Medal of Honor, 1st Lieutenant Raymond Larry Knight, United States Army Air Corps

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First Lieutenant Raymond L. Knight, United States Army Air Corps, (U.S. Air Force)
Aviation Cadet Raymond L. Knight, United States Army Air Corps. (U.S. Air Force)

MEDAL OF HONOR

RAYMOND L. KNIGHT

Rank and organization: First Lieutenant, U.S. Army Air Corps.

Place and date: In Northern Po Valley, Italy, 24-25 April 1945.

Entered service at: Houston, Texas. Born: Texas.

G.O. No.: 81, 24 September 1945.

Medal of Honor
Medal of Honor

Citation: First Lieutenant Raymond L. Knight on 24 and 25 April 1945 in the northern Po Valley, Italy, piloted a fighter-bomber aircraft in a series of low-level strafing missions, destroying 14 grounded enemy aircraft and leading attacks which wrecked 10 others during a critical period of the Allied drive in northern Italy. On the morning of 24 April, he volunteered to lead two other aircraft against the strongly defended enemy airdrome at Ghedi. Ordering his fellow pilots to remain aloft, he skimmed the ground through a deadly curtain of antiaircraft fire to reconnoiter the field, locating eight German aircraft hidden beneath heavy camouflage. He rejoined his flight, briefed them by radio, and then led them with consummate skill through the hail of enemy fire in a low-level attack, destroying five aircraft, while his flight accounted for two others. Returning to his base, he volunteered to lead three other aircraft in reconnaissance of Bergamo Airfield, an enemy base near Ghedi and one known to be equally well defended. Again ordering his flight to remain out of range of antiaircraft fire, Lieutenant Knight flew through an exceptionally intense barrage, which heavily damaged his Thunderbolt, to observe the field at minimum altitude. He discovered a squadron of enemy aircraft under heavy camouflage and led his flight to the assault. Returning alone after this strafing, he made 10 deliberate passes against the field despite being hit twice more by antiaircraft fire, destroying six fully loaded enemy twin-engine aircraft and two fighters. His skillfully led attack enabled his flight to destroy four other twin-engine aircraft and a fighter airplane. He then returned to his base in his seriously damaged airplane. Early the next morning, when he again attacked Bergamo, he sighted an enemy plane on the runway. Again he led three other American pilots in a blistering low-level sweep through vicious antiaircraft fire that damaged his airplane so severely that it was virtually nonflyable. Three of the few remaining enemy twin-engine aircraft at that base were destroyed. Realizing the critical need for aircraft in his unit, he declined to parachute to safety over friendly territory and unhesitatingly attempted to return his shattered airplane to his home field. With great skill and strength, he flew homeward until caught by treacherous air conditions in the Apennine Mountains, where he crashed and was killed. The gallant action of Lieutenant Knight eliminated the German aircraft which were poised to wreak havoc on Allied forces pressing to establish the first firm bridgehead across the Po River. His fearless daring and voluntary self-sacrifice averted possible heavy casualties among ground forces and the resultant slowing of the drive which culminated in the collapse of German resistance in Italy.

1st Lieutenant Raymond L. Knight with a battle-damaged Republic P-47D Thunderbolt fighter bomber. (U.S. Air Force)
1st Lieutenant Raymond L. Knight with a battle-damaged Republic P-47D Thunderbolt fighter bomber. (U.S. Air Force)

Raymond Larry Knight was born 15 June 1922 in Houston, Texas. He was the third child of John Franklin Knight, a clerk, and Sarah Francis Kelly Knight. He attended John H. Reagan Senior High School in Houston, graduating in 1940.

Knight married Miss Johnnie Lee Kinchloe, also a 1940 graduate of Reagan High School, 5 June 1942. They had one son, Raymond Jr.

Knight enlisted as an aviation cadet in the United States Army Air Corps, 10 Oct 1942, and trained as a fighter pilot at various airfields in Texas. He graduated from flight school and was commissioned as a second lieutenant, May 1944. After advanced training, Knight was assigned to the 346th Fighter Squadron, 350th Fighter Group, 12th Air Force, at Tarquinia Airfield, Italy, in November 1944. He was promoted to first lieutenant in March 1945.

Lieutenant Knight flew 82 combat missions. He is credited with 14 enemy aircraft destroyed.

The Medal of Honor was presented to Mrs. Knight by Major General James Pratt Hodges at a ceremony at John H. Reagan Senior High School, 23 October 1945.

In addition to the Medal of Honor, Lieutenant Knight was also awarded the Distinguished Flying Cross, and the Air Medal with five oak leaf clusters (six awards).

