) bomb load was 1,025 miles (1,650 kilometers).

The A-20G Havoc was armed with six forward-firing .50-caliber Browning machine guns with 350 rounds of ammunition per gun, a power turret with another two .50-caliber guns and 400 rounds per gun, and a ninth .50 mounted in a ventral tunnel with 400 rounds. The bomber could carry 2,000 pounds (907 kilograms) of bombs in the internal bomb bay and a 500 pounder (227 kilograms) on a hardpoint under each wing.

This Douglas A-20G-45-DO Havoc, 43-22200, at the National Museum of teh United States Air Force, is marked as A-20G-40-DO 43-21475 of the 389th Bombardment Squadron, 312th Bombardment Group. (U.S. Air Force)
This Douglas A-20G-45-DO Havoc, 43-22200, at the National Museum of the United States Air Force, is marked as A-20G-40-DO 43-21475 of the 389th Bombardment Squadron, 312th Bombardment Group. (U.S. Air Force)

© 2016, Bryan R. Swopes

10 July 1962

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Telstar 1 launches aboard a Thor Delta rocket at Launch Complex 17B, 0835 GMT, 10 July 1962. (NASA)
Telstar 1 launches aboard a Delta rocket at Launch Complex 17B, 0835 GMT, 10 July 1962. (NASA)

10 July 1962: At 0835 GMT (4:35 a.m., EDT) the first communications relay satellite, Telstar 1, was launched into Earth orbit from Launch Complex 17B, Cape Canaveral Air Force Station, Florida. The launch vehicle was a three-stage liquid-fueled Delta rocket.

This was the first commercial space flight, sponsored by a consortium of communications companies and government organizations, including AT&T, Bell Labs, the BBC, NASA, and British and French postal services. The satellite was used to relay live television broadcasts across the Atlantic Ocean. This had never previously been possible.

Telstar weighed 171 pounds (77.5 kilograms). Its weight and size were restricted by the availability of launch vehicles. The satellite was placed in an elliptical orbit, varying from 591 miles (952 kilometers) to 3,686 miles (5,933 kilometers), and inclined at about a 45° angle to Earth’s Equator. The orbital period was 2 hours, 37 minutes. The properties of Telstar’s orbit restricted its use to about 20 minutes during each pass.

In addition to its primary role as a communications relay satellite, Telstar also performed scientific experiments to study the Van Allen Belt.

The Delta was a three-stage expendable launch vehicle which was developed from the Douglas Aircraft Company’s SM-75 Thor intermediate-range ballistic missile.

Designated Thor DM-19, the first stage was 60.43 feet (18.42 meters) long and 8 feet (2.44 meters) in diameter. Fully fueled, the first stage had a gross weight of 108,770 pounds (49,337 kilograms). It was powered by a Rocketdyne LR-79-7 engine which burned liquid oxygen and RP-1 (a highly-refined kerosene rocket fuel) and produced 170,565 pounds of thrust (758.711 kilonewtons). This stage had a burn time of 2 minutes, 45 seconds.

The second stage was an Aerojet General Corporation-built Delta 104. It was 19 feet, 3 inches (5.88 meters) long with a maximum diameter of 4 feet, 6 inches (1.40 meters). The second stage had a gross weight of 9,859 pounds (4,472 kilograms). It used an Aerojet AJ10-104 rocket engine which burned a hypergolic  mixture of nitric acid and UDMH. The second stage produced 7,890 pounds of thrust (35.096 kilonewtons) and burned for 4 minutes, 38 seconds.

The third stage was an Allegany Ballistics Laboratory Altair 1. It was 6 feet long, 1 foot, 6 inches in diameter and had a gross weight of 524 pounds (238 kilograms). This stage used a solid-fuel Thiokol X-248 rocket engine, producing 2,799 pounds of thrust (12.451 kilonewtons). Its burn time was 4 minutes, 16 seconds.

The three stages of the Delta rocket accelerated the Telstar satellite to 14,688 miles per hour for orbital insertion.

The day prior to launch, the United States detonated a 1.45 megaton thermonuclear warhead at an altitude of 248 miles (400 kilometers), near Johnston Island in the Pacific Ocean. (Operation Dominic-Fishbowl Starfish Prime). Between 21 October 1961 and 1 November 1962, the Soviet Union detonated five nuclear warheads in space (Project K), at altitudes ranging from 59 to 300 kilometers (37–186 miles) over a test range in Khazakhstan. High energy electrons from these tests were trapped in the Earth’s radiation belts. This damaged the satellite’s circuitry and it went out of service in December 1962. ¹

Engineers were able to work around the damage and restore service by January 1963, but Telstar 1 failed permanently 21 February 1963.

