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Northrop T-38 Talon

January 01, 1970

The Northrop T-38 Talon is a two-seat, twinjet supersonic jet trainer designed and produced by the American aircraft manufacturer Northrop Corporation. It was the world's first supersonic trainer as well as the most produced.

T-38 Talon
A T-38A from Edwards Air Force Base
Role Advanced trainer
National origin United States
Manufacturer Northrop Corporation
First flight 10 April 1959
Introduction 17 March 1961
Status Operational
Primary users United States Air Force
United States Navy
NASA
Turkish Air Force
Produced 1961–1972
Number built 1,189
Developed from Northrop N-156
Variants Northrop F-5

The T-38 can be traced back to 1952 and Northrop's N-102 Fang and N-156 fighter aircraft projects. During the mid-1950s, Northrop officials decided to adapt the N-156 to suit a recently issued general operating requirement by the United States Air Force (USAF) for a supersonic trainer to replace the Lockheed T-33. The bid was successful, in no small part on its lower lifecycle cost comparisons to competing aircraft, and the company received an initial order to build three prototypes. The first of these, designated YT-38, made its maiden flight on 10 April 1959. The T-38 was introduced to USAF service on 17 March 1961.

The USAF is the largest operator of the T-38. Additional operators of the T-38 include NASA and the United States Navy. U.S. Naval Test Pilot School in Patuxent River, Maryland, is the principal US Navy operator. Other T-38s were previously used by the US Navy for dissimilar air combat training until replaced by the similar Northrop F-5 Tiger II. Pilots of other NATO nations have commonly flown the T-38 during joint training programs with American pilots.[1] The T-38 remains in service as of 2023 with several air forces. As of 2023, the T-38 has been in service for over 60 years with the USAF, its original operator. In September 2018, USAF announced the replacement of the Talon by the Boeing–Saab T-7 Red Hawk with phaseout to begin in 2023.[2]

Development edit

 
A T-38C assigned to the 416th Flight Test Squadron, 412th Test Wing, Air Force Test Center, flies over the Mojave desert near Edwards AFB, California
 
Air-to-air right side view of a USAF T-38 Talon aircraft from 560th Flying Training Squadron, Randolph AFB, Texas as his lead performs a left pitchout
 
A T-38C cockpit
 
Two T-38 chase planes follow Space Shuttle Columbia as it lands at Northrop Strip in White Sands, New Mexico, ending its mission STS-3.
 
NASA Dryden's T-38 in flight over Cuddeback Dry Lake in Southern California
 
Picture of the formation leader, taken from the backseat of a T38C, of the 479th Fighter Training Group, Moody AFB, Georgia, 2006
 
A T-38 in Portuguese Air Force colours at Air Base No. 11 (BA11 – Beja)
 
U.S. Air Force 25th Flying Training Squadron instructor pilot and his student walk to a T-38A to begin flight training at Vance Air Force Base, Oklahoma, November 1997.
 
An X-15 in flight attached to a B-52 mother ship, with a T-38 chase plane, 1961
 
A T-38 takes off from Edwards Air Force Base with only one engine during single-engine takeoff testing, to evaluate recommended speeds for takeoff if an engine fails.

In 1952, Northrop began work on a fighter project, the N-102 Fang, with shoulder-mounted delta wing and a single engine.[3] The proposed General Electric J79 engine, weighing nearly two tons, meant the resulting aircraft would be large and expensive.[4][5] During 1953, representatives from General Electric Aviation's newly created Small Aircraft Engine Department showed Northrop a relatively compact engine, around 400 lb installed weight, capable of 2,500 lb of thrust. Upon seeing the engine, Northrop VP-Engineering Edgar Schmued saw the possibility of reversing the trend toward the large fighters.[5]

Schmued and chief engineer Welko Gasich decided on a small, twin-engined "hot-rod" fighter, the N-156. Northrop launched its N-156 project in 1954, aiming for a small, supersonic fighter jet capable of operating from the US Navy's escort carriers.[5] When the Navy chose not to pursue equipping its fleets in such a fashion, favoring large fleet carriers instead, Northrop opted to continue work on the N-156 using in-house funding. It was instead recast as a lightweight fighter, referred to as the N-156F, that was primarily aimed at the export market.[5]

In the mid-1950s, the USAF issued a general operating requirement for a supersonic trainer, seeking to retire its 1940s-era Lockheed T-33s for an aircraft better suited to training pilots to fly its high speed fighter aircraft.[5] Northrop officials decided to adapt the N-156 to this competition. The only other candidate was the two-seat version of the North American F-100 Super Sabre. Although the F-100 was not considered the ideal candidate for a training aircraft (it is not capable of recovering from a spin),[6] NAA was still considered the favorite in the competition due to that company's favored-contractor status with the USAF, but Northrop officials presented lifecycle cost comparisons that proved to be highly persuasive amongst USAF officials.[7] Accordingly, Northrop was awarded an initial contract in June 1956 to produce three prototypes, designated YT-38.[7]

On 10 April 1959, the first YT-38 performed its maiden flight at the hands of test pilot Lew Nelson.[7][8]

The type was quickly adopted. The first production examples were delivered in 1961, entering service on 17 March 1961, complementing the Cessna T-37 Tweet primary jet trainer. When production ended in 1972, 1,187 T-38s had been built, plus two N-156T prototypes. Since its introduction, an estimated 50,000 military pilots have trained on this aircraft. The USAF remains one of the few armed flying forces using dedicated supersonic final trainers, as most, such as the US Navy, use high-subsonic trainers.[9]

During 1962, the T-38 set absolute time-to-climb records for 3,000, 6,000, 9,000, and 12,000 meters, beating the records for those altitudes set by the F-104 in December 1958. The F-4 Phantom beat the T-38's records less than a month later.

The majority of T-38s built were of the T-38A variant. The USAF had a small number of aircraft converted for weapons training, designated AT-38B, which were fitted with a gunsight and could carry a gun pod, rockets, or bombs on a centerline pylon. By the end of September 2017, 503 T-38s were still operational with the USAF,[10] while many more remained in operation around the world.

