6 October 1983: First flight of the Bell Helicopter Company Model 406/OH-58D Kiowa reconnaissance helicopter. Developed from the earlier Model 206/OH-58A and OH-58C Kiowa, the D model features a four-blade composite main rotor, an upgraded engine and transmission, and improved avionics. The most visible features are the spherical mast-mounted sighting system above the main rotor and much larger engine/transmission cowling, or “dog house.”
The helicopter was designed with very low level, “nap-of-the-Earth,” (NOE) flight, using terrain and trees for cover. The four-bladed rotor provides more lift and increased responsiveness over the two-bladed semi-rigid rotor of the OH-58A and C.
The mast-mounted sight allows the helicopter to hover behind terrain or trees with just the sight exposed. The sight contains television, thermal imaging and laser range-finding and target designation equipment.
Operated by two pilots, the Bell OH-58D Kiowa is 42 feet, 2 inches (12.852 meters) long, with rotors turning. The four-bladed composite main rotor has a diameter of 35 feet (10.668 meters). As is customary with American-designed helicopters, the main rotor turn counter-clockwise as seen from above. (The advancing blade is on the right side of the aircraft.) The two-blade semi-rigid tail rotor is mounted on the left side of the tail boom and turns clockwise when seen from the left. (The advancing blade is below the tail boom.) The overall height of the OH-58D is 12 feet, 10–5/8 inches (3.928 meters). Empty weight of the helicopter is about 3,500 pounds (1,588 kilograms), depending on installed equipment. This is approximately 15% greater than the maximum gross weight of the OH-58A. The OH-58D has a maximum gross weight of 5,500 pounds (2,495 kilograms).
Power for the Kiowa is supplied by a Rolls-Royce T703-AD-700A (Allison 250-C30R3) turboshaft engine which produces 750 shaft horsepower. The main transmission is limited to transient input of 637 shaft horsepower.
The helicopter can be armed with a fixed, remotely-fired, M3P .50-caliber (12.7 mm) machine gun, a pod carrying seven 2.75-inch (70 mm) rockets, or two AGM-114 Hellfire antitank guided missiles.
The OH-58D has a cruise speed of 95 knots (109 miles per hour/176 kilometers per hour) when armed. Its range is 140 nautical miles (161 miles/259 kilometers). The hover ceiling in ground effect (HOGE) at +15 °C. is 7,500 feet MSL (2,286 meters).
6 October 1977: The first of eleven prototypes of the Mikoyan MiG 29A fighter, 9-01, made its first flight at Ramenskoye Airfield with Chief Test Pilot Alexander Vasilievich Fedotov, Hero of the Soviet Union, in the cockpit. Fedotov had been a test pilot at A.I. Mikoyan EDB since 1958 and set eighteen speed and altitude world records flying high performance aircraft. He was killed while testing the MiG 31 in 1984.
The MiG 29A is a fourth generation, single-seat, twin-engine, Mach 2+ air superiority fighter built by the Mikoyan Design Bureau. It entered service with the Soviet Union in 1983 and has been widely exported to many other nations. The MiG 29A is 13.37 meters (57 feet) long and has a wing span of 11.4 meters (37 feet, 3 inches). Its empty weight is 11,000 kilograms (24,250 pounds) and the maximum takeoff weight (MTOW) is 20,000 kilograms (44,100 pounds). The fighter is powered by two Klimov RD-33 turbofan engines which produce 11,240 pounds of thrust, or 18,277 pounds of thrust with afterburner. It has a maximum speed of Mach 2.25 (1,490 miles per hour/2,400 kilometers per hour) and a service ceiling of 59,100 feet (18,013 meters). Maximum range with internal fuel is 1,430 kilometers (888 miles).
Armament consists of one Gryazev-Shipunov GSh-301 30mm autocannon with 150 rounds of ammunition and a combination of air-to-air missiles, rockets or bombs carried on underwing pylons or fuselage hard points.
More than 1,600 MiG 29s have been built.