The remains of 1st Lieutenant Raymond Larry Knight, United States Army Air Corps, are interred at the Houston National Cemetery, Houston, Texas.

1st Lieutenant Raymond L. Knight and crew chief Sergeant Marvin Childers, with Republic P-47D-27-RE Thunderbolt 42-26785. This is the fighter bomber that he flew on the final mission. (U.S. Air Force)
1st Lieutenant Raymond L. Knight (at right) and crew chief Sergeant Marvin Childers, with Republic P-47D-27-RE Thunderbolt 42-26785, marked 6D5. This is the fighter bomber that he flew on the final mission. It was named “OH JOHNNIE” after his wife. (U.S. Air Force)

The Republic P-47 Thunderbolt was the largest single-engine fighter that had yet been built. The first P-47D variant was very similar to the preceding P-47C. The Thunderbolt which Raymond Knight flew on his final mission was a P-47D-27-RE, serial number 42-26785. He had named it OH JOHNNIE after his wife. The Thunderbolt’s bubble canopy had been introduced with the Block 25 series, and Block 27 added a dorsal fillet to improve longitudinal stability which had been diminished with the new aft fuselage configuration.

The P-47D-27-RE was 36 feet, 1¾ inches (11.017 meters) long with a wingspan of 40 feet, 9-3/8 inches (12.430 meters) The overall height was 14 feet, 7 inches (4.445 meters). The fighter’s empty weight was 10,700 pounds (4,853 kilograms) and maximum gross weight was 17,500 pounds (7,938 kilograms).

The P-47D-27-RE was powered by an air-cooled, supercharged and turbocharged 2,804.4-cubic-inch-displacement (45.956 liter) Pratt & Whitney Double Wasp TSB1-G (R-2800-59) two-row, 18-cylinder radial engine with a compression ratio of 6.65:1. The R-2800-59 had a Normal Power rating of 1,625 horsepower at 2,550 r.p.m. to 25,000 feet (7,620 meters) and a Takeoff/Military Power rating of  2,000 horsepower at 2,700 r.p.m. to an altitude of 25,000 feet (7,620 meters).¹ A large General Electric turbosupercharger was mounted in the rear of the fuselage. Internal ducts carried exhaust gases from the engine to drive the turbocharger. This supercharged air was then carried forward through an intercooler and then on to the carburetor to supply the engine. The engine’s mechanical supercharger further pressurized the air-fuel charge. The engine drove a 13 foot, 0 inch (3.962 meter) diameter four-bladed Curtiss Electric or Hamilton Standard Hydromatic propeller through a 2:1 gear reduction. The R-2800-59 was 6 feet, 3.72 inches (1.923 meters) long, 4 feet, 4.50 inches (1.340 meters) in diameter, and weighed 2,290 pounds (1,039 kilograms).

A flight of three Republic P-47 Thunderbolt fighters. (U.S. Air Force)

The P-47D had a maximum speed in level flight of 444 miles per hour (715 kilometers per hour) at 23,200 feet (7,071 meters) with 70 inches Hg manifold pressure (2.37 Bar), using water injection. The service ceiling was 40,000 feet (12,192 meters). It had a maximum range of 950 miles (1,529 kilometers) with internal fuel, and 1,800 miles (2,897 kilometers) with external tanks.

The Thunderbolt was armed with eight Browning AN-M2 .50-caliber machine guns, four in each wing, with 3,400 rounds of ammunition. It could also carry external fuel tanks, rockets and bombs. The structure of the P-47 could be described as “robust” and it was heavily armored. The amount of damage that the airplane could absorb and still return was remarkable.

A total of 15,683 Thunderbolts were built; more than any other Allied fighter type. In aerial combat, it had a kill-to-loss ratio of 4.6:1. The P-47, though, really made its name as a ground attack fighter, destroying aircraft, locomotives, rail cars, and tanks by the many thousands. It was one of the most successful aircraft of World War II.

¹  A rebuilt R-2800-63 was run at War Emergency Power (2,600 horsepower at 2,700 r.p.m.) for 7½ hours on a test stand, and was in running condition when the test was completed.

© 2018, Bryan R. Swopes

21–25 April 1944

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First Lieutenant Carter Harman, United States Army Air Corps. (U.S. Army)
Second Lieutenant Carter Harman, United States Army Air Corps. (U.S. Army)

21 April 1944: The first military helicopter combat rescue began with Lieutenant Carter Harman, 1st Air Commando Group, being ordered to proceed from Lalaghat, India with his Vought-Sikorsky YR-4B, 43-28247, 600 miles (965 kilometers) to Taro in northern Burma.