Most of the USAF's aircraft, T-38A and AT-38B, have been converted to the T-38C through an avionics upgrade program. Improvements include the addition of a head-up display, global satellite positioning, inertial navigation system, and traffic collision avoidance system. Most aircraft have received a propulsion modification to improve low-altitude engine thrust. Around a third of the fleet, those that experience more severe usage, are currently undergoing structural replacements and upgrades, as well as receiving new wings, to extend their service life to 2029.[11]

The fighter version of the N-156 was selected for the US Military Assistance Program and produced as the F-5 Freedom Fighter. Many of these have since reverted to a weapons-training role, as various air forces have introduced newer types into service. The F-5G was an advanced single-engined variant later renamed the F-20 Tigershark. In 2018, the Iranian Air Force announced that an outwardly similar aircraft, named the Kowsar, had been constructed within Iran.[12][13][14]

Design edit

The Northrop T-38 Talon is of a conventional configuration, with a small, low-mounted, long-chord wing, a single vertical stabilizer, and tricycle undercarriage. The cockpit accommodates a student pilot and instructor in a tandem seating arrangement. The flight controls were hydraulically-powered and lacked manual reversion, and thus the aircraft would be unflyable in the event of both engines failing mid-flight.[7]

Its handling was relatively conventional and viceless. While it was originally considered to be too easy to fly compared with frontline fighters of the 1960s, by the twenty-first century, it had become regarded as the most challenging aircraft in the USAF's inventory.[15] The aircraft's nimble performance earned it the nickname "white rocket". It had been considered by trainee pilots to be a somewhat unforgiving aircraft from an aerodynamic standpoint.[16]

The T-38 can be visually distinguished from both the F-5B and F-5F, which are also derived from the N-156, by the wings. The wing of the T-38 meets the fuselage straight and ends square, while the F-5 has leading edge extensions near the wing roots and wingtip launch rails for air-to-air missiles. The wings of both the T-38 and the F-5 family use conventional skin over spar-rib structure.[17] The T-38's wings were originally designed to withstand 7.33-G loads and for a fatigue life of 4,000 flight hours. This proved sufficient for the majority of the training syllabus, but was a major limiting factor when the aircraft was used for aggressive dogfighting-style maneuvering. Incidents of wing tips separating mid-flight were reported. Northrop resolved this via the installation of new wings with thickened skins.[11]

Throughout the development process, a strict weight control regime was exercised by the design team.[7] This was one reason for the T-38's relative simplicity; only basic systems for navigation and communication were provided. No fuel was housed within the wings while no provision for external stores was made.[7] The aircraft's twin General Electric J85-5A turbojet engines were accommodated within the fuselage to exert less drag and produce fewer aerodynamic disturbances. The J85-5A engine, despite generating up to 3,850 lb of static thrust, was relatively compact and lightweight for the era, weighing less than 600 pounds.[5] Air was supplied to the engines via intakes at the wing roots. A twin-engine arrangement had been pursued to provide a greater margin of safety.[7]

Various design decisions were taken and features were incorporated to simplify the T-38 and make it as easy to maintain as possible.[7] To avoid removing the vertical fin while changing an engine, the fin was attached directly to the keel structure between the engines, and instead detaching the horizontal stabilizer along with the entire aft shell of the fuselage that surrounds the engines, which could be removed relatively easily via undoing several fasteners that hold the fuselage shell together and disconnecting two push rods that connect the pilot's control stick to the horizontal stabilizer's hydraulic actuators.[7]

To avoid having to break and reconnect multiple hydraulic lines during an engine swap, designers mounted the hydraulic pump and other accessory drives on the fuselage which joined to the engine by a short driveshaft. Several internal check valves prevented a loss of hydraulic fluid.[7] The engines hung from rails on either side of the central keel. This design enabled ground crews to remove and replace an engine in roughly one hour.[7]

Operational history edit

Military edit

The USAF Strategic Air Command (SAC) had T-38s in service from 1978 until SAC's 1991 inactivation. These aircraft were used to enhance the career development of bomber and tanker copilots through the Accelerated Copilot Enrichment Program. They were later used as proficiency aircraft for all B-52, B-1, Lockheed SR-71, U-2, Boeing KC-135, and KC-10 pilots. SAC's successors, the Air Combat Command (ACC) and the Air Force Global Strike Command (AFGSC) retain T-38s as proficiency aircraft for U-2 pilots and B-2 pilots, respectively.[9]

The Air Training Command's successor, the Air Education and Training Command (AETC), uses the T-38C to prepare pilots for the F-15C Eagle and F-15E Strike Eagle, the F-16 Fighting Falcon, B-52 Stratofortress, B-1B Lancer, B-2 Spirit, A-10 Thunderbolt, F-22 Raptor, and F-35 Lightning II. The AETC received T-38Cs in 2001 as part of the Avionics Upgrade Program. The T-38Cs owned by the AETC have undergone propulsion modernization, which replaces major engine components to enhance reliability and maintainability, and an engine inlet/injector modification to increase available takeoff thrust.[9] These upgrades and modifications, with the Pacer Classic program, were to extend the service life of T-38s past 2020. The T-38 has an availability goal of 75%, which it maintained in 2011. In 2015, its availability was 60%.[18]

After graduating from basic flying on the Cessna T-37 Tweet, pilots were trained on more advanced aspects, including supersonic flight, blind flying, formation flight, handling stalls, single-engine flight procedures, low speed flight, and landing techniques.[16] Prior to the USAF ceasing the practice of trainees flying within icy conditions, the T-38's engines were prone to being damaged by ingesting ice. The relatively small engine intakes are also known to be problematic when flown at low speeds under 'hot and high' conditions.[19]

The landing gear's brakes have been criticised for being relatively weak, one of several factors that necessitates care while landing. Several incidents, including fatalities, have occurred due to imprecise management of the throttles and air speed during landing attempts.[19] Despite these factors, the T-38 has been regarded as a relatively safe trainer aircraft even into the twenty-first century. Between 1961 and 2005, the fleet has cumulatively flown 25 million hours, during which 150 of the 1,187 T-38s built between 1961 and 1972 were recorded as lost, resulting in 45 deaths.[11]

Besides the USAF and the USN, other military operators of the T-38 have included the German Air Force, the Portuguese Air Force, the Republic of China Air Force, and the Turkish Air Force.[9]

During late 2010, the USAF launched the T-X program to procure a replacement for its T-38s.[20] Bidders included a joint venture of BAE Systems and Rolls-Royce, offering the Hawk trainer, equipped with Rolls' Adour Mk951 engine with FADEC. Lockheed Martin and Korea Aerospace Industries, offered the T-50. Raytheon and Alenia Aermacchi offered the T-100, an aircraft whose design originated with the M-346.[21]

Boeing and Saab offered a new-technology design powered by the General Electric F404 turbofan engine. The Boeing/Saab bid first flew in December 2016. It was declared the winner of the T-X competition in September 2018.[22]

NASA edit

NASA operates a fleet of 32 T-38 trainers.[23] The fleet is typically used to train its astronauts and as a chase plane. NASA's fleet is housed primarily at Ellington Field in Houston, Texas. NASA's internal projections showed the number of operational jet trainers falling to 16 by 2015. The agency spends $25–30 million annually to fly and maintain the T-38s.[24]

During the Space Shuttle era, an established NASA tradition was for astronauts to arrive at the Kennedy Space Center in T-38 Talons.[25]

Civil edit

Seven privately owned T-38s are in the U.S.[23] Boeing owns two T-38s, which are used as chase planes.[23] Thornton Corporation owns two T-38s, and the National Test Pilot School owns one T-38.[23] Two others are in private ownership.[23]

