Daily Archives: December 8, 2023

John Herschel Glenn, Jr., Astronaut (18 July 1921–8 December 2016)

Aviation, , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,
John Herschel Glenn, Jr., NASA Project Mercury Astronaut. (Ralph Morse/LIFE Magazine)

John Glenn, one of the original seven astronauts selected by NASA for Project Mercury, was a personal hero of mine. As a young boy growing up in Southern California, less than three miles from Rocketdyne’s engine test stands in Santa Susana, I followed the progress of all the astronauts. I recall having a map pinned to my wall, showing the orbital path of Friendship 7 as Glenn made his historic three orbits of the Earth. All of the astronauts, and the X-15 test pilots at Edwards, were heroes to me, but for some reason, John Glenn was special.

John H. Glenn, Jr., Pilot. (John Glenn Archives, Ohio State University)

John Herschel Glenn, Jr., was born at Cambridge, Ohio, 18 July 1921, the first of four children of John Herschel Glenn, a plumber, and Clara Teresa Sproat Glenn. The Glenn family resided in New Concorde, Ohio. Glenn attended New Concord High School, graduating in 1939, and then enrolled at Muskingum College, also in New Concord, where he majored in engineering. While in college, he learned to fly.

Soon after the United States entered World War II, John Glenn enlisted in the United States Navy as a Naval Aviation Cadet, 28 March 1942. He transferred to the Marine Corps while still in flight training, and after qualifying as a Naval Aviator, was commissioned as a Second Lieutenant, U.S. Marine Corps Reserve, 16 March 1943.

On 6 April 1943, Lieutenant Glenn married Miss Anna Margaret Castor, also from New Concorde. They would have two children, Carolyn Ann Glenn and John David Glenn.

In October 1943, Glenn was promoted to First Lieutenant. Initially assigned as a transport pilot flying the Douglas R4D-1 Skytrain with Marine Utility Squadron 315 (VMJ-315) in the Pacific, he was transferred to Marine Fighter Squadron 155 (VMF-155). He flew 59 combat missions with the Chance Vought F4U Corsair in the Marshall Islands.

Lieutenant John H. Glenn, Jr., USMCR, flying a Chance Vought F4U-1 Corsair with VMF-155, 1943. (Smithsonian National Air and Space Museum/John Glenn Archives, The Ohio State University)

In 1945, Glenn was assigned to Marine Fighter Squadron 218 (VMF-218), again flying an F4U-4 Corsair, patrolling China with the 1st Marine Division. Lieutenant Glenn was promoted to the rank of Captain in July 1945.

In 1946, Captain Glenn, was transferred from the USMCR to the regular Marine Corps, retaining his temporary rank. On 7 August 1947, the rank of Captain was made permanent.

Captain Glenn served as an advanced flight instructor at NAS Corpus Christi, Texas, from June 1948 to December 1950. With the Korean War, Glenn was assigned to Marine Fighter Squadron 311 (VMF-311), which flew the Grumman F9F-2 Panther.

Captain John H. Glenn, Jr., USMCR, a fighter pilot of VMF-311, examines some of the 714 holes in his Grumman F9F-2 Panther. (U.S. Air Force)

Captain Glenn few 63 combat missions with VMF-311. He was promoted to the rank of Major, 28 June 1952. He served as an exchange officer with the U.S. Air Force, flying a North American Aviation F-86F Sabre with the 25th Fighter Interceptor Squadron, 51st Fighter Interceptor Wing at K-13, an air base at Suwon, Republic of Korea. In July 1953, Glenn shot down three enemy Mikoyan-Gurevich MiG 15 jet fighters.

Major John H. Glenn, Jr., United States Marine Corps, standing with his North American Aviation F-86-30-NA Sabre, 52-4584, “MiG Mad Marine,” at Suwon, Korea, July 1953. (John Glenn Archives, The Ohio State University)

Major Glenn trained at the U.S. Navy Test Pilot School at NATC Patuxent River, Maryland, in 1954, and from 1956 to 1959, was assigned to the Bureau of Aeronautics, Fighter Design Branch.