Technical Sergeant Ed “Murphy” Hladovcak, pilot of a Stinson L-1A Vigilant liaison airplane, had crashed in the jungle behind Japanese lines while transporting three wounded British soldiers. Lieutenant Harman was assigned to attempt to rescue the four men. It would be a marathon operation.

The first Stinson O-49 liaison airplane, 40-192. The type was redesignated L-1A Vigilant in April 1942. (U.S. Air Force)
The first Stinson O-49 liaison airplane, 40-192. The type was redesignated L-1A Vigilant in April 1942. The L-1A was expensive to manufacture, but had excellent short field performance. (U.S. Air Force)

It took Harman and his Sikorsky 24 hours to arrive at Taro. After a brief rest and dip in the river to cool off, he continued for another 125 miles (202 kilometers) to an airstrip in the jungle called “Aberdeen” which was well behind the enemy lines. It was from here that Sgt. Hladovcak had been operating, flying out wounded soldiers. From Aberdeen, Harman was led to the location of the downed men by another liaison airplane. The survivors were surrounded by Japanese soldiers who had found the crashed airplane and were trying to locate the four men.

Lt. Carter Harman hovering in ground effect with Sikorsky YR-4B Hoverfly 43-28247 at Lalaghat, India, March 1944. This is the helicopter with which he made the first combat rescue, 21–25 April 1944. (U.S. Air Force)
Lt. Carter Harman hovering in ground effect with Sikorsky YR-4B 43-28247 at Lalaghat, India, March 1944. This is the helicopter with which he made the first combat rescue, 21–25 April 1944. (U.S. Air Force)

Because of the high heat, elevation and humidity, which increased the density altitude, the YR-4B’s air-cooled engine was unable to produce its full rated power. Also, the helicopter’s rotor blades were not as effective as they would have beeen at lower density altitudes.

Harman planned to lift one of the survivors out of the clearing in the jungle and fly a short distance to a sand bank where other L-1 or L-5 liaison airplanes could pick them up and fly them back to Aberdeen. He would repeat the operation until all four men had been rescued. However, it took the rest of the day to airlift just the first two wounded and very sick soldiers.

Distinguished Flying Cross

On the second flight, the helicopter’s engine was overheating and on landing it seized and could not be restarted. Sergeant Hladovcak and the remaining soldier were still in the jungle, Lieutenant Harman was stuck by the river bank and Japanese soldiers were everywhere.

On the morning of 25 April Lieutenant Harman was able to get the helicopter’s engine to start, and again, one at a time, he rescued the two remaining survivors. A liaison plane flew out the wounded soldier while Hladovcak rode along with Harman back to Aberdeen. He had never seen a helicopter before.

For his actions, Lieutenant Carter Harman was awarded the Distinguished Flying Cross.

Sikorsky YR-4B 43-28247 was condemned 31 December 1944.

Lieutenant Carter Harman (standing, left), 1st Air Commando Group, with Sikorsky YR-4B-8-SI 43-28223, Burma, 26 April 1944. (U.S. Air Force)
Lieutenant Carter Harman, 1st Air Commando Group, (standing, left) with Sikorsky YR-4B 43-28223, Burma, 26 April 1944. The other officer standing next to Harman is Lieutenant Frank Peterson. Harman’s crew chief, Sergeant Jim Phelan, is kneeling at right. (U.S. Air Force)

The Sikorsky YR-4B was a two-place, single-engine helicopter with a single main rotor and an anti-torque tail rotor. The fuselage was 35 feet, 8.375 inches (10.881 meters) long with a main rotor diameter of 38 feet, 0 inches (11.582 meters). The tail rotor was 8 feet, 2.25 inches (2.496 meters) in diameter. Its overall length, with rotors turning, was 48 feet, 3.375 inches (4.716 meters). The helicopter had an overall height of 12 feet, 5 inches (3.785 meters). The empty weight was 2,020 pounds (916 kilograms) and maximum takeoff weight of 2,540 pounds (1,152 kilograms). The helicopter’s fuel capacity was 30 gallons (113.6 liters)

The main rotor consisted of three tapered, fully-articulated blades built of chrome-molybdenum steel spars and spruce plywood ribs, with laminated spruce, balsa and mahogany forming the leading edge and a flexible cable forming the trailing edge. The blades were covered with two layers of doped fabric. The three-bladed semi-articulated tail rotor was built with a spruce spar and alternating laminations of maple and mahogany, covered with fabric. Both the main and tail rotors had a thin brass abrasion strip covering the leading edges. The main rotor turned counter-clockwise, as seen from above. (The advancing blade is on the helicopter’s right.) The tail rotor was mounted on the helicopter’s right side in a tractor configuration. It turned clockwise as seen from the helicopter’s left. (The advancing blade is below the axis of rotation.)