Alexander Vasilievich Fedotov born 23 June 1932 at Stalingrad, Russia (renamed Volgograd in 1961). He graduated from the Air Force Special School at Stalingrad, and in 1950, entered the Soviet Army. Fedotov attended the Armavir Military Aviation School of Pilots at Amravir, Krasnodar Krai, Russia, graduating in 1952, and then became a flight instructor. In 1958 he attended the Ministry of Indutrial Aviation Test Pilot School at Zhukovsky. He was a test pilot for the Mikoyan Experimental Design Bureau from 1958 to 1984. In 1983, Alexander Fedotov was promoted to the rank of Major General in the Soviet Air Force.
On 22 July 1966, Fedotov was honored as a Hero of the Soviet Union. He was named an Honored Test Pilot of the Soviet Union, 21 February 1969. He was qualified as a Military Pilot 1st Class. Fedotov was twice awarded the order of Lenin, and also held the Order of the Red Banner and the Order of the Red Banner of Labor.
During his career as a test pilot, Major General Fedotov had been forced to eject from an airplane three times. He had also set 15 Fédération Aéronautique Internationale world records for speed, altitude and time to altitude. One of these, FAI Record File Number 2825, in which he flew a Mikoyan E-266M to 37,650 meters (123,534 feet), 31 August 1977, remains the current record. The FAI has also honored him three times (1961, 1973 and 1977) with The De la Vaulx Medal, and in 1976 awarded him the FAI’s Gold Air Medal.
Major General Alexander Vasilyevich Fedotov and his navigator, Valerie Sergeyvich Zaytevym, were killed when the second MiG 31 prototype, number 83/2, crashed during a test flight. Neither airman was able to eject.
6 October 1961: During a two-month series of speed, distance and altitude record attempts at Edwards Air Force Base, California, Jackie Cochran set a Fédération Aéronautique Internationale (FAI) World Record for Speed Over a Closed Circuit of 100 Kilometers Without Payload, flying a Northrop T-38A-30-NO Talon, 60-0551. Her average speed over the 62-mile circular course was 1,262.188 kilometers per hour (784.287 miles per hour).¹
Jackie’s friend, famed Air Force test pilot Colonel Chuck Yeager, kept notes during the series of record attempts:
September 29: Edwards AFB. Flew the aircraft today to include a practice run on the 100 kilometer course. Jackie did a fine job at 1.2 Mach. Looks like this will be a piece of cake. Aircraft was okay. Average speed 742 miles per hour. Jackie was in the altitude chamber today with the pressure suit (CSU 4/P). Everything went fine and maximum altitude was 65,000 feet. This is the first time a woman was taken up in the chamber in a pressure suit. CSU 4/P was the type of suit.
October 3: Tried a run today but weather moved in from 26,000 to 37,000 feet. Very good landing. Airspeed system iced up and Jackie stalled the aircraft at 35,000 feet. Made a no-sweat recovery.
October 4: Ran the 100 kilometer for record at 1 pm. The first run wasn’t too good but had an average speed of 763 mph. A pylon was cut so the run was voided. Second run was 740 mph. Very poor. Another flight was made at 5:30 pm but both runs were pretty sorry. Jackie was a little late on all of the corrections. Jackie doesn’t seem to be in too good a physical or mental state.
October 5: I flew in the backseat of the T-38 with Jackie on a practice run of the 100 kilometer. I talked her around the course 2 times with a little help on the stick. First run was 782 mph and second run was 787. I think I know what has been Jackie’s trouble on the 100 km. During the flight as she starts gaining a little altitude, she lets off on the back pressure on the stick to stop climbing and this causes the turn to become larger. Jackie and I spent two hours talking this over. She finally understands that in order to fly a constant circle, if the airplane starts to climb, she must increase the bank angle and let off on the back pressure a little and let the nose drop but still hold the same rate of turn. This is what makes the 100 km so hard to fly. Jackie still has a touch of the flu.
October 6: Jackie felt better today and after a delay caused by communication trouble, she flew one of the most perfect runs that has ever been flown on the 100 km course. She learned her lesson well. The record speed was 784 mph. She held 1/4 mile outside the course the entire trip. I was very pleased to watch the reaction of the timers and radar people. I think they expected another 10 or 15 trips like the F-105 tricks. She made one hell of a good flight.