On 16 July 1957, Major Glenn flew a Chance Vought F8U-1P Crusader from NAS Los Alamitos, on the coast of southern California, to Floyd Bennet Field, Brooklyn, New York, in 3 hours, 23 minutes, 8.4 seconds, averaging 725.25 miles per hour (1,167.18 kilometers per hour). Thomas S. Gates, Jr., Secretary of the Navy, presented Major Glenn the Distinguished Flying Cross.

Major John H. Glenn, Jr., United States Marine Corps, with his Vought F8U-1P Crusader, Bu. No. 144608, after his record-setting flight, 16 July 1957. (U. S. Navy)

Major Glenn was promoted to the rank of Lieutenant Colonel, 1 April 1959. He was selected as an Astronaut with the National Aeronautics and Space Administration’s Project Mercury and joined the NASA Space Task group at the Langley Research Center. Lieutenant Colonel Glenn was the senior officer and the oldest member of “The Mercury 7.”

The Mercury 7. Front row, left to right, Walter H. Schirra, Donald K. Slayton, John H. Glen, Jr., and Scott Carpenter. Back row: Alan B. Shepard, Jr., Virgil I. Grissom, and L. Gordon Cooper. (NASA)

At 9:47:39 a.m., Eastern Standard Time (14:47:39 UTC), 20 February 1962, Mercury Atlas 6 lifted off from Launch Complex 14, Cape Canaveral Air Force Station, Cape Canaveral, Florida. This was the third launch of a manned Mercury spacecraft, and the first time that an Atlas rocket had been used.

Aboard the Mercury was John Glenn, making his first space flight. He had named the capsule Friendship 7. Alan Shepard and Gus Grissom had each made a suborbital flight, but Glenn was going into Earth orbit.

Each orbit took 88 minutes, 19 seconds. The spacecraft’s altitude ranged from 100 miles (161 kilometers) to 162.2 miles (261 kilometers).

During the 4 hour, 55 minute, 23 second flight, Friendship 7 orbited the Earth three times, and traveled 75,679 miles (121,794 kilometers). John Glenn was the first American astronaut to orbit the Earth. (Cosmonaut Yuri Gagarin had orbited the Earth 12 April 1961.)

After re-entry, the capsule parachuted into the Atlantic Ocean, splashing down only six miles from the recovery ship, USS Noa (DD-841).

Launch of Mercury-Atlas 6 from Launch Complex 14, Cape Canaveral Air Force Station, 14:47:39 UTC, 20 February 1962. (NASA)

When the Space Task Group was moved to the Manned Spacecraft Center at Houston, Texas, in 1962, John Glenn was involved in the layout and design of spacecraft cockpits and function of controls. On 16 January 1964, John Glenn resigned from NASA. He was promoted to the rank of Colonel in October 1964, then he retired from the Marine Corps 1 January 1965, after 23 years of military service.

Glenn worked in private industry for several years before beginning a career in politics. In 1974, he was elected to the United States Senate, representing his home State of Ohio. He served in the United States Congress from 24 December 1974 to 3 January 1999.

John Glenn wasn’t finished with spaceflight, though. From 29 October to 7 November 1998, Senator Glenn served as a NASA Payload Specialist aboard Space Shuttle Discovery (OV-103) during Mission STS-95. At the age of 77 years, John Glenn was the oldest person to fly in space.

During his two space flights, John Glenn orbited the Earth 137 times. His total time in space is 10 days, 49 minutes, 25 seconds (240:49:25).

In late November 2016, Glenn was admitted to Ohio State University Wexner Medical Center at Columbus, Ohio. He died there, 8 December 2016, at the age of 95 years.

John Herschel Glenn, Jr., Naval Aviator, Fighter Pilot, Test Pilot, Record-setter, Astronaut. Colonel, United States Marine Corps. United States Senator. American Hero.

Godspeed, John Glenn.

Senator John H. Glenn, Jr., NASA Payload Specialist, 1998. (NASA)

© 2016 Bryan R. Swopes

8 December 1962

Aviation, , , , , , , , , , , , , , , , , ,
Bell YOH-4 N73999 (U.S. Army serial number 62-4202. (U.S. Army)
Bell Model 206 N73999 (U.S. Army YOH-4-BF 62-4202) at the Bell Helicopter Company plant, Hurst, Texas. (Bell Helicopter Co.)
Bell YHO-4-BF. (U.S. Army)
Bell YHO-4. (Bell Helicopter Co.)