Lieutenant Carter Harmon in the cockpit of Sikorsky YR-4B 43-28223, Burma, 1945.

The YR-4B was powered by an air-cooled, direct-drive 555.298-cubic-inch-displacement (9.100 liter) Warner Super Scarab SS185 (R-550-3) seven-cylinder radial engine with a compression ratio of 6.20:1. The R-550-3 was rated at 185 horsepower at 2,175 r.p.m. at Sea Level, and 200 horsepower at 2,475 r.p.m (five minute limit) for takeoff. The engine was placed backwards in the aircraft with the propeller shaft driving a short driveshaft through a clutch to a 90° gear box and the transmission. The R-550-3 weighed 344 pounds (156 kilograms).

The R-4B had a cruise speed of 65 miles per hour (105 kilometers per hour) and maximum speed of 82 miles per hour (132 kilometers per hour). The service ceiling was 12,000 feet (3,658 meters) and range was 157 miles (253 kilometers).

The YR-4B was equipped with bomb racks. It could carry three 125 pound (56.7 kilogram) demolition bombs or one 325 pound (147 kilogram) depth bomb. The equipment was deleted for the R-4B.

Sikorsky built 27 YR-4Bs and 100 R-4B helicopters. Of these, 40 were assigned to the Army Air Corps, 19 to the Navy and Coast Guard, and 41 were sent to the Royal Air Force and Royal Navy.

Sikorsky YR-4B 43-28225 in the NACA full scale wind tunnel, Langley Field, Virginia, 1944. A technician is preparing strobes to take stop-motion photographs of the helicopter's rotor blades while they turn at normal operating r.p.m. (NASA)
Sikorsky YR-4B 43-28225 in the NACA full scale wind tunnel, Langley Field, Virginia, 1944. A technician is preparing strobes to take stop-motion photographs of the helicopter’s rotor blades while they turn at normal operating r.p.m. (NASA)

Carter Harman was born at Brooklyn, New York, 14 June 1918, the son of Steven Palmer Harman, a newspaper editor, and Helen F. Doremus Harman.

Before the war, Harman had been a musician and author. He assisted Duke Ellington write an autobiography. Harman earned a bachelor’s degree in music composition from Princeton University, Princeton, New Jersey, in 1940. While at Princeton, Harman was a member of the Dial Lodge, American Whig Society, Princeton University Band, and the Princeton University Choir.

Harman enlisted as a private in the United States Army at Hew York City on 1 April 1942, and was assigned to the Air Corps. Enlistment records indicate that he was 5 feet, 7 inches (170.2 centimeters) tall and weighed 125 pounds (57 kilograms).

After World War II ended, Harman returned to his musical studies at Columbia University, New York City, receiving a master’s degree in 1949.

Harman worked as a music critic for The New York Times and Time Magazine, and also continued writing books, as well as composing for ballet and opera. He was also a music producer and became executive vice president of CRI Records (Composers Recordings, Inc.).

Harman was married three times. He married Miss Nancy Hallinan, 5 February 1946, however they later divorced. His second wife was Helen Scott. They had four children together. His third wife was Wanda Maximilien.

Carter Harman died at Berlin, Vermont, 23 January 2007 at the age of 88 years.

© 2018, Bryan R. Swopes

24 April 1990, 12:33:51 UTC, T minus Zero

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Discovery (STS-31) lifts off Pad 39B with the Hubble Space Telescope. Sister ship Columbia waits on Pad 39A. (NASA)
Discovery (STS-31) lifts off Pad 39B with the Hubble Space Telescope. Sister ship Columbia waits on Pad 39A. (NASA)

24 April 1990, 12:33:51 UTC: Space Shuttle Discovery (STS-31) lifted off from Launch Complex 39B at the Kennedy Space Center, Cape Canaveral Florida, on a mission to place the Hubble Space Telescope in Earth Orbit.

The STS-31 flight crew were Loren J. Shriver, Commander; Charles F. Bolden, Jr., Pilot; Steven A. Hawley, Mission Specialist; Kathryn D. Sullivan, Mission Specialist; Bruce McCandless II, Mission Specialist.