Variants edit

 
US Navy DT-38A at United States Navy Fighter Weapons School "Top Gun", 1974
  • N-156T: Northrop company designation.
  • YT-38: Prototypes, two built with YJ85-GE-1 engines, later designated YT-38A and four pre-production aircraft with YJ-85-GE-5 engines, later designated T-38A.[26]
  • T-38A: Two-seat advanced training aircraft, production model, 1,139 built.[26]
  • T-38A(N): Two-seat astronaut training version for NASA. See T-38N below.
  • DT-38A: A number of US Navy T-38As were converted into drone directors.
  • GT-38A: Permanently grounded aircraft, often due to flight or ground mishap, converted into ground procedural trainers or aircraft maintenance trainers.
  • NT-38A: A small number of T-38As were converted into research and test aircraft.
  • QT-38A: Unmanned target drone aircraft.
  • AT-38B: Two-seat weapons training aircraft.
  • T-38C: A T-38A with structural and avionics upgrades.[9]
  • T-38M: Modernized Turkish Air Force T-38As with full glass cockpit and avionics, upgraded by Turkish Aerospace Industries under the project codename "ARI" (Turkish: Arı, for Bee).[27]
  • T-38N: Former USAF T-38As bailed to NASA and T-38As directly assigned to NASA that received an Avionics Upgrade Program (AUP), modernizing communications and navigation systems, replacing outdated avionics, and adding a weather radar, flight management system, altitude alert systems, and modern controls and displays.[28]
  • ST-38 or N-205: A proposal to be fitted with 3 rocket engines in the 10,000lb thrust range burning hydrogen peroxide and JP-5, capable of Mach 3.2 and a maximum altitude of 200,000 feet (61,000 m) and only requiring modification to 25% of the airframe. It was to be used for training astronauts as part of the ARPS (Aerospace Research Flight School). It was first proposed in May 1958 and then again in 1963, however the Air Force showed no interest and instead selected the NF-104A .[29][30]
  • T-38 VTOL Proposed vertical takeoff variant with four lift nozzles behind the pilot.[31]

Operators edit

 
A T-38 Talon in Thunderbirds livery at the Alliance Air Show, 2014
 
A T-38 Talon at the Fort Worth Alliance Air Show, 2019

Current edit

  Germany
  • German Air Force – 46 T-38A in 1968, now upgraded to T-38C. All aircraft are stationed at Sheppard AFB, Texas and are painted in US markings.[32]
  Turkey
  United States

Former edit

  Portugal
  Republic of Korea
  Taiwan (Republic of China)

Accidents and incidents edit

More than 210 aircraft losses and ejections have been documented over the lifetime of the T-38.[39] The USAF has recorded 149 fatalities since operations began in 1960.[40]

  • February 1962 – The first crash of a T-38 occurred, near Webb AFB, Texas. One pilot was killed.[citation needed]
  • 31 October 1964 – Astronaut Theodore Freeman was killed as a result of a bird strike on a NASA operated T-38.[41][42]
  • 28 February 1966 (1966 NASA T-38 crash) – Astronauts Elliot See and Charles Bassett were killed when they struck a building in fog.[43][44]
  • 5 October 1967 – Astronaut Clifton "C.C." Williams was killed in a crash of a NASA operated T-38 due to an aileron jam.[45][46]
  • 18 January 1982 – Diamond Crash – Four T-38As of the U.S. Air Force Thunderbirds crashed while practicing for an airshow. After this crash, the T-38 was replaced in this role by the front line F-16A Fighting Falcon.
  • 21 May 2009 – One pilot was killed and the other ejected with serious injuries after a rudder malfunction caused the crash of a USAF T38A.[47]
  • 19 July 2013 – The plane went down south of Sheppard Air Force Base at approximately 6:48 a.m., near Pecanway Drive and Horton Lane in Wichita County and the pilots ejected safely with minor injuries.
  • 21 November 2019 – Two pilots killed during a collision while landing.[48]
  • 19 February 2021 – The two-person USAF crew of a T-38 was killed in a landing crash near Montgomery Regional Airport in Alabama. The aircraft was assigned to the USAF 14th Flying Training Wing at Columbus AFB, Mississippi. The crash was later attributed to pilot error.[49]
  • 19 November 2021 – Two aircraft collided on approach to Laughlin Air Force base, resulting in the death of one student.[50]
  • 7 November 2022 – A T-38C crashed near Columbus AFB, Mississippi, with one pilot safely ejecting.[51]

Aircraft on display edit

 
A T-38 Talon on display at the Frontiers of Flight Museum
 
A T-38 Talon on display at the Kennedy Space Center Visitor Complex
 
T-38 Serial Numbers 60–0573, 60–0589, and 61–0828 at Owatonna Degner Regional Airport, Minnesota
YT-38A
T-38A
GT-38A
AT-38B
T-38N

Specifications (T-38A) edit

 

Data from This Day In Aviation[84]

General characteristics

  • Crew: 2
  • Length: 46 ft 4.5 in (14.135 m)
  • Wingspan: 25 ft 3 in (7.70 m)
  • Height: 12 ft 10.5 in (3.924 m)
  • Wing area: 170 sq ft (16 m2)
  • Empty weight: 7,200 lb (3,266 kg)
  • Gross weight: 11,820 lb (5,361 kg)
  • Max takeoff weight: 12,093 lb (5,485 kg)
  • Powerplant: 2 × General Electric J85-5A afterburning turbojet engines, 2,680 lbf (11.9 kN) thrust each dry, 3,850 lbf (17.1 kN) with afterburner

Performance

  • Maximum speed: 746 kn (858 mph, 1,382 km/h)
  • Maximum speed: Mach 1.3
  • Range: 991 nmi (1,140 mi, 1,835 km)
  • Service ceiling: 50,000 ft (15,000 m)
  • Rate of climb: 33,600 ft/min (171 m/s) [85]
  • Wing loading: 69.53 lb/sq ft (339.5 kg/m2)
  • Thrust/weight: 0.65

See also edit

Related development

Related lists

References edit

Citations edit

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  83. ^ "T-38N N968NA". stanakshot.free.fr. 2014-11-02.
  84. ^ Cite error: The named reference https://www.thisdayinaviation.com/tag/general-electric-j85-ge-5/ was invoked but never defined (see the help page).
  85. ^ Even though this value has been printed in USAF outlets for many years, it is probably incorrect. The T-38 time-to-climb record, set in 1962, was three minutes to 30,000 feet. According to Northrop's Roy Martin (quoted on p. 64 of Air & Space/Smithsonian, Vol. 20, No. 3 (August/September 2005)), a normal climb at military power – that is, maximum power without afterburner – is around 6,000 feet/minute.

Bibliography edit

  • Andrade, John (1979). U.S. Military Aircraft Designations and Serials since 1909. Midland Counties Publications. ISBN 0-904597-22-9.
  • Eden, Paul, ed. (2004). Northrop F-5 family Encyclopedia of Modern Military Aircraft. London, UK: Amber Books. ISBN 1-904687-84-9.
  • Garrison, Peter (August–September 2005). White Rocket. Vol. 20. Air & Space/Smithsonian Magazine. pp. 58–65.
  • Johnsen, Frederick A. (2006). Northrop F-5/F-20/T-38. North Branch, Minnesota: Specialty Press. ISBN 1-58007-094-9.
  • Shaw, Robbie (1990). F-5: Warplane for the World. Osceola, WI: Motorbooks International. ISBN 9780879384876. OCLC 22344704.