— Brigadier General Charles E. Yeager, U.S. Air Force, quoted in Jackie Cochran: An Autobiography, by Jacqueline Cochran and Maryann Bucknum Brinley, Bantam Books, New York, 1987, Pages 306–307.
The Northrop T-38A Talon is a two-place, twin-engine jet trainer capable of supersonic speed. It is 46 feet, 4 inches (14.122 meters) long with a wingspan of 25 feet, 3 inches (7.696 meters) and overall height of 12 feet, 10 inches (3.912 meters). The trainer’s empty weight is 7,200 pounds (3,266 kilograms) and the maximum takeoff weight is 12,093 pounds (5,485 kilograms).
The T-38A is powered by two General Electric J85-GE-5 turbojet engines. The J85 is a single-shaft axial-flow turbojet engine with an 8-stage compressor section and 2-stage turbine. The J85-GE-5 is rated at 2,680 pounds of thrust (11.921 kilonewtons), and 3,850 pounds (17.126 kilonewtons) with afterburner. It is 108.1 inches (2.746 meters) long, 22.0 inches (0.559 meters) in diameter and weighs 584 pounds (265 kilograms).
It has a maximum speed of Mach 1.08 (822 miles per hour, 1,323 kilometers per hour) at Sea Level. The Talon’s service ceiling of 55,000 feet (16,764 meters) and it has a maximum range of 1,093 miles (1,759 kilometers).
In production from 1961 to 1972, Northrop has produced nearly 1,200 T-38s. As of January 2014, the U.S. Air Force had 546 T-38A Talons in the active inventory. It also remains in service with the U.S. Navy, and the National Aeronautics and Space Administration.
Jackie Cochran’s record-setting T-38 is in the collection of the Smithsonian Institution, National Air and Space Museum.
5–6 October 1922: Lieutenants John Arthur Macready and Oakley George Kelly, Air Service, United States Army, set an unofficial world endurance record for an unrefueled airplane when they flew a Fokker T-2, Air Service serial number A.S. 64233, for 35 hours, 18 minutes, 30 seconds at San Diego, California.
The Fokker F.IV was built by Anthony Fokker’s Nederlandse Vliegtuigenfabriek at Veere, Netherlands, in 1921. The Air Service purchased two and designated the type T-2, with serial numbers A.S. 64233 and A.S. 64234.
Several modifications were made to prepare the T-2 for the transcontinental flight. Normally flown by a single pilot in an open cockpit, a second set of controls was installed so that the airplane could be controlled from inside while the two pilots changed positions. The standard airplane had a 130 gallon (492 liter) fuel tank in the wing. The Army added a 410 gallon (1,552 liter) tank to the wing center section, and a 185 gallon (700 liter) tank in the passenger cabin.
The Fokker F.IV was a single-engine, high-wing monoplane with fixed landing gear. It was flown by a single pilot in an open cockpit which was offset to the left of the airplane’s centerline. The airplane was designed to carry 8–10 passengers in an enclosed cabin. The F.IV was a scaled-up version of the preceding F.III. It was built of a welded tubular steel fuselage, covered with three-ply plywood. The wing structure had plywood box spars and ribs, and was also covered with three-ply plywood.
For its time, the Fokker was a large airplane. Measurements from the Fokker T-2 at the Smithsonian Institution are: 49 feet, 10 inches (15.189 meters) long, with a wing span of 80 feet, 5 inches (24.511 meters), and height 12 feet, 2 inches (3.708 meters). On this flight, it carried 735 gallons (2,782 liters) of gasoline in three fuel tanks.
The Fokker F.IV was offered with a choice of engines: A Rolls-Royce Eagle IX V-12, Napier Lion II “broad arrow” W-12, or Liberty L-12 V-12. The T-2 was powered by a water-cooled, normally-aspirated, 1,649.336-cubic-inch-displacement (27.028 liter) Ford-built Liberty L-12 single overhead cam (SOHC) 45° V-12 engine with a compression ratio of 5.4:1. (Serial number A.S. No. 5142) The Liberty produced 408 horsepower at 1,800 r.p.m. The L-12 as a right-hand tractor, direct-drive engine. Installed on A.S. 64233, the engine turned turned a two-bladed Curtiss fixed-pitch walnut propeller with a diameter of 10 feet, 5 inches (3.175 meters). The Liberty 12 was 5 feet, 7.375 inches (1.711 meters) long, 2 feet, 3.0 inches (0.686 meters) wide, and 3 feet, 5.5 inches (1.054 meters) high. It weighed 844 pounds (383 kilograms).