Telstar is still in Earth orbit.

Telstar 1 communications relay satellite. (Bell Laboratories)

¹ Thanks to regular TDiA reader Steve Johnson for this information.

© 2019, Bryan R. Swopes

10 July 1942

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Douglas XA-26 first flight, 10 July 1942. (Boeing Historical Archives/Wikipedia)

10 July 1942: At the Douglas Aircraft Company El Segundo Division, located at the southeast section of Los Angeles Municipal Airport (now, LAX), company engineering test pilot Benjamin Odell Howard took the prototype Douglas XA-26-DE light bomber, serial number 41-19504,¹ for its first flight.

Douglas XA-26 prototype in flight. (Douglas Aircraft Company/SDASM)

The XA-26 was twin-engine mid-wing monoplane with retractable tricycle landing gear. Douglas had proposed the design to the U.S. Army Air Corps as a replacement for three different airplanes: The Douglas A-20, the North American Aviation B-25 Mitchell, and the Martin B-26 Marauder. It was to be operated by a pilot, navigator/bombardier and a gunner.

Douglas XA-26.

The prototype was 51 feet, 2 inches (15.596 meters) long, with a wingspan of 70 feet, 0 inches (21.336 meters) and overall height of 18 feet, 6 inches (5.639 meters). Its empty weight was 21,150 pounds. It was powered by two air-cooled, supercharged, Pratt & Whitney R-2800–27 (Double Wasp 2SB-G), with a normal power rating of 1,600 horsepower at 2,400 r.p.m. to 5,700 feet (1,737 meters) and 1,450 horsepower to 13,000 feet (3,962 meters); and 2,000 horsepower at 2,700 r.p.m., for military and takeoff power. The engines drove three-bladed propellers through a 2:1 gear reduction. The R-2800-27 was 6 feet, 3.72 inches (1.923 meters) long, 4 feet, 4.50 inches (1.334 meters) in diameter and weighed 2,300 pounds (1,043 kilograms).

Douglas XA-26 (Douglas Aircraft Company/SDASM)

The XA-26’s maximum speed was 322 knots (370 miles per hour/595 kilometers per hour) at 17,000 feet (5,182meters) and it had a service ceiling of 31,300 feet (9,540 meters).

Douglas XA-26 light bomber prototype, 42-19504. (Douglas Aircraft Company)

A second prototype, designated XA-26A was developed as an night fighter. It carried air-intercept radar in the nose and armament in a pod under the fuselage. The third prototype, the XA-26B, was a ground attack aircraft. Like the XA-26A, it had a solid nose, but was armed with a fixed 75-millimeter cannon in the nose, and forward-firing Browning .50-caliber machine guns. When ordered into production, the XA-26 became the A-26C Invader, while the ground attack design was assigned A-26B.

Douglas XA-26A night fighter prototype, 42-19505, photographed 6 July 1943. Note the weapons pod beneath the fuselage. (Douglas Aircraft Company/SDASM)
Douglas XA-26B ground attack prototype, 42-19588, photographed 14 May 1943. (Douglas Aircraft Company E.S. 31578/Boeing Historical Archives)
Douglas XA-26 42-19504, photographed 29 April 1943. (Douglas Aircraft Company/SDASM)

Benjamin Odell Howard was born 4 February 1904 at Palestine, Texas. He was the third of four children of Sam T. Howard, a real estate agent, and Fanie Howard.

Ben O. Howard, 1924 (The Savitar)

Ben Howard graduated from the University of Missouri at Columbia in 1924 with a degree in engineering. While there he was a member of the Kappa Sigma (ΚΣ) fraternity and the Reserve Officers Club.

On 10 Dec 1932, Howard married Miss Olive Maxine Schoen at Independence, Missouri.

In 1933, they lived in Kansas City, Missouri. He was employed as a pilot for United Air Lines Inc.

In 1935, Ben Howard won the Bendix Trophy Race flying Mister Mulligan, a Howard DGA-6. His time was 8 hours, 33 minutes, 16.3 seconds, for an average speed of 238.70 miles per hour.

Mister Mulligan, the Howard DGC-6, NR273Y. (SDASM)

On his 1940 Selective Service (conscription, or draft) card, Howard was described as having a dark complexion, black hair and brown eyes. He was 5 feet, 11 inches (180 centimeters) tall, and weighed 165 pounds (75 kilograms).