External links edit

 
Wikimedia Commons has media related to Northrop T-38 Talon.
  • T-38 Talon page on SR-71.org

January 01, 1970
northrop, talon, seat, twinjet, supersonic, trainer, designed, produced, american, aircraft, manufacturer, northrop, corporation, world, first, supersonic, trainer, well, most, produced, talon, from, edwards, force, base, role, advanced, trainer, national, ori. The Northrop T 38 Talon is a two seat twinjet supersonic jet trainer designed and produced by the American aircraft manufacturer Northrop Corporation It was the world s first supersonic trainer as well as the most produced T 38 Talon A T 38A from Edwards Air Force Base Role Advanced trainer National origin United States Manufacturer Northrop Corporation First flight 10 April 1959 Introduction 17 March 1961 Status Operational Primary users United States Air ForceUnited States Navy NASA Turkish Air Force Produced 1961 1972 Number built 1 189 Developed from Northrop N 156 Variants Northrop F 5 The T 38 can be traced back to 1952 and Northrop s N 102 Fang and N 156 fighter aircraft projects During the mid 1950s Northrop officials decided to adapt the N 156 to suit a recently issued general operating requirement by the United States Air Force USAF for a supersonic trainer to replace the Lockheed T 33 The bid was successful in no small part on its lower lifecycle cost comparisons to competing aircraft and the company received an initial order to build three prototypes The first of these designated YT 38 made its maiden flight on 10 April 1959 The T 38 was introduced to USAF service on 17 March 1961 The USAF is the largest operator of the T 38 Additional operators of the T 38 include NASA and the United States Navy U S Naval Test Pilot School in Patuxent River Maryland is the principal US Navy operator Other T 38s were previously used by the US Navy for dissimilar air combat training until replaced by the similar Northrop F 5 Tiger II Pilots of other NATO nations have commonly flown the T 38 during joint training programs with American pilots 1 The T 38 remains in service as of 2023 update with several air forces As of 2023 update the T 38 has been in service for over 60 years with the USAF its original operator In September 2018 USAF announced the replacement of the Talon by the Boeing Saab T 7 Red Hawk with phaseout to begin in 2023 2 Contents 1 Development 2 Design 3 Operational history 3 1 Military 3 2 NASA 3 3 Civil 4 Variants 5 Operators 5 1 Current 5 2 Former 6 Accidents and incidents 7 Aircraft on display 8 Specifications T 38A 9 See also 10 References 10 1 Citations 10 2 Bibliography 11 External linksDevelopment edit nbsp A T 38C assigned to the 416th Flight Test Squadron 412th Test Wing Air Force Test Center flies over the Mojave desert near Edwards AFB California nbsp Air to air right side view of a USAF T 38 Talon aircraft from 560th Flying Training Squadron Randolph AFB Texas as his lead performs a left pitchout nbsp A T 38C cockpit nbsp Two T 38 chase planes follow Space Shuttle Columbia as it lands at Northrop Strip in White Sands New Mexico ending its mission STS 3 nbsp NASA Dryden s T 38 in flight over Cuddeback Dry Lake in Southern California nbsp Picture of the formation leader taken from the backseat of a T38C of the 479th Fighter Training Group Moody AFB Georgia 2006 nbsp A T 38 in Portuguese Air Force colours at Air Base No 11 BA11 Beja nbsp U S Air Force 25th Flying Training Squadron instructor pilot and his student walk to a T 38A to begin flight training at Vance Air Force Base Oklahoma November 1997 nbsp An X 15 in flight attached to a B 52 mother ship with a T 38 chase plane 1961 nbsp A T 38 takes off from Edwards Air Force Base with only one engine during single engine takeoff testing to evaluate recommended speeds for takeoff if an engine fails In 1952 Northrop began work on a fighter project the N 102 Fang with shoulder mounted delta wing and a single engine 3 The proposed General Electric J79 engine weighing nearly two tons meant the resulting aircraft would be large and expensive 4 5 During 1953 representatives from General Electric Aviation s newly created Small Aircraft Engine Department showed Northrop a relatively compact engine around 400 lb installed weight capable of 2 500 lb of thrust Upon seeing the engine Northrop VP Engineering Edgar Schmued saw the possibility of reversing the trend toward the large fighters 5 Schmued and chief engineer Welko Gasich decided on a small twin engined hot rod fighter the N 156 Northrop launched its N 156 project in 1954 aiming for a small supersonic fighter jet capable of operating from the US Navy s escort carriers 5 When the Navy chose not to pursue equipping its fleets in such a fashion favoring large fleet carriers instead Northrop opted to continue work on the N 156 using in house funding It was instead recast as a lightweight fighter referred to as the N 156F that was primarily aimed at the export market 5 In the mid 1950s the USAF issued a general operating requirement for a supersonic trainer seeking to retire its 1940s era Lockheed T 33s for an aircraft better suited to training pilots to fly its high speed fighter aircraft 5 Northrop officials decided to adapt the N 156 to this competition The only other candidate was the two seat version of the North American F 100 Super Sabre Although the F 100 was not considered the ideal candidate for a training aircraft it is not capable of recovering from a spin 6 NAA was still considered the favorite in the competition due to that company s favored contractor status with the USAF but Northrop officials presented lifecycle cost comparisons that proved to be highly persuasive amongst USAF officials 7 Accordingly Northrop was awarded an initial contract in June 1956 to produce three prototypes designated YT 38 7 On 10 April 1959 the first YT 38 performed its maiden flight at the hands of test pilot Lew Nelson 7 8 The type was quickly adopted The first production examples were delivered in 1961 entering service on 17 March 1961 complementing the Cessna T 37 Tweet primary jet trainer When production ended in 1972 1 187 T 38s had been built plus two N 156T prototypes Since its introduction an estimated 50 000 military pilots have trained on this aircraft The USAF remains one of the few armed flying forces using dedicated supersonic final trainers as most such as the US Navy use high subsonic trainers 9 During 1962 the T 38 set absolute time to climb records for 3 000 6 000 9 000 and 12 000 meters beating the records for those altitudes set by the F 104 in December 1958 The F 4 Phantom beat the T 38 s records less than a month later The majority of T 38s built were of the T 38A variant The USAF had a small number of aircraft converted for weapons training designated AT 38B which were fitted with a gunsight and could carry a gun pod rockets or bombs on a centerline pylon By the end of September 2017 503 T 38s were still operational with the USAF 10 while many more remained in operation around the world Most of the USAF s aircraft T 38A