The airplane had a maximum speed of 93 miles per hour (150 kilometers per hour), a range of 2,550 miles (4,104 kilometers) and a service ceiling of 10,500 feet (3,200 meters).
Several modifications were made to prepare the T-2 for a transcontinental flight. Normally flown by a single pilot in an open cockpit, a second set of controls was installed so that the airplane could be controlled from inside while the two pilots changed positions. The standard airplane had a 130 gallon (492 liter) fuel tank in the wing. The Army added a 410 gallon (1,552 liter) tank to the wing center section, and a 185 gallon (700 liter) tank in the passenger cabin.
Macready and Oakley planned to fly the T-2 across the North American continent, non-stop, from San Diego, California to New York. The starting point at Rockwell Field was chosen to take advantage of favorable westerly winds, and to use the higher-octane gasoline which was available in California.
When they encountered fog in the mountains east of San Diego, the two fliers were forced to turn back. They remained airborne over San Diego to measure the airplane’s performance and fuel consumption for another attempt. Because the airplane was not equipped with a barograph to record air pressure on a paper chart, the record endurance flight could not be officially recognized by the Fédération Aéronautique Internationale (FAI). They were awarded the Mackay Trophy for the most meritorious flight of the year. This was Macready’s second Mackay. He and Kelly would win it again the following year.
Macready and Oakley made a second unsuccessful attempt to cross the continent from west-to-east, and were finally successful on an east-to-west flight in 1923.
Fokker T-2 A.S. 64233 is in the permanent collection of the Smithsonian Institution National Air and Space Museum.
6 October 1918: During the Meuse-Argonne offensive of World War I, approximately 554 soldiers of the 77th “Metropolitan” Division advanced into the Argonne Forest with a French division on their left flank and the American 92nd Division to the left. They moved quickly, unaware that the flanking units were held up. Soon, they were far ahead of the Allied advance and became cut off behind the German lines. With higher ground to all sides, the elements of the 307th and 308th Infantry Regiments and 306th Machine Gun Battalion came under heavy attack by enemy infantry and artillery.
With their communications cut off, they were soon low on food and ammunition. The only water available was a nearby stream that was protected by German gunfire.
Major General Robert Alexander, commanding the 77th Division, requested that the 50th Aero Squadron, based at Remicourt, attempt to locate the cut-off unit and resupply them by air. Among the officers of the 50th participating in the search were First Lieutenant Harold Ernest (“Dad”) Goettler, the 1st Flight commander, and Second Lieutenant Erwin Russell Bleckley, flying an American-built Liberty-engined DH-4. On their first flight they flew their own aircraft, squadron number 2. Later in the day, after #2 developed engine trouble, they used another crew’s #6.
Medal of Honor
Harold Ernest Goettler
Rank and organization: First Lieutenant, pilot, U.S. Air Service, 50th Aero Squadron, Air Service.
Place and date: Near Binarville, France, October 6, 1918.
Entered service at: Chicago, Ill. Born: July 21, 1890, Chicago, Ill.
G.O. No.: 56, W.D., 1922.
Citation: 1st. Lt. Goettler, with his observer, 2d Lt. Erwin R. Bleckley, 130th Field Artillery, left the airdrome late in the afternoon on their second trip to drop supplies to a battalion of the 77th Division which had been cut off by the enemy in the Argonne Forest. Having been subjected on the first trip to violent fire from the enemy, they attempted on the second trip to come still lower in order to get the packages even more precisely on the designated spot. In the course of this mission the plane was brought down by enemy rifle and machinegun fire from the ground, resulting in the instant death of 1st. Lt. Goettler. In attempting and performing this mission 1st. Lt. Goettler showed the highest possible contempt of personal danger, devotion to duty, courage and valor.