Discovery (STS-31) flight crew: Seated, left to right: Colonel Charles F. Bolden, Jr., U.S. Marine Corps; Colonel Loren J. Shriver, U.S. Air Force; Lieutenant Commander Kathryn D. Sullivan, U.S. Navy. Standing, left to right: Captain Bruce McCandless II, U.S. Navy; Mr. Steven A. Hawley. (NASA)
Discovery (STS-31) flight crew: Seated, left to right: Colonel Charles F. Bolden, Jr., U.S. Marine Corps¹; Colonel Loren J. Shriver, U.S. Air Force; Lieutenant Commander Kathryn D. Sullivan, U.S. Navy.² Standing, left to right: Captain Bruce McCandless II, U.S. Navy; Mr. Steven A. Hawley. (NASA)

The Hubble Space Telescope is named after Edwin Hubble, an early 20th century astronomer who discovered galaxies beyond our own Milky Way galaxy. It is an optical Ritchey–Chrétien telescope (an improved Cassegrain reflector). Star light enters the telescope and is collected by a large 7 foot, 10.5 inch (2.400 meter) diameter hyperbolic mirror at the back end. The light is reflected forward to a smaller hyperbolic mirror, which focuses the light and projects it back through an opening in the main reflector. The light is then gathered by the electronic sensors of the space telescope. These mirrors are among the most precise objects ever made, having been polished to an accuracy of 10 nanometers.

The Hubble Space Telescope being deployed from Disovery's cargo bay. (NASA)
The Hubble Space Telescope being deployed from Discovery’s cargo bay, 25 April 1990. (NASA)

The Hubble Space Telescope is 43.5 feet (13.259 meters long. The light tube has a diameter of 10 feet (3.048 meters) and the aft equipment section is 14 feet (4.267 meters) in diameter. The spacecraft weighs 27,000 pounds (12,247 kilograms).

The HST orbits the Earth every 97 minutes at an altitude of 320 nautical miles (593 kilometers). The telescope was last serviced in 2009. Originally designed to operate for 15 years, the HST is now in its 35th.

The Hubble Space Telescope in Earth orbit. (NASA)
The Hubble Space Telescope in Earth orbit. (NASA)

¹ Colonel Bolden reached the rank of Major General, United States Marine Corps, before retiring in 2003. He was served as Administrator, National Aeronautics and Space Adminstration, 17 July 2009–20 January 2017.

² Lieutenant Commander Sullivan left NASA in 1993, and retired from the U.S. Navy with the rank of Captain, in 2006. She served as Under Secretary of Commerce for Oceans and Atmosphere/Administrator, National Oceanic and Atmospheric Administration (NOAA), 28 February 2013–20 January 2017.

One of the most recent Hubble images (taken 14 April 2025) is Messier 77, a spiral galaxy 45 million light years away in the constellation Cetus. (ESA/Hubble & NASA, L. C. Ho, D. Thilker)

© 2017,  Bryan R. Swopes

23–24 April 1967

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Colonel Vladimir Mikhailovich Komarov (Alexander Loktionov/RIA Novosti)

23–24 April 1967: At 00:35:00 UTC, 23 April, Soyuz-1, the first manned flight of the Soyuz 7K-OK spacecraft, was launched from Baikonur Cosmodrome Pad 1/5 (Gagarin’s Start). On this first test flight, only one person was aboard the craft, which had been designed to carry three cosmonauts. Colonel Vladimir Mikhailovich Komarov was the pilot. He had previously flown Voskhod-1, a 24-hour mission, in 1964.

A Soyuz 7K-OK space craft assembly. (Space Rocket History)
A Soyuz 7K-OK space craft assembly. (Space Rocket History)

The mission plan called for a second spacecraft, Soyuz-2, to be launched on the 24th, with a three-man crew. A rendezvous in orbit would be made.

Soyuz-1 was not ready to be flown. More than 200 faults were known, but the pressures brought about by politics required that the launch proceed.

On reaching orbit, two solar arrays were to deploy to provide electrical power for the spacecraft’s batteries. One panel did not deploy and this severely limited the power available.

The Soyuz stabilization system relied on sensors which would detect certain stars to provide orientation, but the failed solar panel covered them. Within a few orbits the system failed completely. Komarov used the ship’s thrusters to manually control stability, but this was only marginally effective.

There were also communications difficulties. With electrical power diminishing and reaction fuel being spent, the main goals of the mission could no longer be achieved. After 13 orbits it was decided to abort the mission.

An illustration of Soyuz-1
An illustration of Soyuz-1

Komarov had to manually align the Soyuz-1 during the daylight phase of orbit 18. Gyroscopic stabilizers were supposed to maintain that alignment as the spacecraft passed into darkness. Komarov would once again align the craft when it came around into light, and hold that alignment through the reentry deceleration.

For some reason, the braking engine was 2 minutes, 23.5 seconds late in firing. The deceleration burn was planned for 2 minutes, 30 seconds, but an automatic system, recognizing that the gyro system was not holding the proper alignment, cut off the engine 4 seconds early. This meant that the Soyuz would travel farther down range than intended, and would not have slowed quite as much, although it was enough for re-entry.

