28 November 1983, 16:00:00.84 UTC, T minus Zero: Space Shuttle Columbia (STS-9) lifted of from Launch Complex 39A, Kennedy Space Center, Cape Canaveral Florida on its sixth space flight.
On board was the largest flight crew for a manned space mission up to that time: Mission Commander John W. Young (Captain, United States Navy, Retired), Pilot; Lieutenant Colonel Brewster H. Shaw, Jr., United States Air Force; Mission Specialists Owen K. Garriott, Ph.D., and Robert A.R. Parker, Ph.D.; and Payload Specialists Ulf Dietrich Merbold, Dr. rer. nat, of the European Space Agency (ESA); and Lieutenant Colonel Byron K. Lichtenberg, D.Sc., USAF (Massachusetts Air National Guard).
Columbia carried the NASA/ESA Spacelab module in the cargo bay. The mission was primarily to carry out 72 scientific experiments in astronomy, physics, biology, as well as to make observations of the Earth.
Columbia landed at Edwards Air Force Base, California at 23:47:24 UTC (3:47 p.m., PST), 8 December 1983. At 10 days, 7 hours, 47 minutes, 24 seconds, STS-9 was the longest space shuttle mission up to that time.
28 November 1979: An Air New Zealand sightseeing flight to Antarctica, Flight TE 901, departed Auckland Airport (AKL) on the North Island of New Zealand, at 1917 GMT, 27 November (8:17 a.m., 28 November, local time). The flight was planned to proceed to the vicinity of McMurdo Station at the south end of Ross Island, off the continent of Antarctica, and then return to Christchurch International Airport (CHC) on New Zealand’s South Island. The duration of the flight was estimated to be 11 hours and would travel a total of 5,360 miles (8,626 kilometers), all during daylight hours.
Air New Zealand had previously flown thirteen Antarctic excursions. On this date, the airliner operated as Flight TE 901 was a five year old McDonnell Douglas DC-10-30, registration ZK-NZP. On board the airliner were a flight crew of five, cabin crew of fifteen and 237 passengers.
The pilot in command (PIC) was Captain Thomas James Collins. Captain Collins held an airline transport pilot license with a DC-10 type rating. He had flown a total of 11,151 flight hours, of which 2,872 had been aboard DC-10s. Because of the flight’s planned duration, the crew included two more pilots, First Officer Gregory Mark Cassin and First Officer Graham Neville Lucas. There were also two flight engineers, Flight Engineer Gordon Barrett Brooks and Flight Engineer Nicholas John Maloney. All were very experienced pilots, type-rated in the DC-10. None, however, had previously flown the Antarctic route.
19 days before the flight, Captain Collins and First Officer Cassin had received an audio-visual briefing of the planned flight. They also flew the route in a cockpit simulator. The route of previous flights had taken the airliners from the Ross Sea into McMurdo Sound, well west of Ross Island and its 12,448 foot (3,794 meters) active volcano, Mount Erebus. At a pre-determined waypoint, the airliner turned left toward McMurdo Station. The airline’s minimum altitude through this area was 16,000 feet (4,877 meters) until south of McMurdo Station, and then only if certain weather conditions were present.
Air New Zealand flight planners had discovered that data which had been entered into the aircraft’s Area Inertial Navigation System (AINS) computer was incorrect. The coordinates of the for the destination waypoint were actually 2˚10′ west of the intended destination waypoint. The intended route was to take TE 901 directly over Mount Erebus to the emergency whiteout landing area near Williams Field (ICAO: NZWD) about 10 miles (16 kilometers) from McMurdo Station on the Ross Ice Shelf. Because of the data error, however, all previous flights had approached from well west of Ross Island before turning toward McMurdo Station at West Dailey Island. The navigation data was corrected, but the flight crew had not been informed of the change or the reason for it.
The flight toward Antarctica proceeded normally. Exactly five hours after takeoff, Captain Collins began a descent from TE 901’s cruising altitude. At this point the airliner was approximately 140 miles (225 kilometers) north of McMurdo Station. First Officer Cassin advised air traffic control, Mac Center, of their descent. The controller acknowledged and gave the current weather at McMurdo as “. . . low overcast in the area at about 2,000 feet [607 meters] and . . . some snow but our visibility is still about 40 miles [64 kilometers]. . . .” In the cockpit, Captain Collins commented that the clouds were lower than previously reported, and that, it would be, “Very hard to tell the difference between the cloud and the ice.”