and AT 38B have been converted to the T 38C through an avionics upgrade program Improvements include the addition of a head up display global satellite positioning inertial navigation system and traffic collision avoidance system Most aircraft have received a propulsion modification to improve low altitude engine thrust Around a third of the fleet those that experience more severe usage are currently undergoing structural replacements and upgrades as well as receiving new wings to extend their service life to 2029 11 The fighter version of the N 156 was selected for the US Military Assistance Program and produced as the F 5 Freedom Fighter Many of these have since reverted to a weapons training role as various air forces have introduced newer types into service The F 5G was an advanced single engined variant later renamed the F 20 Tigershark In 2018 the Iranian Air Force announced that an outwardly similar aircraft named the Kowsar had been constructed within Iran 12 13 14 Design editThe Northrop T 38 Talon is of a conventional configuration with a small low mounted long chord wing a single vertical stabilizer and tricycle undercarriage The cockpit accommodates a student pilot and instructor in a tandem seating arrangement The flight controls were hydraulically powered and lacked manual reversion and thus the aircraft would be unflyable in the event of both engines failing mid flight 7 Its handling was relatively conventional and viceless While it was originally considered to be too easy to fly compared with frontline fighters of the 1960s by the twenty first century it had become regarded as the most challenging aircraft in the USAF s inventory 15 The aircraft s nimble performance earned it the nickname white rocket It had been considered by trainee pilots to be a somewhat unforgiving aircraft from an aerodynamic standpoint 16 The T 38 can be visually distinguished from both the F 5B and F 5F which are also derived from the N 156 by the wings The wing of the T 38 meets the fuselage straight and ends square while the F 5 has leading edge extensions near the wing roots and wingtip launch rails for air to air missiles The wings of both the T 38 and the F 5 family use conventional skin over spar rib structure 17 The T 38 s wings were originally designed to withstand 7 33 G loads and for a fatigue life of 4 000 flight hours This proved sufficient for the majority of the training syllabus but was a major limiting factor when the aircraft was used for aggressive dogfighting style maneuvering Incidents of wing tips separating mid flight were reported Northrop resolved this via the installation of new wings with thickened skins 11 Throughout the development process a strict weight control regime was exercised by the design team 7 This was one reason for the T 38 s relative simplicity only basic systems for navigation and communication were provided No fuel was housed within the wings while no provision for external stores was made 7 The aircraft s twin General Electric J85 5A turbojet engines were accommodated within the fuselage to exert less drag and produce fewer aerodynamic disturbances The J85 5A engine despite generating up to 3 850 lb of static thrust was relatively compact and lightweight for the era weighing less than 600 pounds 5 Air was supplied to the engines via intakes at the wing roots A twin engine arrangement had been pursued to provide a greater margin of safety 7 Various design decisions were taken and features were incorporated to simplify the T 38 and make it as easy to maintain as possible 7 To avoid removing the vertical fin while changing an engine the fin was attached directly to the keel structure between the engines and instead detaching the horizontal stabilizer along with the entire aft shell of the fuselage that surrounds the engines which could be removed relatively easily via undoing several fasteners that hold the fuselage shell together and disconnecting two push rods that connect the pilot s control stick to the horizontal stabilizer s hydraulic actuators 7 To avoid having to break and reconnect multiple hydraulic lines during an engine swap designers mounted the hydraulic pump and other accessory drives on the fuselage which joined to the engine by a short driveshaft Several internal check valves prevented a loss of hydraulic fluid 7 The engines hung from rails on either side of the central keel This design enabled ground crews to remove and replace an engine in roughly one hour 7 Operational history editMilitary edit The USAF Strategic Air Command SAC had T 38s in service from 1978 until SAC s 1991 inactivation These aircraft were used to enhance the career development of bomber and tanker copilots through the Accelerated Copilot Enrichment Program They were later used as proficiency aircraft for all B 52 B 1 Lockheed SR 71 U 2 Boeing KC 135 and KC 10 pilots SAC s successors the Air Combat Command ACC and the Air Force Global Strike Command AFGSC retain T 38s as proficiency aircraft for U 2 pilots and B 2 pilots respectively 9 The Air Training Command s successor the Air Education and Training Command AETC uses the T 38C to prepare pilots for the F 15C Eagle and F 15E Strike Eagle the F 16 Fighting Falcon B 52 Stratofortress B 1B Lancer B 2 Spirit A 10 Thunderbolt F 22 Raptor and F 35 Lightning II The AETC received T 38Cs in 2001 as part of the Avionics Upgrade Program The T 38Cs owned by the AETC have undergone propulsion modernization which replaces major engine components to enhance reliability and maintainability and an engine inlet injector modification to increase available takeoff thrust 9 These upgrades and modifications with the Pacer Classic program were to extend the service life of T 38s past 2020 The T 38 has an availability goal of 75 which it maintained in 2011 In 2015 its availability was 60 18 After graduating from basic flying on the Cessna T 37 Tweet pilots were trained on more advanced aspects including supersonic flight blind flying formation flight handling stalls single engine flight procedures low speed flight and landing techniques 16 Prior to the USAF ceasing the practice of trainees flying within icy conditions the T 38 s engines were prone to being damaged by ingesting ice The relatively small engine intakes are also known to be problematic when flown at low speeds under hot and high conditions 19 The landing gear s brakes have been criticised for being relatively weak one of several factors that necessitates care while landing Several incidents including fatalities have occurred due to imprecise management of the throttles and air speed during landing attempts 19 Despite these factors the T 38 has been regarded as a relatively safe trainer aircraft even into the twenty first century Between 1961 and 2005 the fleet has cumulatively flown 25 million hours during which 150 of the 1 187 T 38s built between 1961 and 1972 were recorded as lost resulting in 45 deaths 11 Besides the USAF and the USN other military operators of the T 38 have included the German Air Force the Portuguese