Soyuz-1 impacted the Earth at 03:22:52 UTC, 1.9 miles (3.06 kilometers) to the west of Karabutak, Orenburg Oblast, at speeds estimated at from 30–40 meters per second (67–89 miles per hour) to as high as 640 kilometers per hour (398 miles per hour). It is believed that Vladimir Komarov died from injuries sustained at this time.

He was the first person to die during a space flight.

A rescue helicopter quickly located the Soyuz reentry module which was lying on its side in an open field with its parachute alongside. The rescuers reportedly saw the soft-landing rockets fire, which they should have done just before the module’s impact.

The module was on fire and by the time rescuers reached it, it was fully involved and molten metal was spreading on the ground. After expending their fire extinguishers, the rescuers tried to put of the fire by shoveling dirt on to it, but the the capsule completely collapsed.

Doctors on the scene pronounced Vladamir Komarov dead, with injuries to his skull, spinal cord, and numerous broken bones resulting from the impact. His body was completely burned. A postmortem examination at Moscow confirmed that the cosmonaut had been killed by the capsule’s impact.

Colonel Vladimir Mikhailovich Komarov, Cosmonaut.
Lieutenant Colonel Vladimir Mikhailovich Komarov, Cosmonaut.

Several theories have been published as explanation for the failure of the spacecraft’s parachute to safely slow Komarov’s descent, though with the craft completely destroyed by fire, it is unlikely that there could be any certainty. The official finding is that the drogue parachute did not apply enough force to pull the main parachute free. A backup parachute was deployed manually by Komarov but it fouled in the drogue ‘chute and did not open sufficiently to brake the craft.

Another theory is that a pressure sensor malfunctioned which prevented the automatic deployment of the main parachute. The drogue ‘chute should have been released at that time, but was not, which resulted in the reserve parachute fouling.

Third is that during an autoclaving operation the parachutes may have been contaminated with an adhesive substance.

And another story is this: During the design of Soyuz-1, the thickness of the heat shield was increased, and so the weight of the spacecraft went up. Engineers increased the size of the main parachute accordingly. But the compartment that it was to be stored in remained the same size. The fit was so tight that when the parachute was being installed, technicians had to hammer it into place with wooden mallets.

Burning wreckage of Soyuz-1, 24 April 1967. (RosCosmos)
Burning wreckage of Soyuz-1, 24 April 1967. (Russian Federal Space Agency)

Vladimir Mikhailovich Komarov was born at Moscow, Russian Socialist Federated Soviet Republic (RSFSR), 16 March 1927. His father was killed early in The Great Patriotic War (World War II). At the age of 15 years, Vladimir Mikhailovich entered the 1st Moscow Special Air Force School and graduated in 1945. He then went to Sasovskoye for initial pilot training, and then to the Borisoglebsk Air Force Pilot School. In 1946 he was transferred to the A.K. Serov Bataisk Military Aviation School. He received his pilot’s wings and was commissioned as a lieutenant in the Soviet Air Force, 10 December 1949.

Lieutenant Komarov served as a fighter pilot of the 383rd Fighter Aviation Regiment at Grozny. The regiment was transitioning from the Mikoyan-Guervich MiG-9 turbojet-powered fighter to the new swept-wing MiG-15. While there, he met his future wife, Valentina Yakovlevna Kiselyova, a recent graduate of the Grozny Teachers’ Training Institute. They were married in 1950. They had two children, Yevgeny and Irina.

In 1952, Senior Lieutenant Komarov was assigned as senior pilot of the 486th Fighter Aviation Regiment, flying the MiG-15 and MiG-17. In 1954 he applied to attend the N.E. Zhukovsky Air Force Engineering Academy, from which he graduated in 1959. Promoted to Senior Lieutenant-Engineer, he was assigned as a test pilot at the Central Scientific Research Institute.

Yuri Gagarin and Vladimir Komarov
Colonel Yuri Alexseyevich Gagarin and Lieutenant Colonel Vladimir Mikhailovich Komarov at Star City, 1964. (Europress/AFP)

After promotion to captain-engineer, 3 September 1960, Komarov was selected for the first group of Soviet cosmonauts. He was older than most of the group, but was well liked and respected.

Colonel-Engineer Vladimir Mihailovich Komarov, Pilot-Cosmonaut of the USSR, was twice named Hero of the Soviet Union. He had also been awarded the Order of Lenin, Order of the Red Star, as well as several other decorations.

Following a state funeral, the cosmonaut’s ashes were interred in the Kremlin Wall at Red Square.

