Hawk & T-45 Goshawk @·AIRCRAFTUBE

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BAE Systems Hawk

The BAE Systems Hawk is a British single-engine, advanced jet trainer aircraft. It was first flown at Dunsfold, Surrey, in 1974 as the Hawker Siddeley Hawk, and subsequently produced by its successor companies, British Aerospace and BAE Systems, respectively. It has been used in a training capacity and as a low-cost combat aircraft.

Operators of the Hawk include the Royal Air Force (notably the Red Arrows display team) and a considerable number of foreign military operators. The Hawk is still in production in the UK and under licence in India by Hindustan Aeronautics Limited (HAL) with over 900 Hawks sold to 18 operators around the world.

Origins

In 1964 the Royal Air Force specified a requirement (Air Staff Target (AST) 362) for a new fast jet trainer to replace the Folland Gnat. The SEPECAT Jaguar was originally intended for this role, but it was soon realised that it would be too complex an aircraft for fast jet training and only a small number of two-seat versions were purchased. Accordingly, in 1968, Hawker Siddeley Aviation (HSA) began studies for a simpler aircraft, initially as special project (SP) 117. The design team was led by Ralph Hooper.

This project was funded by the company as a private venture, in anticipation of possible RAF interest. The design was conceived of as having tandem seating and a combat capability in addition to training, as it was felt the latter would improve export sales potential. By the end of the year HSA had submitted a proposal to the Ministry of Defence based on the design concept, and in early 1970 the RAF issued Air Staff Target (AST) 397 which formalised the requirement for new trainers of this type. The RAF selected the HS.1182 for their requirement on 1 October 1971 and the principal contract, for 175 aircraft, was signed in March 1972.

The prototype aircraft first flew on 21 August 1974. All development aircraft were built on production jigs; the program remained on time and to budget throughout. The Hawk T1 entered RAF service in late 1976. The first export Hawk 50 flew on 17 May 1976. This variant had been specifically designed for the dual-role of lightweight fighter and advanced trainer; it had a greater weapons capacity than the T.1.

More variants of the Hawk followed and common improvements to the base design typically include increased range, more powerful engines, redesigned wing and undercarriage, the addition of radar and forward-looking infrared (FLIR), GPS navigation, and night vision compatibility. Later models were manufactured with a great variety in terms of avionics fittings and system compatibility to suit the individual customer nation, cockpit functionality was often rearranged and programmed to be common to an operator's main fighter fleet to increase the Hawk's training value.

In 1981 a derivative of the Hawk was selected by the United States Navy as their new trainer aircraft. Designated the McDonnell Douglas T-45 Goshawk, the design was navalised and strengthened to withstand operating directly from the decks of carriers in addition to typical land-based duties; This T-45 entered service in 1994; initial aircraft had analogue cockpits, while later deliveries featured a digital glass cockpit. All airframes are planned to undergo avionics upgrades to a common standard.

Further development

A major competitor to the Hawk for export sales has been the Dassault/Dornier Alpha Jet; aviation expert John W. R. Taylor commented: "What Europe must avoid is the kind of wasteful competition that has the Hawker Siddeley Hawk and Dassault-Breguet/Dornier Alpha Jet battling against each other in the world market." By early 1998, a total of 734 Hawks had been sold, more than 550 of which had been to export customers. Military customers often procured the Hawk as a replacement for older aircraft such as the BAC Strikemaster, Hawker Hunter, and Douglas A-4 Skyhawk.

During the 1980s and 1990s, British Aerospace, the successor company to Hawker Siddeley, was trying to gain export sales of the variable-wing Panavia Tornado strike aircraft; however countries such as Thailand and Indonesia, whom had shown initial interest in the Tornado, concluded that the Hawk to be a more suitable and preferable aircraft for their requirements. Malaysia and Oman cancelled their arranged Tornado orders in the early 1990s, both choosing to procure the Hawk instead. Aviation authors Norman Polmar and Dana Bell stated of the Hawk: "Of the many similar designs competing for a share of the world market, the Hawk has been without equal in performance as well as sales".

On 22 December 2004, the Ministry of Defence awarded a contract to BAE Systems to develop an advanced model of the Hawk for the RAF and Royal Navy. The Hawk Mk. 128, otherwise designated as Hawk T2, replaces conventional instrumentation with a glass cockpit, to better resemble modern fighter aircraft such as the new mainstay of the RAF, the Eurofighter Typhoon. In October 2006, a GB£450 million contract was signed for the production of 28 Hawk 128s. The aircraft's maiden flight occurred on 27 July 2005 from BAE Systems' Warton Aerodrome.