First Officer Cassin requested descent to 16,000 feet (4,877 meters) but Mac Center directed the flight to “descend and maintain Flight Level 180.” (18,000 feet/5,486 meters)
Over the next six minutes, TE 901 traveled 50 miles as it descended to FL 180. Radio transmissions during the let down were unclear, with Mac Center, Flight 901 and Ice Tower all trying to make contact. It is possible that the high terrain between the airliner and McMurdo Station was blocking the signals. The pilots discussed using other frequencies. Captain Collins and Flight Engineer Brooks discussed the airliner’s present weight and the minimum speed required, which was calculated to be 252 knots.
At 00:24:44, the DC-10’s Altitude Alert sounded, indicating that the airplane had reached the assigned altitude of Flight Level 180.
At 00:31:01, Captain Collins told the crew, “I’ll have to do an orbit here I think.” Seven seconds later, he said, “Well actually it’s clear out here if we get down. . .and—” Someone in the cockpit replied, “It’s not clear on the right hand side here.” First Officer Cassin said, “No.”
Captain Collins had observed an opening in the clouds to the left of the airplane, and decided to descend further under visual conditions. He first began a descending 360˚ turn to the right, followed by a descending 180˚to the left. This put the DC-10 on a course away from McMurdo Station at 10,000 feet (3,048 meters). Captain Collins and the two flight engineers discussed the desired airspeed. With the flight still continuing outbound, at 00:42:49, Collins said, “We’re VMC [Visual Meteorological Conditions] around this way so I’m going to do another turn in.” The flight’s expert commentator, Peter Mulgrew, had entered the flight deck. Captain Collins said, “Sorry haven’t got time to talk but—” Mulgrew replied, “Ah well you can’t talk if you can’t see anything.” However, Mulgrew remained in the cockpit.
At 00:45:00, First Officer Cassin called McMurdo Center and reported, “. . . we are now at six thousand descending to two thousand and we’re VMC.”
Passing through 3,000 feet (914 meters), Flight Engineer Brooks asked, “Where’s Erebus in relation to us at the moment?” Someone answered, “Left about twenty or twenty-five miles.” Someone else asked, “Left do you reckon?” A voice said, “Well I don’t know—I think.” An unknown voice said, “I’ve been looking for it.” Cassin replied, “Yep, yep.” Brooks then said, “I’m just thinking of any high ground in the area, that’s all.”
Mulgrew replied, “I think it’ll be left, yes.” The second flight engineer, Nick Maloney, then said, “Yes, I reckon about here.” Mulgrew answered, “Yes—no, no, I don’t really know.” Then at 00:47:02, he said, “That’s the edge,” probably indicating that he could see the edge of the ice sheet ahead.
At 00:47:06, a crewmember announced, “Down to two thousand.” Both Collins and Cassin acknowledged this, “Yes.” — “Yes.” The crew then set the flight director to hold airspeed and altitude.
At 00:47:43, Captain Collins said, “We might have to pop down to fifteen hundred here I think.” Cassin replied, “Yes, OK. . . Probably see further in anyway. . . It’s not too bad. . . I see vert speed for fifteen hundred feet.”
Flight Engineer Maloney said, “—It’s not right.” An unknown voice then said, “Bit thick here eh Bert?” Maloney replied, “Yeah my. . . . oath. . . (pause) You’re really a long while on . . . instruments this time are you?” Mulgrew then said, “I reckon Bird’s through here and—Ross Island there.” Maloney answered, “Yes,” and Mulgrew continued, “Erebus should be there.” Captain Collins says, “Right.” For the next forty seconds the crew discussed radio and navigation frequencies.
At 00:49:08, Mulgrew said, “That looks like the edge of Ross Island there.” Cassin attempted to contact McMurdo Tower. At 00:49:24, Maloney said, “I don’t like this.”
At 00:49:30, Captain Collins said, “We’re twenty-six miles north we’ll have to climb out of this.” Someone answered, “OK.” Cassin told Collins, “It’s clear on the right and (well) ahead.” Collins asked, “Is it?” Mulgrew said, “Yes.” Cassin, said, “No negative.” Cassin said, “No high ground if you do a one eighty.”
At 00:49:44 the airliner’s Ground Proximity Warning System is heard: WHOOP WHOOP—PULL UP—WHOOP WHOOP
At 00:49:50 GMT, ZK-NZP struck gradually rising terrain at an elevation of 1,467 feet (447 meters) above Sea Level, while flying at 260 knots (299 miles per hour/482 kilometers per hour). The DC-10 was totally destroyed and all 257 persons on board were instantly killed by the impact. The site of the crash was on the north slope of Mount Erebus, approximately 31 miles (50 kilometers) north of McMurdo Station, at Latitude 77˚25’30” South, Longitude 167˚27’30″East.