After a lengthy illness, Benjamin Odell Howard died at his home in Brentwood, California, 4 December 1970.

¹ Every source checked by TDiA identifies the prototype XA-26 as “41-19504.” Photographs of the XA-26, XA-26A and XA-26B clearly show the 1942 serial numbers 219504, 219505 and 219588 (42-19504, 42-19505 and 42-19588).

© 2019, Bryan R. Swopes

9 July 1962, 09:00:09 UTC, T + 13:41

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Fireball of Operation Dominic-Fishbowl Starfish Prime, 248 miles (399.1 kilometers) above the Pacific Ocean, 9 July 1962. (U.S. Department of Defense)

9 July 1962: At 09:00:09 UTC, the United States detonated a thermonuclear warhead over the Pacific Ocean. This was part of the Operation Dominic-Fishbowl test series at Johnston Island, and was designated Starfish Prime.

A Thor missile is launched from Johnston Island. Note the instrumentation pods at the base of the rocket. (Johnston Memories)

At 08:46:28 UTC, a Douglas Thor DSV2E orbital launch vehicle, serial number 195,  was launched from missile complex LE-1 on Johnston Island, carrying a W-49 warhead in an AVCO Corporation Mk-2 reentry vehicle. The rocket also carried three instrumentation pods which were jettisoned at pre-selected altitudes. The W-49 reached a peak altitude of 600 miles (965 kilometers) along a ballistic trajectory, and then began to descend.

Starfish Prime fireball was visible from Honolulu, Oahu, Hawaii, 898 miles (1,445.2 kilometers) from Ground Zero. “Widespread red air glow (6300 å) amid dark clouds, caused mostly by x-ray-excited atomic oxygen (i.e., oxygen by photoelectrons liberated by Starfish X-rays)” (Commission to Assess Threat to the United States from Electromagnetic Pulse (EMP) Attack, 2004, at Page 5)
Starfish Prime (atomicarchive.com)

The W-49 detonated 36 kilometers (22 miles) southwest of Johnston Island at an altitude of 400 kilometers (246 miles) with an explosive yield of 1.45 megatons. The point of detonation deviated from the planned Air Zero by 1,890 feet (576 meters) to the north, 2,190 feet (668 meters) east, and +617 feet (188 meters) in altitude. The fireball was clearly visible in the Hawaiian Islands, more than 800 miles (1,288 kilometers) away.

The electromagnetic pulse (EMP) damaged electrical systems in The Islands, cutting power, damaging equipment and interrupting telephone systems. Brilliant auroras were visible, lasting about 7 minutes.

Telstar, an American communications satellite that was placed in Earth orbit the following day, was also damaged by residual radiation from the detonation.

The Starfish Prime experiment was for the purpose of “Evaluation of missile kill mechanisms produced by a high altitude nuclear detonation.” The electromagnetic effects on communications were also studied.

A Douglas SM-75/PGM-17A Thor IRBM. (U.S. Air Force)
A Douglas SM-75 Thor IRBM (DM-18A) is launched at Launch Complex 17B, Cape Canaveral Air Force Station, Florida, 12 May 1959. (U.S. Air Force)

The Thor DSV2E was an orbital launch variant of the Douglas Aircraft Company SM-75 Thor IRBM. This was a single-stage nuclear-armed intermediate-range ballistic missile, 61 feet, 3.91 (19.692 meters) long and 8 feet, 0.00 inches (2.438 meters) in diameter. With the Mk-2 reentry vehicle, the overall length of the missile was 63 feet, 7.38 inches (19.390 meters). It weighed 109,800 pounds (49,805 kilograms) at liftoff and 6,889 pounds (3,124 kilograms) at burnout.

The SM-75 was powered by one Rocketdyne LR79-NA-9 rocket engine which produced 150,000 pounds of thrust (667.23 kilonewtons). Two Rocketdyne LR101-NA-9 vernier engines of 1,000 pounds thrust (4.45 kN), each, provided directional control and thrust adjustments. The Thor was fueled with kerosene and liquid oxygen sufficient for 156 seconds of main engine burn time.

The Thor could reach a maximum speed of 11,020 miles per hour (17,735 kilometers per hour) and had a maximum range of 1,500 miles (2,414 kilometers).