8 December 1962: At the Bell Helicopter Company plant at Hurst, Texas, the first Model D-250, N73999 (YHO-4-BF 62-4202) made its first flight.

The United States military had requested proposals from 25 aircraft manufacturers for a Light Observation Helicopter (LOH) to be powered by a gas turbine engine. Eventually, helicopters proposed by three companies were selected for flight testing. These were the Bell YHO-4, the Fairchild Hiller FH-1100, designated as YHO-5, and the Hughes Aircraft Company Model 369, designated YHO-6.

In 1962, U.S. military aircraft designations were standardized between services, and the three helicopters were redesignated YOH-4, YOH-5 and YOH-6. Bell Helicopter had also changed its internal company designation for their proposal from D-250 to Model 206. All three were powered by an Allison T63-A-5 turboshaft engine rated at 250 shaft horsepower (Allison 250-C18).

Bell 206 N73999 (YHO-4-BF-62-4202). (U.S. Army)
Bell 206 N73999 (YHO-4-BF 62-4202). Note the stabilizer bar. (U.S. Army)
A prototype Bell YOH-4 Light Observation Helicopter hovers in ground effect. The vertical fin has been changed from the original ventral configuration. (U.S. Army)

After the fly-off, the Hughes OH-6A Cayuse was selected for production. With the LOH classification, the OH-6 earned the nickname “Loach.”  Modern variants of the OH-6, now the AH-6 and MH-6 “Little Bird,” remain in service with United States special operations forces.

Bell Helicopter tried to market their Model 206 as a light civil aircraft, but its utilitarian appearance made it a hard sell. The helicopter was redesigned as the Model 206A and given the name JetRanger. This became one of the most successful aircraft ever built and it remained in production until 2011.

The first Bell 206A JetRanger, N8560F. (Bell Helicopter Co.)
The first Bell 206A JetRanger, N8560F. (Bell Helicopter Co.)

As the Vietnam War escalated, the need for helicopters increased. Hughes Aircraft had limited production capacity so the U.S. Army ordered a version of the redesigned Bell YOH-4 as the OH-58A Kiowa (Bell Model 206A-1). Though similar in appearance to the civil Bell 206A JetRanger, the OH-58A has significant differences and few parts are interchangeable between models. The Kiowa’s main rotor blades and tail boom are longer than the JetRanger’s. The rotor system turns at a slower r.p.m. Landing skids are mounted differently. The OH-58A has a lower maximum gross weight. There are internal differences as well, for example, the main transmission of the OH-58A has only three planetary gears while the 206B uses four, giving it a greater torque capacity.

The OH-58 Kiowa was continuously upgraded to the OH-58D Kiowa Warrior, with advanced targeting and communications capabilities. The D model uses a composite four-bladed “soft-in-plane” main rotor. Military variants of the civil Bell 206B-3 JetRanger III have been used as training helicopters for the U.S. Navy (TH-57 Sea Ranger) and U.S. Army (TH-67 Creek). The U.S. Army has now retired all of its OH-58s. The final flight of an OH-58D Kiowa Warrior took place in September 2017.

The first production Bell OH-58A-BF Kiowa, 68-16687. (U.S. Army)
The first production Bell OH-58A-BF Kiowa, 68-16687. (Bell Helicopter Co.)

The YOH-4A prototype is in storage at the U.S. Army Aviation Museum, Fort Rucker, Alabama. Because of an error is assigning serial numbers, this aircraft carries a manufacturer’s data plate with the military serial number 62-4201,¹ however, the correct serial number, 62-4202, is painted on the airframe exterior.

A flight of Bell OH-58D Kiowa Warriors scouting in a war zone. (U.S. Army)
A flight of Bell OH-58D Kiowa Warriors scouting in a war zone. (U.S. Army)

¹ Serial number 62-4201 had already been assigned to a Lockheed C-140B-LM JetStar.