Colonel Vladimir Mikhailovich Komarov, Pilot-Cosmonaut, Hero of the Soviet Union. “Whoever has flown once, whoever has piloted an airplane once, will never want to part with either an aircraft or the sky.”

© 2020, Bryan R. Swopes

24 April 1959

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Boeing RB-47E Stratojet. (U.S. Air Force 050421-F-1234P-009)

24 April 1959: Captain John Stanley Lappo, United State Air Force, flies a Strategic Air Command Boeing RB-47E Stratojet UNDER the Mackinac Bridge. The suspension bridge spans the Straits of Mackinac, connecting the upper and lower peninsulas of the U.S. state of Michigan. The Straits of Mackinac connect the Great Lakes of Lake Michigan and Lake Huron.

The vertical clearance under the Mackinac Bridge at the center of the main span is 155 feet (47 meters). (Wikipedia)

The vertical gap between the highest point on the underside of the bridge’s main span is 155 feet (47.2 meters) above the surface of the water. The RB-47E has an overall height of 28 feet (8.5 meters). And Captain Lappo was flying at just 75 feet (23 meters).

Captain Lappo and his crew were returning to Lockbourne Air Force Base, southeast of Columbus, Ohio, following an overnight simulated bombing mission.

When asked why he did it, he answered: “Why do men climb mountains? Or what motivates them to go into space? It’s just a sense of adventure that some men have and some don’t. . . I’ve always wanted to fly under a big bridge. I thought it would be the Golden Gate. When I was flying missions to the Far East, I was a co-pilot, and I wanted to fly under the Golden Gate at night. But I couldn’t induce the pilot to do it.” ¹

The total length of the Mackinac Bridge is 26,372 feet (8,038 meters). The length of the main span is 3,800 feet (1,158 meters). The height of the main towers is 552 feet (168 meters). The bridge opened to traffic 1 November 1957. (Mackinac Bridge Authority)

Reported by his navigator, Captain Lappo was charged with violating a regulation prohibiting flying an aircraft below 500 feet (152 meters) (AF Reg 60–16). At his court-martial, he pleaded guilty. The court fined him $50.00 per month for six months and he received a reprimand. Based on this, Lieutenant General Walter Campbell Sweeney, Jr., Commanding General, Eighth Air Force, ordered him permanently removed from flight status.

John Lappo had been a highly respected pilot. Several senior officers testified at the court martial as to his skill, dedication and reliability.

John Stanley Lappo had enlisted in the U.S. Army Air Forces 19 February 1943 and was trained as a pilot. On completion of training he was given the warrant officer rank of flight officer. Lappo was commissioned as a second lieutenant in January 1945.

Lieutenant Lappo flew C-46, C-47 and C-54 transports with the 22nd Troop Carrier Squadron, 374th Troop Carrier Group, Fifth Air Force. He was released from active duty in 1948, but remained in the U.S. Air Force Reserve and maintained his flight status.

Flight Officer John Stanley Lappo, United States Army Air Forces, circa 1944. (Suzette Mizelle)

In 1951, Lieutenant Lappo was recalled to active duty for service in the Korean War. He flew 28 bombing missions in the Boeing B-29 Superfortess, including B-29-85-BN 44-87657, Command Decision, one of the best known bombers of the war.

John Stanley Lappo married Miss Olive Kay Robinson, 7 July 1951, at Muskegon, Michigan. He then attended Squadron Officers School at Maxwell AFB, Alabama.

As a B-47 Stratojet pilot, he was assigned to the 10th Strategic Reconnaissance Squadron, 26th Strategic Reconnaissance Wing, at Lockbourne AFB, and later, the 352nd Bombardment Squadron (Medium), 301st Bombardment Wing (Medium), which was also based at Lockbourne.

Captain Lappo was often given the most difficult assignments. As a reconnaissance pilot, he flew clandestine missions over the Union of Soviet Socialist Republics (USSR). For one of these missions he was awarded the Distinguished Flying Cross.

Lieutenant Colonel John S. Lappo, USAF

Even though he was permanently removed from flying duties, Lappo remained in the Air Force. He served in Southeast Asia during the Vietnam War, and was later vice commander of Elmendorf Air Force Base in Alaska. He rose to the rank of lieutenant colonel.

Lieutenant Colonel Lappo retired from the Air Force 31 July 1972.

John Stanley Lappo was born 8 January 1920 at Muskegon, Michigan. He was the fifth of seven children of Jan Stanislaw Lappo, a carpenter, and Zofia A. Stankiewicz Lappo.

In 1940 he was employed as a pattern maker at an iron foundry.

Lappo registered for the draft (conscription) 1 July 1941. The registrar’s report shows that he had brown hair, blue eyes, was 5 feet, 4½ inches (1.638 meters) tall and weighed 165 pounds (74.8 kilograms).