The intensive investigation of the accident showed that, based on the route briefing, the flight crew expected to be about 26 miles to the west. In fact, TE 901 had proceeded almost precisely along the planned track. Analysis of the navigation computer showed that its INS position was in error by just 3.1 nautical miles (3.6 miles/ 5.7 kilometers), well within its known tolerance. It was indicating almost the exact location of the flight, if anything, closer to Mount Erebus than it really was.
Much controversy ensued over who was at fault for the position error. Regardless of whether the flight was on the intended track, or on the erroneous track 25 miles west, the crew was fully aware that they were well north of McMurdo Station. Air New Zealand had established a minimum safe altitude of 16,000 feet (4,877 meters) until the flight was south of McMurdo.
3.37 Probable cause: The probable cause of this accident was the decision of the captain to continue the flight at low level toward an area of poor surface and horizon definition when the crew was not certain of their position and the subsequent inability to detect the rising terrain which intercepted the aircraft’s flight path.
—AIRCRAFT ACCIDENT REPORT No. 79-139, Transport Accident Investigation Commission (TAIC), New Zealand, Section 3.37 at Page 34.
ZK-NZP was a McDonnell Douglas DC-10-30, s/n 46910, built at the Douglas Aircraft Company’s Long Beach, California, plant during November 1974. It arrived in New Zealand 14 December 1974 for service with Air New Zealand Limited. The –30 was a long range variant of the DC-10 series. It is designed to be operated by a flight crew of three. It is 182 feet, 1 inch (55.499 meters) long with a wingspan of 165 feet, 5 inches (50.419 meters) and overall height of 58 feet, 1 inch (17.704 meters.) One of the original “wide body” jets, the cylindrical fuselage of the DC-10 has a diameter of 19 feet, 9 inches (6.020 meters).
The DC-10-30 was powered by three General Electric CF6-50C turbofan engines, rated at 51,000 pounds of thrust (226.86 kilonewtons) at Sea Level. The CF6-50 is a two-spool, high-bypass-ratio axial-flow turbofan engine. It has a single-stage fan section, with a 17-stage compressor (3 low- and 14 high-pressure stages, and a 6-stage turbine (2 high- and 4 low-pressure stages). The CF6-50C has a maximum diameter of 8 feet, 9.0 inches (2.667 meters), fan diameter of 7 feet, 2.4 inches (2.195 meters) and length of 15 feet, 8.0 inches (4.775 meters). It weighs 7,896 pounds (3,582 kilograms).
The DC-10-30 has an empty weight of 266,191 pounds (120,742 kilograms) and maximum takeoff weight of 572,000 pounds (259,455 kilograms). ZK-NZP, operating as Flight TE 901, had an “all-up weight” of 199,150 kilograms (439,051 pounds), and for the conditions of this flight, the MTOW was calculated to be 253,105 kilograms (558,001 pounds). It’s actual takeoff weight was 246,507 kilograms (543,455 pounds).
The typical cruise speed of the DC-10 is 0.82 Mach (556 miles per hour, or 895 kilometers per hour, at 30,000 feet/9,144 meters) and its service ceiling is 42,000 feet (12,802 meters). The DC-10-30 variant has a maximum range of 6,600 miles (10,622 kilometers).
At the time of the accident, ZK-NZP had flown 20,763 hours since new (TTSN).
28 November 1964, 14:22:01.309 UTC: Mariner 4, a space probe designed and built by the Jet Propulsion Laboratory (JPL), lifted off from Launch Complex 12 at the Cape Kennedy Air Force Station, Cape Kennedy, Florida. The two-stage launch vehicle consisted of an Atlas D, number 288, and an Agena D, number 6932.
The Mariner 4/Agena D separated from the first stage Atlas booster at 14:27:23 UTC. A 2 minute, 24 second burn placed the Mariner/Agena in an Earth orbit. At 15:02:53, a one minute, 35 second burn placed the vehicle into a Mars Transfer Orbit. Mariner 4 separated from the Agena D at 15:07:09 UTC. Mariner then went into cruise mode.
The mission of Mariner 4 was to “fly by” Mars to take photographic images and gather scientific data, then relay this to tracking stations on Earth. The spacecraft carried an imaging system, cosmic dust detector, cosmic-ray telescope, magnetometer, radiation detector, solar plasma probe and an occultation experiment.
Mariner 4 overall height, including the mast, was 289 centimeters. The body of the spacecraft had a width of 127 centimeters (4 feet, 2 inches) across the diagonal, and was 45.7 centimeters (1 foot, 6 inches high. 260.8 kilograms (118.3 pounds). Power was supplied by four solar panels, each 176 centimeters (5 feet, 9.3 inches) long and 90 centimeters (2 feet, 11.4 inches) wide. The panels had 28,224 individual solar cells capable of producing 310 watts at Mars.