© 2017, Bryan R. Swopes

8 December 1945

Aviation, , , , , , , , , , , , , , , ,
Floyd Carlson, chief Test Pilot for the Bell Aircraft Corporation, hovers the world's first civil-certified helicopter, NC1H, Serial Number One. (Niagara Aerospace Museum)
Floyd William Carlson, Chief Test Pilot, Bell Aircraft Corporation, hovers the world’s first civil-certified helicopter, NC1H, Serial Number One. (Niagara Aerospace Museum)

8 December 1945: At the Bell Aircraft Corporation Wheatfield Plant, Niagara Falls, New York, the first Model 47 helicopter, NX41962, was rolled out. Designed by Arthur M. Young, the Model 47 was based on Young’s earlier Model 30. The new helicopter made its first flight on the same day.

The Civil Aviation Administration (C.A.A.), predecessor of the Federal Aviation Administration, had never certified a helicopter, so Bell worked with government officials to develop civil certification standards. The Bell 47 received the C.A.A. Type Certificate H-1 on 8 March 1946 and the first helicopter’s registration was changed to NC1H.

Bell Model 47 NX41962, Serial Number 1, at Bell’s Wheatfield Plant, early 1946. (Niagara Aerospace Museum)

The Bell 47 series was constructed of a welded tubular steel airframe with a sheet metal cockpit and a characteristic plexiglas bubble. In the original configuration, it had a four-point wheeled landing gear, but this was soon replaced with a tubular skid arrangement. It was a two-place aircraft with dual flight controls.

The first Bell Model 47 had an overall length (with rotors turning) of 39 feet, 7½ inches (12.078 meters). The main rotor diameter was 33 feet, 7 inches (10.236 meters). The length of the fuselage, from the front of the plexiglass bubble canopy to the trailing edge of the tail rotor disc, was 29 feet, 3½ inches (8.928 meters). The tail rotor had a diameter of 5 feet, 5 inches (1.676 meters). The helicopter’s height, to the top of the main rotor mast, was 9 feet, 2-7/16 inches (2.805 meters).

NC1H had an empty weight of 1,393 pounds (632 kilograms). Its gross weight was 2,100 pounds (953 kilograms).

Bell Aircraft Corp. test pilot Floyd W. Carlson demonstrates the stability of the Model 47 by taking his hands off of the flight controls during a hover. (Bell Helicopter)

The Bell 47’s main rotor is a two-bladed, under-slung, semi-rigid assembly that would be a characteristic of helicopters built by Bell for decades. The blades were constructed of laminated wood, and covered with fabric. A stabilizer bar was placed below the hub and linked to the flight controls through hydraulic dampers. This made for a very stable aircraft. The main rotor turns counter-clockwise, as seen from above. (The advancing blade is on the right.) The tail rotor is positioned on the right side of the tail boom in a tractor configuration. It rotates counter-clockwise as seen from the helicopter’s left. (The advancing blade is above the axis of rotation.)

Power was supplied by an air-cooled, normally-aspirated, 333.991-cubic-inch-displacement (5.473 liter) Franklin Engine Company 6V4-178-B3 vertically-opposed six cylinder engine, serial number 17008, rated at 178 horsepower at 3,000 r.p.m. Power was sent through a centrifugal clutch to a transmission which turned the main rotor through a two-stage planetary gear reduction system with a ratio of 9:1. The transmission also drove the tail rotor drive shaft, and through a vee-belt/pulley system, a large fan to provide cooling air for the engine.

The new helicopter had a cruise speed of 75 miles per hour (121 kilometers per hour) and a maximum speed (VNE) of 80 miles per hour (129 kilometers per hour). NC1H had a service ceiling of 11,400 feet (3,475 meters).

The Bell 47 gained fame during the Korean War as a rescue helicopter, transferring wounded soldiers directly to Mobile Army Surgical Hospitals placed near the front lines. Here, a wounded soldier is offloaded from an H-13D-1 Sioux. (U.S. Army)
The Bell 47 gained fame during the Korean War as a rescue helicopter, transferring wounded soldiers directly to Mobile Army Surgical Hospitals placed near the front lines. Here, a wounded soldier is offloaded from an H-13D-1 Sioux. (U.S. Army)
The manufacturer's data plate for Bell Model 47, Serial Number 1. (Niagara Museum of Aeronautics)
The manufacturer’s data plate for Bell Model 47, Serial Number 1. (Niagara Museum of Aeronautics)

The Bell 47 was produced at the plant in New York, and later at Fort Worth, Texas. It was steadily improved and remained in production until 1974. In military service the Model 47 was designated H-13 Sioux, (Army and Air Force), HTL (Navy) and HUG (Coast Guard). The helicopter was also built under license by Agusta, Kawasaki and Westland. More than 7,000 were built worldwide and it is believed that about 10% of those remain in service.