Air Force the Republic of China Air Force and the Turkish Air Force 9 During late 2010 the USAF launched the T X program to procure a replacement for its T 38s 20 Bidders included a joint venture of BAE Systems and Rolls Royce offering the Hawk trainer equipped with Rolls Adour Mk951 engine with FADEC Lockheed Martin and Korea Aerospace Industries offered the T 50 Raytheon and Alenia Aermacchi offered the T 100 an aircraft whose design originated with the M 346 21 Boeing and Saab offered a new technology design powered by the General Electric F404 turbofan engine The Boeing Saab bid first flew in December 2016 It was declared the winner of the T X competition in September 2018 22 NASA edit NASA operates a fleet of 32 T 38 trainers 23 The fleet is typically used to train its astronauts and as a chase plane NASA s fleet is housed primarily at Ellington Field in Houston Texas NASA s internal projections showed the number of operational jet trainers falling to 16 by 2015 The agency spends 25 30 million annually to fly and maintain the T 38s 24 During the Space Shuttle era an established NASA tradition was for astronauts to arrive at the Kennedy Space Center in T 38 Talons 25 Civil edit Seven privately owned T 38s are in the U S 23 Boeing owns two T 38s which are used as chase planes 23 Thornton Corporation owns two T 38s and the National Test Pilot School owns one T 38 23 Two others are in private ownership 23 Variants edit nbsp US Navy DT 38A at United States Navy Fighter Weapons School Top Gun 1974 N 156T Northrop company designation YT 38 Prototypes two built with YJ85 GE 1 engines later designated YT 38A and four pre production aircraft with YJ 85 GE 5 engines later designated T 38A 26 T 38A Two seat advanced training aircraft production model 1 139 built 26 T 38A N Two seat astronaut training version for NASA See T 38N below DT 38A A number of US Navy T 38As were converted into drone directors GT 38A Permanently grounded aircraft often due to flight or ground mishap converted into ground procedural trainers or aircraft maintenance trainers NT 38A A small number of T 38As were converted into research and test aircraft QT 38A Unmanned target drone aircraft AT 38B Two seat weapons training aircraft T 38C A T 38A with structural and avionics upgrades 9 T 38M Modernized Turkish Air Force T 38As with full glass cockpit and avionics upgraded by Turkish Aerospace Industries under the project codename ARI Turkish Ari for Bee 27 T 38N Former USAF T 38As bailed to NASA and T 38As directly assigned to NASA that received an Avionics Upgrade Program AUP modernizing communications and navigation systems replacing outdated avionics and adding a weather radar flight management system altitude alert systems and modern controls and displays 28 ST 38 or N 205 A proposal to be fitted with 3 rocket engines in the 10 000lb thrust range burning hydrogen peroxide and JP 5 capable of Mach 3 2 and a maximum altitude of 200 000 feet 61 000 m and only requiring modification to 25 of the airframe It was to be used for training astronauts as part of the ARPS Aerospace Research Flight School It was first proposed in May 1958 and then again in 1963 however the Air Force showed no interest and instead selected the NF 104A 29 30 T 38 VTOL Proposed vertical takeoff variant with four lift nozzles behind the pilot 31 Operators edit nbsp A T 38 Talon in Thunderbirds livery at the Alliance Air Show 2014 nbsp A T 38 Talon at the Fort Worth Alliance Air Show 2019 Current edit nbsp Germany German Air Force 46 T 38A in 1968 now upgraded to T 38C All aircraft are stationed at Sheppard AFB Texas and are painted in US markings 32 nbsp Turkey Turkish Air Force 33 T 38M in service 33 nbsp United States United States Air Force 497 T 38 trainers in service as of December 2022 update 34 United States Navy 9 aircraft in use as of December 2022 update 34 United States Naval Test Pilot School citation needed 35 NASA approximately 32 aircraft transferred from USAF citation needed Former edit nbsp Portugal Portuguese Air Force 12 aircraft in 1977 Initially operated by 201 Sqn Falcoes Falcons at Air Base No 5 in 1980 they were transferred to 103 Sqn Caracois Snails being stationed in Air Base No 11 They were retired in 1993 replaced by Dassault Dornier Alpha Jet 36 nbsp Republic of Korea Republic of Korea Air Force 30 T 38A from the US in April 1999 All units were returned to the US by 2009 after near completion of production of T 50 Golden Eagle supersonic trainer 37 nbsp Taiwan Republic of China Republic of China Air Force former operator all aircraft returned to the US in 1998 38 Accidents and incidents editMore than 210 aircraft losses and ejections have been documented over the lifetime of the T 38 39 The USAF has recorded 149 fatalities since operations began in 1960 40 February 1962 The first crash of a T 38 occurred near Webb AFB Texas One pilot was killed citation needed 31 October 1964 Astronaut Theodore Freeman was killed as a result of a bird strike on a NASA operated T 38 41 42 28 February 1966 1966 NASA T 38 crash Astronauts Elliot See and Charles Bassett were killed when they struck a building in fog 43 44 5 October 1967 Astronaut Clifton C C Williams was killed in a crash of a NASA operated T 38 due to an aileron jam 45 46 18 January 1982 Diamond Crash Four T 38As of the U S Air Force Thunderbirds crashed while practicing for an airshow After this crash the T 38 was replaced in this role by the front line F 16A Fighting Falcon 21 May 2009 One pilot was killed and the other ejected with serious injuries after a rudder malfunction caused the crash of a USAF T38A 47 19 July 2013 The plane went down south of Sheppard Air Force Base at approximately 6 48 a m near Pecanway Drive and Horton Lane in Wichita County and the pilots ejected safely with minor injuries 21 November 2019 Two pilots killed during a collision while landing 48 19 February 2021 The two person USAF crew of a T 38 was killed in a landing crash near Montgomery Regional Airport in Alabama The aircraft was assigned to the USAF 14th Flying Training Wing at Columbus AFB Mississippi The crash was later attributed to pilot error 49 19 November 2021 Two aircraft collided on approach to Laughlin Air Force base resulting in the death of one student 50 7 November 2022 A T 38C crashed near Columbus AFB Mississippi with one pilot safely ejecting 51 Aircraft on display edit nbsp A T 38 Talon on display at the Frontiers of Flight Museum nbsp A T 38 Talon on display at the Kennedy Space Center Visitor Complex nbsp T 38 Serial Numbers 60 0573 60 0589 and 61 0828 at Owatonna Degner Regional Airport Minnesota YT 38A 58 1192 South Dakota Air and Space Museum at Ellsworth AFB South Dakota 52 T 38A 58 1196 California Science Center in Los Angeles California 53 59 1600 Phoenix Mesa Gateway Airport 54 59 1601 On base display Air University area Maxwell AFB Alabama 55 59 1602 On base display United States Air Force Academy in Colorado Springs Colorado Painted as Thunderbird 1 59 1604 National Naval Aviation Museum NAS Pensacola Florida