According to BAE Systems, as of July 2012 they have sold nearly 1000 Hawks so far, with sales continuing to date. In July 2012, Australian Defence Minister Stephen Smith confirmed that Australia's fleet of Hawk Mk 127s would be upgraded to a similar configuration to the RAF's Hawk T2 as part of a major mid-life upgrade. As of 2012, the Hawk T2 is one of the competitors for the United States Air Force's T-X program to acquire a new trainer fleet.

Design

The Hawk is an advanced trainer with a two-man tandem cockpit, a low-mounted cantilever wing and is powered by a single turbofan engine. Unlike many of the previous trainers in RAF service, the Hawk was specifically designed for training. Hawker had developed the aircraft to have a high level of servicability, as well as lower purchasing and operating costs than previous trainers like the Jet Provost. The Hawk has been praised by pilots for its agility, in particular its roll and turn handling.

The design of the fuselage included a height differential between the two seats of the cockpit; this provided generous levels of visibility for the instructor in the rear seat. Each cockpit is fitted with a Martin-Baker Mk 10B zero-zero rocket-assisted ejection seat. Air is fed to the aircraft's rear-mounted Rolls-Royce Turbomeca Adour engine via intakes on each of the forward wing roots. During the aircraft's development, Hawker had worked closely with Rolls-Royce to reduce the engine's fuel consumption and to ensure a high level of reliability.

Even within the development stages, a Hawk variant was intended to also serve as a single-seat ground-attack fighter; both the trainer and fighter models were developed with the export market in mind. On single seat models, the forward cockpit area which normally houses a pilot is replaced by an electronics bay for avionics and onboard systems, including a fire control computer, multi-mode radar, laser rangefinder and forward-looking infrared (FLIR). Some export customers, such as Malaysia, have extensive modifications to their aircraft, including the addition of wingtip hardpoint stations and a fittable inflight refuelling probe.

The Hawk was designed to be manoeuvrable and can reach Mach 0.88 in level flight and Mach 1.15 in a dive, thus allowing trainees to experience transonic flight before advancing to a supersonic trainer. The airframe is very durable and strong, stressed for +9 g, the normal limit in RAF service is +7.5/-4 g. A dual hydraulic system supplies power to operate systems such as the aircraft's flaps, airbrakes and landing gear, together with the flight controls. A ram air turbine is fitted in front of the single tail fin to provide backup hydraulic power for the flight controls in the event of an engine failure, additionally a gas turbine auxiliary power unit is housed directly above the engine.

The Hawk is designed to carry a centreline gun pod, such as the 30 mm ADEN cannon, two under-wing pylons, and up to four hardpoints for fitting armaments and equipment. In RAF service, Hawks have been equipped to operate of Sidewinder air-to-air missiles. In the early 1990s, British Aerospace investigated the possibility of arming the Hawk with the Sea Eagle anti-ship missile for export customers.

Operational history

United Kingdom

The Hawk entered RAF service in April 1976, replacing the Folland Gnat and Hawker Hunter for advanced training and weapons training. The Hawk T1 was the original version used by the RAF, deliveries commencing in November 1976. The most famous users of the Hawk are the Red Arrows aerobatic team, who adopted the plane in 1979.

From 1983 to 1986, some Hawks were equipped as short-range interceptor aircraft. 88 T1s were modified to carry two AIM-9L Sidewinder air-to-air missiles (AAMs) in addition to a 30 mm ADEN cannon gun pod; these aircraft were redesignated as Hawk T1A. In a wartime scenario, they would have worked in collaboration with the RAF's Tornado F3 interceptors, which would use their Foxhunter search radars and more sophisticated navigation systems to vector the Hawks against enemy targets.

The Hawk subsequently replaced the English Electric Canberra for target towing duties. The Royal Navy acquired a dozen Hawk T1/1As from the RAF; these are typically operated in a support role, often to conduct simulated combat training onboard ships.

During the 1990s and 2000s, 80 Hawk T1/1A aircraft were upgraded under the Fuselage Replacement Programme (FRP) to extend their operational lifespan; sections of the centre and rear fuselage sections were entirely replaced. In 2009, the RAF began receiving the first Hawk T2, in the long term, T2 aircraft will replace the ageing T1s. Training operations on the Hawk T2 began in April 2012.