From 1972 to 1982, John Lappo worked for the state of Alaska as a regional administrator for the health department, then from 1982 to 1990, he operated a trucking company, Arctic Fox Trucking.

John Stanley Lappo died 15 November 2003 at Eagle River, Alaska. His remains are interred at the Fort Richardson National Cemetery, Anchorage, Alaska.

A Boeing RB-47E-1-BW Stratojet, 51-5259—the reconnaissance variant. (U.S. Air Force)

The Boeing RB-47E Stratojet was a reconnaissance variant of the B-47E strategic bomber. All RB-47Es were built by Boeing-Wichita. The type made its first flight 3 July 1953. 240 RB-47Es and 15 RB-47Ks were built, with the last one delivered in August 1955.

Designed by Boeing, the B-47 Stratojet was a high-subsonic speed strategic bomber and reconnaissance aircraft, in service from 1951 until 1977. The B-47 could fly higher and faster than jet fighters of the time, and it was also highly maneuverable. B-47 was flown by a two pilots in a tandem cockpit. A navigator was at a station in the nose. The RB-47E variant (Boeing Model 450-158-36) differed in that bombing equipment was deleted and photographic and electronic reconnaissance equipment installed. Additional fuel tanks were placed in the former bomb bay.

Illustration of RB-47E fuselage spaces. (U.S. Air Force)

The RB-47E Stratojet is slightly longer than the B-47E. The RB-47E is 109.8 feet (333.467 meters) long with a wingspan of 116.0 feet (35.357 meters), and an overall height of 28.0 feet (8.534 meters). The wings are shoulder-mounted and have a total area of 1,428 square feet (132.67 square meters). The wings’ leading edges are swept aft to 36° 37′. The angle of incidence is 2° 45′ and there is 0° dihedral (the wings were very flexible). The RB-47E had an empty weight of 81,100 pounds (36,786 kilograms) and maximum takeoff weight of 200,000 pounds (90,718 kilograms).

The RB-47E was powered by six General Electric J47-GE-25 turbojet engines in four nacelles mounted on pylons below the wings. This engine has a 12-stage axial-flow compressor, eight combustion chambers, and single-stage turbine. The -25 has a continuous power rating of 5,320 pounds of thrust (23.665 kilonewtons) at 7,630 r.p.m., at Sea Level; Military Power, 5,670 pounds (25.221 kilonewtons) at 7,800 r.p.m. (30 minute limit); and Maximum Power, 7,200 pounds (32.027 kilonewtons) at 7,950 r.p.m. with water/alcohol injection (5 minute limit). The J47-GE-25 has a maximum diameter of 3 feet, 1 inch (0.940 meters) and length of 12 feet, 0 inches (3.658 meters) and weighs 2,653 pounds (1,203 kilograms).

Boeing RB-47E-25-BW Stratojet 52-722, 26th Strategic Reconnaissance Wing, Lockbourne Air Force Base, Ohio, 1954. (Bob Garrard Collection/AirHistory.net/Flickr)

The RB-47E had a cruise speed of 433 knots (498 miles per hour/802 kilometers per hour), and maximum speed of 497 knots (572 miles per hour/920 kilometers per hour) at 20,000 feet (6,096 meters). The service ceiling was 47,800 feet feet (14,569 meters). Its unrefueled range was 3,935 nautical miles (4,528 statute miles/7,288 kilometers). The RB-47E was capable of inflight refueling and had a maximum fuel capacity of 18,280 gallons in six fuselage and two jettisonable wing tanks.

For defense the RB-47E was armed with two M24A1 20 mm autocannons with 350 rounds of ammunition per gun. The remotely-operated tail turret was controlled by the co-pilot through an A-5 fire control system.

A total of 2,032 B-47s were built by a consortium of aircraft manufacturers: Boeing Airplane Company, Wichita, Kansas; Douglas Aircraft Company, Tulsa, Oklahoma; Lockheed Aircraft Company, Marietta, Georgia.

The Stratojet is one of the most influential aircraft designs of all time and its legacy can be seen in almost every jet airliner built since the 1950s: the swept wing with engines suspended below and ahead on pylons. The B-47 served the United States Air Force from 1951 to 1977. From the first flight of the Boeing XB-47 Stratojet prototype, 17 December 1947, to the final flight of B-47E 52-166, was 38 years, 6 months, 1 day.

¹ “John Lappo Story,” by Wayland Mayo, at the web site  “B-29s Over Korea,” https://www.b-29s-over-korea.com/john-lappo-story/

© 2023, Bryan R. Swopes