In 2010, the type certificates for all Bell 47 models was transferred to Scott’s Helicopter Service, Le Sueur, Minnesota, which continues to manufacture parts and complete helicopters.

After certification testing and demonstrations, NC1H was one of two Bell 47s used for flight training. The first Bell 47, s/n 1, crashed at Niagara Falls Airport, 3 April 1946.

While hovering out of ground effect, a student inadvertently oversped the main rotor by decreasing collective pitch when he had intended to increase it. The main rotor hub separated and the helicopter dropped to the ground. Both the student and instructor were injured. Damage to NC1H was extensive and the helicopter was scrapped. The registration, NC1H, was reassigned to Bell 47 s/n 11.

Wreck of Bell Model 47 NC1H, s/n 1. (Niagara Aerospace Museum)

© 2018, Bryan R. Swopes

8 December 1945

Aviation, , , , , , , , , , , , , ,

The second prototype Douglas XB-42, 43-50225, In this photograph, the dual bubble canopies have been replaced with a single canopy to improve flight crew communication. (U.S. Air Force)
The second prototype Douglas XB-42, 43-50225, In this photograph, the dual bubble canopies have been replaced with a single canopy to improve flight crew communication. (U.S. Air Force)

8 December 1945: Lieutenant Colonel Henry E. Warden and Captain Glen W. Edwards, U.S. Army Air Corps, flew the second prototype Douglas XB-42, serial number 43-50225, from Long Beach, California to Washington, D.C., in 5 hours, 17 minutes, 34 seconds, averaging 433.6 miles per hour (697.8 kilometers per hour).

Douglas XB-42 43-50224, the first prototype. Note the dual canopy arrangement. (U.S. Air Force)

The XB-42 (originally designated as an attack aircraft, XA-42) was as unusual design. It used two engines inside the fuselage to drive contra-rotating three-bladed propellers in a pusher configuration at the tail. This created a very low-drag aircraft that was much faster than similar sized and powered aircraft.

Douglas XB-42 43-50225, the second prototype. (U.S. Air Force)
Douglas XB-42 43-50225, the second prototype. (U.S. Air Force)

A pilot and co-pilot sat side-by-side under separate bubble canopies. (This was later changed to improve communication between the crew.) The third crewman, a navigator/bombardier, occupied the nose. The co-pilot also served as a gunner and could operate four remotely-controlled .50-caliber machine guns located in two retractable power turrets inside the trailing edge of the wings. Another two .50-caliber machine guns were fixed, aimed forward. The bomber was designed to carry a 8,000 pound (3,629 kilogram) bomb load.

Douglas XB-42 43-50224 takes off from Palm Springs, California. (U.S. Air Force)

The XB-42 was powered several variants of the Allison Engineering Company E-series V-1710 engines, confiured as combined power assembles, and driving a remote propeller gear box through five Bell P-39 Airacobra driveshafts. The starboard engine turned counter-clockwise and drove the rear propeller. The port engine turned clockwise and drove the forward propeller. These engines were the V-1710-E23 (V-1710-103), V-1710-E24 (V -1710-125) and V-1710-E23B (V-1710-129). The V-1710 was a liquid-cooled, supercharged 1,710.60-cubic-inch-displacement (28.032 liter) single-overhead-camshaft (SOHC) 60° V-12 aircraft engine with four valves per cylinder. The engines used in the XB-42 had two-stage superchargers and turbosuperchargers.