In August 2011, a Red Arrows pilot was killed when his Hawk T1 crashed following a display at the Bournemouth Air Festival, the inquest found "G-force impairment" may have caused the pilot to lose control; the Hawk T1 fleet was grounded as a precautionary measure and returned to flight status a few days later. Three months later in November 2011, the Red Arrows suffered another pilot fatality when the Martin-Baker Mk.10 ejection seat fitted to the Hawk T1 activated while the aircraft was stationary; the veteran combat pilot died on ground impact when the ejector seat parachute also failed to deploy. This resulted in the UK Ministry of Defence implementing a ban on non-essential flying in aircraft fitted with ejector seats similar to those fitted in the Hawk T1 after the death. The ban was lifted for Tornado attack jets but remained on Hawk T1, Hawk T2 and Tucano flights while the RAF reviewed evidence on those aircraft.

Finland

In January 1978, Britain and Finland announced a deal to in which the Finnish Air Force was to receive 50 Hawk Mk. 51s in 1980; these aircraft were built in Finland under licence by Valtion lentokonetehdas. The Finnish Air Force was limited to 60 first-line fighter aircraft by the Paris Peace Treaty of 1947; by acquiring Hawks, which counted as trainers rather than fighters, capacity could be increased while continuing treaty compliance. These conditions were nullified at the break-up of the Soviet Union.

Seven additional Mk. 51As were delivered in 1993–94 to make up for losses. In June 2007, Finland arranged to purchase 18 used Hawk Mk. 66s from the Swiss Air Force for 41 million euros; they were delivered in 2009–2010. Finnish Hawks have reportedly been armed with Russian Molniya R-60/AA-8 air-to-air missiles. The Finnish Air Force aerobatics team, the Midnight Hawks, also uses the aircraft.

Due to rising levels of metal fatigue, 41 out of 67 in Finland's total Hawk fleet will be taken out of service between 2012–2016; the remaining aircraft are younger and thus are expected to be flying into the 2030s. In 2011, Finnish Mk. 51s and Mk. 66s underwent upgrades, including a new Patria Cockpit 2000 glass cockpit and new software.

India

On 23 February 2008, the Hawk Mk. 132 formally entered service with the Indian Air Force (IAF), after one of the most protracted procurements in India's history, two decades having elapsed between the initial interest and the contract signing on 26 March 2004. The IAF received 24 aircraft directly from BAE Systems with deliveries beginning in November 2007, and further 42 Hawks assembled by Hindustan Aeronautics Limited between 2008 and 2011. In February 2008, India planned to order 57 more Hawks, with 40 going to the Indian Air Force and the remaining 17 to the Indian Navy.

In July 2010, it was announced that the IAF and the Navy would receive the additional 57 aircraft. The additional aircraft will be all built in India by Hindustan Aeronautics (HAL), continuing to work under licence from BAE. On 10 February 2011, Hindustan Aeronautics Limited and GE Aviation signed a contract under which GE Aviation will conduct the next 30 years of maintenance on the Hawk fleet. In 2011, the IAF was reportedly unhappy with the provision of spare components; In December 2011, BAE received a contract to provide India with spares and ground support.

Indonesia

In April 1978, Indonesia, seeking to increase its aerial capabilities, placed the first of multiple orders for the Hawk. The Indonesian Air Force received more than 40 Hawks in the 1980s and 1990s; In June 1991, BAe and Indonesian Aerospace (IPTN) signed an major agreement for collaborative production of the Hawk, and more orders of the Hawk were anticipated. Further Hawk exports were eventually blocked due to concerns over Indonesian human rights, particularly in East Timor.

The Hawks have been the backbone of Indonesian Air Force, supplementing more advanced and expensive aircraft such as the F-16 Fighting Falcon. In September 2013 the Indonesian Air Force began receiving the KAI T-50 Golden Eagle which will replace the Hawk in service.

Malaysia

The Royal Malaysian Air Force (Malay: Tentera Udara Diraja Malaysia) has 19 Hawk aircraft, consisting of four Hawk 108 export versions as training aircraft and 14 Hawk 208 as combat aircraft. On 5 March 2013, during the 2013 Lahad Datu standoff, five Hawk 208 together with three American-made Boeing F/A-18D Hornets were employed in an airstrike on a hideout of the terrorist group Royal Security Forces of the Sultanate of Sulu and North Borneo in Lahad Datu, Sabah just before the joint forces of Malaysian Army and Royal Malaysia Police operatives assault.