former USAF aircraft bailed to USN and utilized by the U S Naval Test Pilot School at NAS Patuxent River Maryland 56 59 1605 On base display USAF Airman Heritage Museum Lackland AFB Texas 57 60 0549 Prairie Aviation Museum in Bloomington Illinois 58 60 0551 On display at the National Air and Space Museum in Washington DC 59 60 0558 American Legion Post 233 in Edinburgh Indiana 60 60 0570 Edward F Beale Museum Beale AFB California 61 60 0573 On display Owatonna Degner Regional Airport Owatonna Minnesota with 60 0589 and 61 0828 60 0574 On base display Laughlin AFB Texas 62 60 0589 On display Owatonna Degner Regional Airport Owatonna Minnesota with 60 0573 and 61 0828 61 0817 Oklahoma Welcome Station adjacent to Tinker AFB Oklahoma 63 61 0825 On display U S Space amp Rocket Center Huntsville AL as N999NA not original paint scheme Appeared on Shipping Wars TV Show being transported to Huntsville AL from NASA Houston 61 0828 On display Owatonna Degner Regional Airport Owatonna Minnesota with 60 0573 and 60 0589 61 0829 Gallup Municipal Airport Gallup New Mexico 61 0838 On base display in front of Randolph Inn Visiting Officers Quarters VOQ Randolph AFB Texas 64 61 0854 Pima Air and Space Museum adjacent to Davis Monthan AFB in Tucson Arizona on display in the markings of the 479th Tactical Training Wing at Holloman AFB NM circa 1982 65 61 0858 Sheppard AFB Air Park Sheppard AFB Texas 66 61 0902 Science Spectrum in Lubbock Texas 67 61 0926 Salina Oklahoma lawn of American Legion post 240 68 62 3673 Mason County Airport Michigan Construction Number C N N 5378 built 1962 painted blue and gray camouflage static displayed on a pedestal along US10 showing USAF tail markings of the 434th Fighter Training Squadron when it was located at Holloman Air Force Base between 1977 and 1991 63 8125 Sheppard AFB Air Park Sheppard AFB Texas 66 63 8224 Evergreen Aviation amp Space Museum in McMinnville Oregon painted in NASA colors suspended from the ceiling in the Air and Space Exhibit Hall 69 64 13198 Hangar 25 Museum former Webb AFB in Big Spring Texas 70 65 10405 On base display Columbus AFB Mississippi 71 72 65 10426 On base display Vance AFB Oklahoma 73 66 8381 NASA 901 N901NA Assigned directly to NASA as the second NASA T 38 to be designated as NASA 901 and N901NA on display at Aviation Heritage Park Bowling Green Kentucky 74 75 GT 38A 60 0592 Dyess Linear Air Park Dyess AFB Texas 76 60 0593 March Field Air Museum at March ARB former March AFB in Riverside California on display in Thunderbirds markings 77 61 0824 Hill Aerospace Museum adjacent to Hill AFB Utah 78 AT 38B 60 0576 On base display Holloman AFB New Mexico 79 65 10441 National Museum of the United States Air Force at Wright Patterson AFB in Dayton Ohio This aircraft was retired in 1991 came to the museum in 1999 and was placed on display in 2004 80 T 38N 65 10329 NASA 969 N969NA On display at Kennedy Space Center Visitor Complex NASA John F Kennedy Space Center Merritt Island Florida 81 65 10355 NASA 913 N913NA On display at the Intrepid Sea Air amp Space Museum New York New York 82 65 10402 NASA 968 N968NA On display at Space Center Houston 83 66 8381 NASA 901 N901NA Assigned directly to NASA as the second NASA T 38 to be designated as NASA 901 and N901NA on display at Aviation Heritage Park Bowling Green KentuckySpecifications T 38A edit nbsp Data from This Day In Aviation 84 General characteristicsCrew 2 Length 46 ft 4 5 in 14 135 m Wingspan 25 ft 3 in 7 70 m Height 12 ft 10 5 in 3 924 m Wing area 170 sq ft 16 m2 Empty weight 7 200 lb 3 266 kg Gross weight 11 820 lb 5 361 kg Max takeoff weight 12 093 lb 5 485 kg Powerplant 2 General Electric J85 5A afterburning turbojet engines 2 680 lbf 11 9 kN thrust each dry 3 850 lbf 17 1 kN with afterburner Performance Maximum speed 746 kn 858 mph 1 382 km h Maximum speed Mach 1 3 Range 991 nmi 1 140 mi 1 835 km Service ceiling 50 000 ft 15 000 m Rate of climb 33 600 ft min 171 m s 85 Wing loading 69 53 lb sq ft 339 5 kg m2 Thrust weight 0 65See also editBoeing T 7 Red Hawk Related development Northrop F 5 Canadair CF 5 Northrop F 20 Tigershark Related lists List of active United States military aircraft List of spaceflight related accidents and incidentsReferences editCitations edit ENJJPT 40 years of training NATO s future military pilots blogbeforeflight net 27 April 2022 United States Air Force 27 September 2018 Air Force awards next generation fighter and bomber trainer af mil Secretary of the Air Force Public Affairs Retrieved 1 November 2022 Johnsen 2006 pp 5 6 Eden 2004 p 344 a b c d e f Garrison August September 2005 p 60 Due to its elongated fuselage the pilot s operating handbook for the two seat version contains an instruction to avoid spins a b c d e f g h i j k Garrison August September 2005 p 61 Northrop marks the 50th anniversary of T 38 Talon first flight defencetalk com 14 April 2009 Archived from the original on 6 April 2012 Retrieved 21 August 2011 a b c d e T 38 TALON Fact Sheet U S Air Force 2 May 2008 Archived from the original on 2 June 2013 USAF Almanac 2018 PDF Archived PDF from the original on 7 May 2019 Retrieved 28 November 2018 a b c Garrison August September 2005 p 64 New Fighter Jet Unveiled By Iranian Military Forces Network British Forces Broadcasting Service 21 August 2018 Retrieved 29 September 2019 Iran unveils new domestically produced fighter jet BBC News 21 August 2018 Retrieved 29 September 2018 Eyeing U S Iran unveils new fighter jet Reuters 22 August 2018 Retrieved 29 September 2019 Garrison August September 2005 p 62 a b Garrison August September 2005 p 59 TO 1T 38A 4 USAF T 38 Tech Order Butler Amy 6 April 2015 T X Competition Fierce Despite GD Alenia Split Aviation Week amp Space Technology Archived from the original on 7 April 2015 Retrieved 7 April 2015 a b Garrison August September 2005 p 63 USAF Braces For Fiscal Bombardment AW amp ST 20 September 2010 Power play The World column AW amp ST 16 September 2013 p 12 Reim Garrett 27 September 2018 Boeing wins 9 2b T X trainer contract with USAF FlightGlobal com Los Angeles Flight International Archived from the original on 28 September 2018 Retrieved 28 September 2018 a b c d e Aircraft Make Model Results Northrop T 38 Federal Aviation Administration Archived from the original on 12 January 2012 Retrieved 21 August 2011 Creech Gray T 38 Supersonic Trainer Jet Gets New Home NASA Archived from the original on 2 August 2011 Retrieved 21 August 2011 Discovery s final crew arrives at NASA s Kennedy Space Center 20 February 2011 Archived from the original on 12 March 2017 Retrieved 9 March 2017 a b Andrade 1979 p 167 Modifications amp Modernization T 38 Avionics Modernization Program Turkish International Cooperation and Export Activities Archived from the original on 15 August 2011 Retrieved 21 August 2011 NASA T 38N Hangar Ellington Field airliners net Archived from the original on 19 December 2014 Northrop Space Trainer The Aeroplane 3 April 1959 p 393 Landis Tony 24 November 2021 Flashback Lockheed NF 104A Aerospace Trainer United States Air Force