Driveline of the Douglas XB-42. (Allison)

Douglas XB-42A 43-50224, low pass, circa 1947. Note the Westinghouse 19XB-2A turbojet engines in underwing pods. (U.S. Air Force)

The V-1710-129 was an experimental turbocompound engine, in which an exhaust-driven turbocharger is coupled to the drive shaft to provide a direct power input. It had a compression ratio of 6.65:1 and required 100/130 octane aviation gasoline. The V-1710-129 had a continuous power rating of 1,050 horsepower at 2,600 r.p.m., at Sea Level, and takeoff/military power rating of 1,675 horsepower at 3,200 r.p.m. (1,100 horsepower at 3,000 r.p.m. at 25,000 feet (7,620 meters) ). The engines turned three-bladed, counter-rotating, Curtiss Electric propellers through a 2.773:1 gear reduction. The forward propeller had a diameter of 13 feet, 2 inches (4.013 meters) and the rear diameter was 13 feet (3.962 meters). The difference was to prevent interference of the blade tip vortices.

Douglas XB-42 43-50224. (U.S. Air Force)
Douglas XB-42 43-50224. (U.S. Air Force)

The airplane was 53 feet, 8 inches long (16.358 meters), with a wingspan of 70 feet, 6 inches (21.488 meters). Empty weight was 20,888 pounds (9,475 kilograms), with a maximum gross weight of 35,702 pounds (16,194 kilograms). The prototype’s cruising speed was 310 miles per hour (499 kilometers per hour) and its maximum speed was 410 miles per hour (660 kilometers per hour) at 23,500 feet (7,163 meters). The service ceiling was 29,400 feet (8,961 meters). The XB-42’s normal range was 1,840 miles (2,961 kilometers).

Captain Glen W. Edwards, U.S. Air Force (1918–1948)
Captain Glen W. Edwards, U.S. Air Force (1918–1948)

Glen W. Edwards graduated from the University of California, Berkeley and soon after enlisted in the U.S. Army Air Corps. He was commissioned as a second lieutenant in February 1942 after completing flight training. Edwards flew 50 combat missions in the Douglas A-20 Havoc attack bomber during the North Africa and Sicily campaigns of World War II. He returned to the United States and was assigned to the Pilot Standardization Board, but was then sent to train as a test pilot at Wright Field. He tested the Northrop XB-35 flying wing and the Convair XB-46. He was recommended to fly the Bell X-1 rocket plane, but when that assignment went to Chuck Yeager, Edwards was sent to Princeton University, Princeton, New Jersey, to study aeronautical engineering.

Captain Edwards was killed along with four others while test flying the Northrop YB-49 “Flying Wing” in 1948. In 1949, Muroc Air Force Base, California, was renamed Edwards Air Force Base in his honor.

General Reuben C. Hood congratulates Captain Glen Edwards and Lieutenant Colonel Harold E. Warden after their record-setting transcontinental flight, 8 December 1945. ( © Bettman/CORBIS.)
(Left to right) Brigadier General Reuben C. Hood, Jr., congratulates Captain Glen W. Edwards and Lieutenant Colonel Harold E. Warden after their record-setting transcontinental flight, 8 December 1945. ( © Bettman/CORBIS.)

Colonel Henry E. (“Pete”) Warden (1915–2007) flew Curtiss P-40 Warhawks with the 20th Pursuit Squadron in the Philippine Islands at the beginning of World War II. He  was evacuated from Bataan to Australia, where he set up and ran the air logistics system for several years, before being sent to Wright Field.

After World War II, Warden was responsible for the development of the Convair B-36, Boeing B-47 and the Boeing B-52. He was called the “Father of the B-52.” After retiring from the Air Force, Colonel Warden went to work for North American Aviation on the B-70 Valkyrie program.

XB-42 43-50224 flew for the first time 1 August 1944. On 16 December 1945, it was on a routine flight from Bolling Field, Washington, D.C., with Lieutenant Colonel Fred J. Ascani in command, when a series of failures caused the crew to bail out. The XB-42 crashed at Oxon Hill, Maryland and was destroyed.

The second prototype, 43-50225, is in storage at the National Museum of the United States Air Force, Wright Patterson AFB, Ohio.

The first prototype XB-42, 43-50224, at Palm Springs, California, 1945. (U.S. Air Force)
The first prototype XB-42, 43-50224, at Palm Springs, California, 1945. (U.S. Air Force)

© 2016, Bryan R. Swopes