Zimbabwe

In the 1980s, 12 BAE Hawk T.Mk. 60/60As were purchased for the Air Force of Zimbabwe; the purchase was supported by a GB£35 million loan from the UK to Zimbabwe. The Hawk deal also included the transfer of a number of second-hand Hawker Hunters. In July 1982, at least one Hawk was destroyed on the ground and three more heavily damaged during a dissident attack on Thornhill air base, Gweru.

Zimbabwe's Hawks were used during the Second Congo War. Numerous airstrikes were conducted in support of the Congolese Army against Rwandan, Ugandan and rebel forces in 1998–2000. In 2000, the controversy over Zimbabwe's military intervention in the Congo and poor human rights record led to Britain imposing a total arms embargo on the nation, including spare parts for the Hawk. Due to the embargo, Zimbabwe has purchased six Chinese Hongdu K-8s as a substitute.

Others

During the 1980s, a prospective sale of 63 Hawk trainers to Iraq was considered by the British government. While the proposal had its proponents, it was controversial as in a ground-attack capacity Iraq might have employed the Hawk against neighbouring Iran and to oppress Iraq's own Kurdish population; there was also concern that the Hawk could be potentially armed with chemical weapons. After considerable deliberation the sale was blocked. In 2010, Iraq entered talks with BAE for an order of up to 21 Hawks.

Saudi Arabia arranged to acquire the Hawk under the Al-Yamamah arms deal with Britain; a total of 50 Hawk Mk. 65/65A were ordered under two orders placed in 1985 and 1994 respectively. In August 2012, a roughly $800 million deal for 22 Hawk 'Advanced Jet Trainers' was announced; these are to replace the older models of Hawks in the Royal Saudi Air Force (RSAF). The RSAF also has a demonstration team that flies the Hawk.

In 1993, talks between BAe and South Africa's Denel Aviation began regarding a replacement for the South African Air Force (SAAF)'s ageing Atlas Impala fleet. By 2004, Denel had begun construction of Hawks under licence from BAe; components for other customers have also been produced by Denel. On 13 January 2005, the first locally-assembled Hawk conducted its first flight; it belonged to a batch of 24 trainers ordered by the SAAF.

Variants

Hawk T1

The Hawk T1 (Trainer Mark 1) was the original version of the Hawk used by the RAF, deliveries commencing in November 1976. The RAF received a total of 175 T1s.

Hawk T1A

The Hawk T1A is a modified Hawk T1, intended to replace the Hawker Hunter in the RAF's Tactical Weapons Units. A total of 89 aircraft were converted to carry two underwing AIM-9L Sidewinder air-to-air missiles and a centreline Aden gun pod. This is also the variant used by the RAF's Red Arrows display team; the underbody gun pod is replaced by a fairing used to carry diesel fuel and dye for the display smoke system.

Hawk 50

The Hawk 50 was the original export trainer version, and offered a limited attack capability. Finland, Indonesia and Kenya ordered 90 of this variant.

  • Hawk 51 – Export version for the Finnish Air Force. 50 ordered December 1977, with first four to be built by British Aerospace and remaining aircraft assembled in Finland. Delivered December 1980 to September 1985.
  • Hawk 51A – Seven Hawks were sold to Finland as part of a follow-on order. Powered by Adour 851 engine as used by Hawk 51, but with structural and wing modifications of later Hawks.
  • Hawk 52 – Export version for the Kenyan Air Force. Fitted with braking parachute. Twelve ordered 9 February 1978, with deliveries from 1980 to 1981.
  • Hawk 53 – Export version for the Indonesian Air Force. Eight ordered 4 April 1978, with five more ordered in May 1981, a further three in October 1981 and four in November 1982, giving a total of 20 delivered between 1980 and 1984. Five repurchased by BAE Systems in 1999.

Hawk 60

Another export version, replacing the Hawk 50, intended for conversion and weapons training. Weapons carriage is increased. It is a two-seater, has uprated Rolls-Royce Adour 861 engines, and is capable of a level speed at altitude of 555 knots (1028 km/h) or Mach 0.84. The T-45 Goshawk was derived from this version.