Material Command Conceptual Design Study Report NOR 67 6R PDF ntrs nasa gov 1967 Archived from the original PDF on 24 May 2010 Luftwaffe History Geschichte der Luftwaffe Retrieved 26 September 2019 Aircraft Inventory Turkish Air Force Command Archived from the original on 12 May 2016 Retrieved 12 June 2016 a b Embraer In association with 2023 World Air Forces directory Flight Global Retrieved 12 December 2022 T 38 Talon NAVAIR www navair navy mil Retrieved 27 April 2022 Sanzani Matteo January 17 2018 Portugal Retires Alpha Jet blogbeforeflight net Archived from the original on 10 July 2018 Retrieved 26 September 2019 T 38s Reborn Air Forces Monthly Key Publishing Limited 19 January 2011 Archived from the original on 30 August 2018 Retrieved 30 August 2018 Taiwan Air Power TaiwanAirPower org April 13 2008 Archived from the original on November 21 2009 Retrieved August 30 2018 Northrop T 38 Losses and Ejections Archived from the original on November 21 2014 Retrieved September 29 2019 USAF T38 Flight Statistics EOY PDF USAF Retrieved 27 October 2022 Crash Kills Astronaut Richland WA Tri City Herald 1 November 1964 dead link Goose Hit Jet Killing Astronaut The Miami News 17 November 1964 dead link 2 Astronauts Die In Plane Crash The Tuscaloosa News 28 February 1966 See Bassett Backup Crew Gets Gemini Daytona Beach FL Morning Journal newspaper 1 March 1966 Williams Wanted To Be First On The Moon St Petersburg FL Evening Independent newspaper 6 October 1967 Board Pinpoints Astronaut s Death Sarasota FL Herald Tribune newspaper 7 June 1968 Air Force Releases Results of T 38 Accident Investigation Edwards Air Force Base 13 October 2009 Retrieved 9 November 2022 United States Air Force Aircraft Investigation Board Report PDF USAF Accident Board 1 1 21 November 2019 Cohen Rachel 10 October 2021 Pilots errors upon descent led to fatal T 38 crash in February Air Force says Air Force Times Retrieved 28 December 2022 Novelly Thomas 2022 05 27 T 38 Crash That Killed Student Pilot in Texas Caused by Miscommunication Leading to Change in Formation Landing Rules Military com Retrieved 2022 10 27 T 38 crashes near Air Force training base in Mississippi Air Force Times Associated Press 7 November 2022 Retrieved 9 November 2022 T 38 Talon 58 1192 Archived 2017 08 06 at the Wayback Machine South Dakota Air and Space Museum Retrieved 12 April 2013 Northrop T 38 Talon California Science Center Archived from the original on June 23 2015 Northrop T 38A Talon USAF 82FTW stanakshot Archived from the original on June 23 2015 Maxwell AFB Display Aircraft Warbird Information Exchange Archived from the original on 2014 09 14 Retrieved September 26 2019 USNTPS T 38 at Wikipedia Commons Naval Aviation Museum Pensacola Florida Archived from the original on March 2 2015 Lackland Air Force Base USAF History and Traditions Museum aero web Aviation Enthusiast Corner Archived from the original on August 31 1999 T 38 Talon 60 0549 Archived 2013 10 16 at the Wayback Machine Prairie Aviation Museum Retrieved 12 April 2013 Going Subsonic Moving the T 38 Talon National Air and Space Museum 2019 03 27 Retrieved 2020 03 11 GT 38A Talon 60 0558 in Edinburgh Archived 2014 12 19 at the Wayback Machine Talon in Edinburgh Edward F Beale Museum aero web Aviation Enthusiast Corner Archived from the original on November 21 2014 Laughlin AFB aero web Archived from the original on September 17 2014 Retrieved September 14 2014 T 38 Talon 61 0817 Archived 2012 10 03 at the Wayback Machine Warbird Registry Retrieved 12 April 2013 Randolph AFB Aircraft Display Warbird Information Exchange Archived from the original on September 14 2014 T 38 Talon 61 0854 Pima Air amp Space Museum Archived from the original on 2013 10 30 Retrieved April 12 2013 a b Sheppard AFB Air Park Archived from the original on September 17 2014 Retrieved September 14 2014 T 38 Talon 61 0902 Archived 2012 09 30 at the Wayback Machine Warbird Registry Retrieved 12 April 2013 Salina Oklahoma Local Attractions Retrieved October 1 2019 T 38 Talon 63 8224 Archived 2013 05 01 at the Wayback Machine Evergreen Aviation amp Space Museum Retrieved 12 April 2013 Aircraft Data 64 13198 1964 Northrop T 38A Talon C N N 5627 www airport data com Retrieved 2020 11 12 Northrop T 38A Talon USA Air Force airliners net Archived from the original on September 14 2014 Northrop T 38A Talon SN 65 10405 aero web Archived from the original on March 4 2016 Retrieved September 13 2014 Northrop T 38A Talon SN 65 10426 aero web Archived from the original on October 11 2011 Retrieved September 14 2014 NASA T 38 Talon Aviation Heritage Park Archived from the original on October 29 2014 Wilson Laurel March 23 2014 NASA T 38 Talon plane arrives in BG Bowling Green Daily News Retrieved October 1 2019 Dyess Linear Air Park aero web Archived from the original on August 31 1999 T 38 Talon 60 0593 Archived 2012 01 08 at the Wayback Machine March Field Air Museum Retrieved 12 April 2013 T 38 Talon 61 0824 Archived 2013 04 23 at the Wayback Machine Hill Aerospace Museum Retrieved 12 April 2013 T 38 Talon 60 0576 Archived 2012 09 26 at the Wayback Machine Warbird Registry Retrieved 12 April 2013 T 38 Talon 65 10441 Archived 2013 04 04 at the Wayback Machine National Museum of the USAF Retrieved 12 April 2013 NASA Space Center Museum tinfeathers com Archived from the original on April 12 2013 Northrop T 38N Talon Hoisted to Flight Deck Archived 2018 06 12 at the Wayback Machine Intrepid Museum Retrieved 11 July 2018 T 38N N968NA stanakshot free fr 2014 11 02 Cite error The named reference a rel nofollow class external free href https www thisdayinaviation com tag general electric j85 ge 5 https www thisdayinaviation com tag general electric j85 ge 5 a was invoked but never defined see the help page Even though this value has been printed in USAF outlets for many years it is probably incorrect The T 38 time to climb record set in 1962 was three minutes to 30 000 feet According to Northrop s Roy Martin quoted on p 64 of Air amp Space Smithsonian Vol 20 No 3 August September 2005 a normal climb at military power that is maximum power without afterburner is around 6 000 feet minute Bibliography edit Andrade John 1979 U S Military Aircraft Designations and Serials since 1909 Midland Counties Publications ISBN 0 904597 22 9 Eden Paul ed 2004 Northrop F 5 familyEncyclopedia of Modern Military Aircraft London UK Amber Books ISBN 1 904687 84 9 Garrison Peter August September 2005 White Rocket Vol 20 Air amp Space Smithsonian Magazine pp 58 65 Johnsen Frederick A 2006 Northrop F 5 F 20 T 38 North Branch Minnesota Specialty Press ISBN 1 58007 094 9 Shaw Robbie 1990 F 5 Warplane for the World Osceola WI Motorbooks International ISBN 9780879384876 OCLC 22344704 External links edit nbsp Wikimedia Commons has media related to Northrop T 38 Talon T 38 Talon page on SR 71 org NASA photo gallery Retrieved from https en wikipedia org w index php title Northrop T 38 Talon amp oldid 1220122207, wikipedia, wiki, book, books, library,

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