The rocket, a “1-½ stage” liquid-fueled Atlas LV-3, number 228, was built by the Convair Division of General Dynamics at San Diego, California. It was developed from a U.S. Air Force SM-65 Atlas D intercontinental ballistic missile, modified for use as an orbital launch vehicle.
The LV-3 was 65 feet (19.812 meters) long from the base to the adapter section, and the tank section is 10 feet (3.038 meters) in diameter. The complete Atlas-Agena D orbital launch vehicle is 93 feet (28.436 meters) tall. When ready for launch it weighed approximately 260,000 pounds (117,934 kilograms).
The Atlas’ three engines were built by the Rocketdyne Division of North American Aviation, Inc., at Canoga Park, California. Two Rocketdyne LR89-NA-5 engines and one LR105-NA-5 produced 341,140 pounds (1,517.466 kilonewtons) of thrust. The rocket was fueled by a highly-refined kerosene, RP-1, with liquid oxygen as the oxidizer.
The second stage was an Agena D, built by Lockheed Missiles and Space Systems, Sunnyvale, California. The Agena D was 20 feet, 6 inches (6.299 meters) long and had a maximum diameter of 5 feet, 0 inches (1.524 meters). The single engine was a Bell Aerosystems Company LR81-BA-11, with 16,000 pounds of thrust (71.1 kilonewtons). It was also liquid fueled, but used a hypergolic mixture of nitric acid and UDMH. This engine was capable of being restarted in orbit.
Mariner 4 made its closest approach to Mars, 9,846 kilometers (6,118 miles) on 15 July 1965. The final contact with the probe occurred on 21 December 1967.
27 November 1957: “Four U.S. Air Force pilots of the 363rd Tactical Reconnaissance Wing successfully completed Operation Sun Run by establishing three new transcontinental speed records in a McDonnell RF-101C aircraft. The record-breaking mission showcased the speed and range of the RF-101C, an improved version of the first supersonic photo reconnaissance aircraft, the RF-101A.
“Operation Sun Run called for six RF-101C aircraft — two to fly round-trip from Los Angeles to New York and back again, two for the one-way flight from Los Angeles to New York, and two for backups if problems arose with the four primary aircraft. The undertaking required massive coordination of aircraft crews and radar and weather stations from coast to coast.
“Six pilots of the 17th and 18th Tactical Reconnaissance Squadrons of the 363rd Tactical Reconnaissance Wing were chosen for Operation Sun Run. Each prepared for the round-trip flight, since they would not know which flight they were assigned until a few days before the operation. All six pilots had extensive experience in photo reconnaissance aircraft, although the RF-101 was relatively new to Tactical Air Command.
“The success of Operation Sun Run also depended on the performance of the newly available KC-135 Stratotanker, the USAF’s first jet tanker. The KC-135’s speed allowed the RF-101s to refuel at an altitude of 35,000 feet and a speed of Mach 0.8. Crews from Strategic Air Command and Air Force Research and Development Command prepared for the 26 refuelings the Operation Sun Run RF-101Cs would require.
“At 6:59 a.m., 27 November 1957, Capt. Ray Schrecengost took off from Ontario International Airport near Los Angeles on the first RF-101C round-trip flight of Operation Sun Run. Next into the air were Capt. Robert Kilpatrick on his one-way flight and Capt. Donald Hawkins, flying back-up. Capt. Hawkins followed until the first refueling was complete, and then flew to March Air Force Base, Calif. At 7:50 a.m., Capt. Robert Sweet took off on the second round-trip flight. Lt. Gustav Klatt followed, beginning his one-way trip. Their backup, Capt. Robert Burkhart, also flew to March Air Force Base after the first successful refueling.
“All four RF-101C pilots easily surpassed the previous speed records and established new ones. The new Los Angeles to New York record was established by Lt. Klatt, at 3 hours, 7 minutes and 43.63 seconds. Capt. Sweet set the round-trip record, at a time of 6 hours, 46 minutes and 36.21 seconds, and the New York to Los Angeles record, at a time of 3 hours, 36 minutes and 32.33 seconds.”
—Fact Sheets: Operation Sun Run, National Museum of the United States Air Force
The McDonnell RF-101C Voodoo was an unarmed reconnaissance variant of the F-101C fighter. It was 69 feet, 4 inches (21.133 meters) long with a wingspan of 39 feet, 8 inches (12.090 meters). The height was 18 feet (5.486 meters). Empty weight for the RF-101C was 26,136 pounds (11,855 kilograms), with a maximum takeoff weight of 51,000 pounds (23,133 kilograms).