  • Hawk 60 – Export version for the Air Force of Zimbabwe. Fitted with braking parachute and provision for carrying a reconnaissance pod. Eight Hawks were ordered by Zimbabwe on 9 January 1981, and delivered between July and October 1982.
  • Hawk 60A – Five Hawks were sold to Zimbabwe as part of a follow-on order in 1990. The aircraft were delivered between June and September 1992.
  • Hawk 61 – Export version for Dubai, United Arab Emirates Air Force. Eight ordered 30 June 1981 for a price of $40 million and delivered March to September 1983. Single additional attrition replacement aircraft delivered 1988.
  • Hawk 63 – Export version for Abu Dhabi, United Arab Emirates Air Force. 16 purchased on 2 January 1983 for $180 million including spares and maintenance support. Delivery between October 1984 and May 1985.
  • Hawk 63A – 15 Hawk 63s were upgraded to this standard from October 1991, with the Adour 871 engine and Advanced Combat Wing of the Hawk 100, with four underwing weapons pylons and wingtip missile rails, but retaining simpler avionics of Hawk 63.
  • Hawk 63C – Four new build aircraft to Hawk 63A standard were sold to Abu Dhabi as part of a follow-on order and delivered from 1995.
  • Hawk 64 – Export version for the Kuwait Air Force. Twelve ordered 31 October 1983 and delivered 1985 to 1986.
  • Hawk 65 – Export version for the Royal Saudi Air Force. 30 ordered as part of Al Yamamah I arms deal in February 1986 with deliveries from August 1987 to October 1988.
  • Hawk 65A – 20 were sold to Saudi Arabia as part of a follow-on order, to an improved standard, and delivered 1997.
  • Hawk 66 – Export version for the Swiss Air Force. Twenty ordered on 20 October 1987, with first built by BAe and remaining 19 assembled by the Federal Aircraft Factory at Emmen. Delivery from November 1989 to October 1991.
  • Hawk 67 – Export version for the Republic of Korea Air Force. Fitted with extended nose of Hawk 100 to accommodate avionics and a steerable nosewheel. Twenty ordered in July 1991, with delivery by November 1993.

Hawk 100

A two-seat advanced weapons trainer with additional avionics, an optional forward looking infrared, a redesigned wing and HOTAS.

  • Hawk 102 – Export version for Abu Dhabi, United Arab Emirates Air Force. Fitted with wingtip missile rails and Racal Prophet RWR. Eighteen ordered in 1989 and delivered between April 1993 and March 1994.
  • Hawk 103 – Lead-in fighter trainer for the Royal Air Force of Oman. Fitted with FLIR and laser ranger in extended nose, BAE Sky Guardian RWR and wingtip AAM rails. Four were ordered on 30 July 1990 and delivered from December 1993 to January 1994.
  • Hawk 108 – Export version for the Royal Malaysian Air Force. Fitted with BAE Sky Guardian RWR and wing tip AAM rails. Ten ordered December 1990, and delivered January 1994 to September 1995.
  • Hawk 109 – Export version for the Indonesian Air Force.
  • Hawk 115 – Export version for the Canadian Forces, designated CT-155 Hawk in Canadian service.
  • Hawk 129 – Export version for Bahrain.

Hawk 120/LIFT

The Hawk Lead-in Fighter Trainer (LIFT) is the version selected by the South African Air Force in December 1999. This variant is powered by the Adour 951. The LIFT benefits from development carried out for the Australian Mk. 127.

The next generation Hawks (120, 127 and 128) feature a new wing, forward and centre fuselage, fin and tailplane. The aircraft have only 10% commonality with the existing first generation aircraft. The new variants also have four times the fatigue life of the original aircraft. 24 aircraft will be delivered.

Hawk 127

The Royal Australian Air Force ordered 33 Hawk 127 Lead-in Fighters (LIFs) in June 1997, 12 of which were produced in the UK and 21 in Australia. This variant is also powered by the Adour 871. The Hawk 127 is operated by the RAAF's No. 76 Squadron and No. 79 Squadron which are based at RAAF Base Williamtown and RAAF Base Pearce respectively. Work to upgrade the RAAF's Hawks to a standard similar to the Hawk 128 standard began in 2014, and it is planned that the two squadrons will begin operations with these aircraft in 2017.

Hawk 128 (Hawk T2)

The Hawk 128 is the new Advanced Jet Trainer (AJT) for the RAF and Royal Navy. The Mk. 128 includes modern LCD displays instead of conventional instrumentation and is powered by the Rolls-Royce Adour 951 engine. The Ministry of Defence awarded a Design and Development Contract to BAE Systems on 22 December 2004. The T2 builds on the design of the Australian Mk. 127 and the South African Mk. 120s.

In 2012 orders were placed for the AJT version by the Royal Saudi Air Force and the Royal Omani Air Force for 22 and 8 aircraft respectively.