Medal of Honor
Erwin Russell Bleckley
Rank and organization: Second Lieutenant, 130th Field Artillery, observer 50th Aero Squadron, Air Service.
Place and date: Near Binarville, France, October 6, 1918.
Entered service at: Wichita, Kans. Birth: Wichita, Kans.
G.O. No.: 56, W.D., 1922.
Citation: 2d Lt. Bleckley, with his pilot, 1st Lt. Harold E. Goettler, Air Service, left the airdrome late in the afternoon on their second trip to drop supplies to a battalion of the 77th Division, which had been cut off by the enemy in the Argonne Forest. Having been subjected on the first trip to violent fire from the enemy, they attempted on the second trip to come still lower in order to get the packages even more precisely on the designated spot. In the course of his mission the plane was brought down by enemy rifle and machinegun fire from the ground, resulting in fatal wounds to 2d Lt. Bleckley, who died before he could be taken to a hospital. In attempting and performing this mission 2d Lt. Bleckley showed the highest possible contempt of personal danger, devotion to duty, courage, and valor.
“The Lost Battalion” was finally relieved on the afternoon of 8 October. Of the estimated 554 soldiers who entered the forest on 2 October, approximately 197 were killed and 150 were either missing or captured.
In addition to the Medals of Honor awarded to Lieutenants Goettler and Bleckley, four officers and enlisted men received the Medal. Twenty-eight others were awarded the Distinguished Service Cross.
The Airco DH.4 was a very successful airplane of World War I, designed by Geoffrey de Havilland. The DH.4 (DH-4 in American service) was a two-place, single-engine, two-bay biplane with fixed landing gear. The fuselage and wings were constructed of wood and covered with doped-fabric. The airplane was produced by several manufacturers in Europe and the United States. The DH-4 was 30 feet, 5 inches (9.271 meters) long with a wingspan of 42 feet, 8 inches (13.005 meters) and height of 10 feet, 6 inches (3.200 meters). The DH-4 had an empty weight of 2,391 pounds, (1,085 kilograms) and gross weight of 4,297 pounds (1,949 kilograms). Fuel capacity was 67 gallons (254 liters).
Army Air Service DH-4s were powered by Liberty 12 aircraft engines in place of the Rolls-Royce Eagle VII V-12 of the British-built DH.4 version. The L-12 was water-cooled, normally-aspirated, 1,649.34-cubic-inch-displacement (27.028 liter), single overhead cam (SOHC) 45° V-12 engine. It produced 408 horsepower at 1,800 r.p.m. The L-12 as a right-hand tractor, direct-drive engine and it turned turned a two-bladed fixed-pitch wooden propeller. The Liberty 12 was 67.375 inches (1.711 meters) long, 27.0 inches (0.686 meters) wide, and 41.5 inches (1.054 meters) high. It weighed 844 pounds (383 kilograms).
The Liberty 12 aircraft engine was designed by Jesse G. Vincent of the Packard Motor Car Company and Elbert J. Hall of the Hall-Scott Motor Company. This engine was produced by Ford Motor Company, as well as the Buick and Cadillac Divisions of General Motors, The Lincoln Motor Company (which was formed by Henry Leland, the former manager of Cadillac, specifically to manufacture these aircraft engines), Marmon Motor Car Company and the Packard Motor Car Company. Hall-Scott was too small to produce engines in the numbers required.
The DH-4 had a maximum speed of 124 miles per hour (200 kilometers per hour), service ceiling of 19,600 feet (5,974 meters) and range of 400 miles (644 kilometers).
Many DH-4s were rebuilt as DH-4Bs. These can be identified by the relocated pilot’s cockpit, which was moved aft, closer to the observer’s position. The an enlarged fuel tank was place ahead of the pilot’s cockpit. Following World War II, many were rebuilt with tubular metal frames for the fuselage, replacing the original wooden structure. These aircraft were redesignated DH-4M.
The prototype American DH-4, Dayton-Wright-built airplane, is in the collection of the Smithsonian Institution National Aviation and Space Museum.