The RF-101C was powered by two Pratt & Whitney J57-P-13 turbojet engines. The J57 was a two-spool axial-flow turbojet which had a 16-stage compressor (9 low- and 7 high-pressure stages), and a 3-stage turbine (1 high- and 2 low-pressure stages). The J57-P-13 maximum continuous power rating of 8,700 pounds of thrust (38.70 kilonewtons); military power, 10,200 pounds (45.37 kilonewtons) (30-minute limit); and 15,000 pounds (66.72 kilonewtons) with afterburner (5 minute limit). The -P-13 was 3 feet, 4.3 inches (1.024 meters) in diameter, 17 feet, 7.0 inches (5.359 meters) long, and weighed 5,025 pounds (2,279 kilograms).
The aircraft had a maximum speed of 879 knots (1,012 miles per hour/1,629 kilometers per hour) at 35,000 feet (10,668 meters)—Mach 1.53. The service ceiling was 49,600 feet (15,118 meters). The Voodoo could carry up to three drop tanks, giving a total fuel capacity of 3,150 gallons (11,294 liters) and a maximum range of 1,864 nautical miles (2,145 statute miles/3,452 kilometers).
The RF-101C was unarmed. It carried six cameras in its nose. Two Fairchild KA-1s were aimed downward, with four KA-2s facing forward, down and to each side.
Beginning in 1954, McDonnell Aircraft Corporation built 807 F-101 Voodoos. 166 of these were the RF-101C variant. This was the only F-101 Voodoo variant to be used in combat during the Vietnam War. The RF-101C remained in service with the U.S. Air Force until 1979.
A McDonnell Aircraft Corporation film about Operations Sun Run and Fire Wall is available on YouTube:
27 November 1933: The United States Army Air Corps accepted the Glenn L. Martin Company’s first service test YB-10 bomber, serial number 33-140. This was the first all-metal monoplane bomber with an internal bomb bay, retractable landing gear, rotating gun turret and enclosed cockpit. It flew faster than pursuit aircraft of the day.
There had been a single prototype, the Martin Model 123. It was powered by two Wright R-1820-19 engines rated at 600 horsepower, each. This was designated XB-907 by the U.S. Army Air Corps when tested at Wright Field in 1932. Recommendations for modifications were made, and Martin upgraded the prototype to the XB-907A configuration, which was then designated XB-10 by the Air Corps. The Army then ordered 48 production airplanes.
The first group of 14 airplanes were designated YB-10. The YB-10 (Martin Model 139) had enclosed canopies for the pilot and top gunner, and a nose turret. The crew consisted of a pilot, radio operator and three gunners.
These airplanes were powered by two air-cooled, supercharged, 1,823.129-cubic-inch-displacement (29.876 liter) Wright Cyclone SGR-1820-F2 (R-1820-25) 9-cylinder radial engines with a compression ratio of 6.4:1, which were rated at 750 horsepower at 1,950 r.p.m. at Sea Level. The engines turned three-bladed Hamilton Standard adjustable-pitch propellers through a 16:11 gear reduction. The R-1820-25 was 3 feet, 11–13/16 inches (1.214 meters) long, 4 feet, 5-¾ inches (1.365 meters) in diameter, and weighed 1,047 pounds (475 kilograms).
The bomber could carry two 1,130 pound (513 kilogram) bombs, or five 300 pound (136 kilogram) bombs in its internal bomb bay. Alternatively, a 2,000 pound (907 kilogram) bomb could be carried externally. There were three .30-caliber (7.62 mm) Browning M1919 machine guns for defense.
The first full scale production version was the B-10B, which was very similar to the service test YB-10s. These airplanes were 44 feet, 9 inches (13.640 meters) long with a wingspan of 70 feet, 6 inches (21.488 meters) and height of 15 feet, 5 inches (4.670 meters). The B-10B had an empty weight of 9,681 pounds (4,391 kilograms).
The engines installed in this variant were Wright Cyclone SGR-1820-F3 (R-1820-33), rated at 700 horsepower at 1,950 r.p.m. at Sea Level. Dimensions, weight and propeller gear reduction for this engine are the same as the R-1820-25, above.
The B-10B had a cruising speed of 193 miles per hour (311 kilometers per hour), and maximum speed of 213 miles per hour (343 kilometers per hour) at 10,000 feet (3,048 meters).
33-140 was converted to a B-10M for towing aerial targets and was assigned to the Tow Target Detachment at March Field, Riverside, California. Piloted by Robert E. Phillips, 33-140 was damaged in a taxiing accident, 8 April 1942.