The W-49 thermonuclear warhead was designed by the Los Alamos Scientific Laboratory (LASL) and is believed to be a development of the earlier B-28 two-stage radiation-implosion bomb. It incorporated a 10-kiloton W-34 warhead as a gas-boosted fission primary, and had a one-point-safe safety system. The warhead had a diameter of 1 foot, 8 inches (0.508 meters) and length of  4 feet, 6.3 inches (1.379 meters). It weighed 1,665 pounds (755 kilograms).

The flash from the Starfish-Prime detonation, photographed from Maui in the Hawaiian Islands 15 seconds after detonation. (Los Alamos National Laboratory)
The flash from the Starfish-Prime detonation, photographed from Maui in the Hawaiian Islands, 15 seconds after detonation. (Los Alamos National Laboratory)

© 2020, Bryan R. Swopes

1 July 1933

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The prototype Douglas DC-1, X223Y, takes off from Clover Field, Santa Monica, California, 1 July 1933. (Airport Journals)

1 July 1933: 12:36 p.m., the Douglas DC-1 took off from Clover Field, Santa Monica, California, on its first flight. In the cockpit were Carl Anson Cover and Fred Herman.

Douglas DC1 X223Y. (SDA&SM)

The duration of the flight was just twelve12 minutes. during the flight both engines lost power several times. It was later determined that the engines’ carburetors had been installed backwards. This caused their floats to close when the airplane was in a climb.

Douglas DC-1 X223Y (San Diego Air & Space Museum, Michael Blaine Collection, Catalog #: Blaine_00263

The Douglas DC-1 was a prototype commercial transport, built by the Douglas Aircraft Company, Santa Monica, California. It was a twin-engine, all-metal, low-wing monoplane with conventional landing gear. It had a flight crew of two pilots, and provisions for 12 passengers.

Douglas DC-1 NC223Y. (American Aviation Historical Society, via Smithsonian Magazine)

The new airplane had been requested by Transcontinental and Western Air, Inc. It would be required to take off on a single engine from Winslow, Arizona—at 4,941 feet (1,506 meters) above Sea Level, the highest airfield in the T.W.A. route—and to climb to an altitude of 10,000 feet (3,048 meters), again on only one engine. It was required to carry more passengers than the Boeing Model 247, and to have a landing speed of 55 miles per hour (89 kilometers per hour).

The Douglas DC-1, X223Y, in flight. (Larry Westin)

The DC-1 was 60 feet, 0 inches (11.288 meters) long, with a wing span of 85 feet, 0 inches (25.908 meters), and height of 16 feet, 0 inches (4.877 meters). Its empty weight was 11,780 pounds (5,343 kilograms), and gross weight, 17,500 pounds (7,938 kilograms).

The DC-1 was powered by two supercharged, air-cooled, Wright Cyclone SGR-1820-F3 nine-cylinder radial engines, These engines had a compression ratio of 6.4:1 and required 87-octane gasoline. They were rated at 700 horsepower at 1,950 r.p.m. They turned three-bladed variable-pitch propellers throug a 16:11 gear reduction. The -F3 was 3 feet, 11-3/16 inches (1.199 meters) long, 4 feet, 5¾ inches (1.365 meters) in diameter, and weighed 1,047 pounds (475 kilograms).

Douglas DC-1 X223Y at Grand Central Air Terminal, Glendale, California.

The DC-1 had a cruise speed of 190 miles per hour (306 kilometers per hour) and maximum speed of 210 miles per hour (338 kilometers per hour). Its range was 1,000 miles (1,609 kilometers), and the service ceiling was 23,000 feet (7,010 meters).

Only one DC-1 was built. It was rolled out of its hangar 22 June 1933. Registered X223Y, it made its first flight, 1 July 1933, at Clover Field, Santa Monica, California, with test pilots Carl Cover and Fred Herman in the cockpit.

NC223Y was retired from passenger service in 1936. T.W.A. loaned it to the U.S. government for  high altitude research. In May 1938 NC223Y was sold to The Right Honourable Vicount Forbes at Croydon, 27 May 1938, and registered G-AFIF, 25 June 1938. It was re-sold to France, in September 1938. The DC-1 was again sold, this time to Spanish Republican government, and operated by Lineas Aéreas Postales Espanolas, also known as LAPE. The airplane made a forced landing at Malaga, Spain, in December 1940. It was damaged beyond repair.

Wreck of the Douglas DC-1, Malaga, Spain. (Weird Wings)
A model of the Douglas DC-1 being tested in the Guggenheim Aeronautics Laboratory (GALCIT) 10-foot wind tunnel at the California Institute of Technology (CalTech) in Pasadena, California. (California Institute of Technology)

© 2023 Bryan R. Swopes