Hawk 132

The Hawk Mk. 132 is the latest export variant of the Hawk and was previously known as the Mk. 115Y. BAE Systems delivered the final of 24 UK-built Hawks to the IAF in November 2009. HAL handed over the first locally-built Hawk 132 on 14 August 2008. These aircraft are powered by the Rolls-Royce Adour Mk 871 engine.

Hawk 165

The Mk. 165 is an export variant of the AJT currently on order by the Royal Saudi Air Force. The 22 aircraft are to be built in the UK by BAE.

Hawk 200

The Hawk 200 is a single-seat, lightweight multirole combat fighter with emphasis on air defence, air superiority, anti-shipping, air-denial, long-range interdiction, short-range close air support and ground attack. Indonesia, Malaysia and Oman have ordered 62 aircraft. Brunei has been interested in acquiring this model, but any prospective order has been continually delayed since the mid-1980s.

  • Hawk 203 – Export version for the Royal Air Force of Oman.
  • Hawk 205 – Proposed export version for the Royal Saudi Air Force.
  • Hawk 208 – Export version for the Royal Malaysian Air Force.
  • Hawk 209 – Export version for the Indonesian Air Force.

T-45 Goshawk

The McDonnell Douglas (now Boeing) T-45 Goshawk is a highly modified version of the BAE Hawk land-based training jet aircraft. Manufactured by McDonnell Douglas (now Boeing) and British Aerospace (now BAE Systems), the T-45 is used by the United States Navy as an aircraft carrier-capable trainer.

Design and development

The T-45 Goshawk is a fully carrier-capable version of the British Aerospace Hawk Mk.60. It was developed as a jet flight trainer for the United States Navy (USN) and United States Marine Corps (USMC).

The Goshawk's origins began in the mid-1970s, when the US Navy began looking for replacement for its T-2 and TA-4 trainers. The US Navy started the VTXTS advanced trainer program in 1978. British Aerospace and McDonnell Douglas proposed a version of the Hawk and were awarded the T-45 contract in 1981.

The Hawk had not been designed for carrier operations and numerous modifications were required to make it suitable for use on carriers. These included improvements to the low-speed handling characteristics and a reduction in the approach speed. Other changes were strengthened airframe, more robust and wider landing gear with catapult tow bar attachment and an arresting hook. It features a two-wheel nose landing gear.

The Goshawk first flew in 1988 and became operational in 1991. BAE Systems manufactures the fuselage aft of the cockpit, the air inlets, the vertical stabilizer of the T-45 at Samlesbury, and the wings at Brough, England. Boeing, which merged with McDonnell Douglas in 1997, manufactures the remainder of the aircraft and assembles them in St. Louis, Missouri, after moving the program from the Long Beach, California facility.

On 16 March 2007 the 200th airframe was delivered to the US Navy. All T-45A aircraft will eventually be converted to a T-45C configuration under the T-45 Required Avionics Modernization Program (T-45 RAMP). The final delivery of the 221st aircraft took place in November 2009.

Operational history

The T-45 has been used for intermediate and advanced portions of the Navy/Marine Corps Student Naval Aviator strike pilot training program with Training Air Wing One at Naval Air Station Meridian, Mississippi and Training Air Wing Two at Naval Air Station Kingsville, Texas. The T-45 replaced the T-2C Buckeye intermediate jet trainer and the TA-4J Skyhawk II advanced jet trainer with an integrated training system that includes the T-45 Goshawk aircraft, operational and instrument flight simulators (OFT/IFT), academics, and training integration system support. In 2008, the T-45C also began operation in the advanced portion of Navy/Marine Corps Student Naval Flight Officer (NFO) training with Training Air Wing Six at Naval Air Station Pensacola, Florida.

The T-45A, which became operational in 1991, contains an analog cockpit design while the newer T-45C, which was first delivered in December 1997, features a new digital "glass cockpit" design. The T-45A and C models are currently in operational use. The T-45 is to be in service until 2035 or later.

Variants

  • T-45A : Two-seat basic and advanced jet trainer for the US Navy.
  • T-45B : Proposed land-based version for the US Navy, which would have been basically a conventional Hawk with a US Navy-spec cockpit and no carrier capability. The Navy had wanted the T-45B to get an earlier training capability, but abandoned the idea in 1984 in favor of less-costly updates to the TA-4J and T-2C.
  • T-45C : Improved T-45A with glass cockpit, inertial navigation, and other improvements. Existing T-45As are being upgraded to the T-45C standard.

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Source : Article BAE Systems Hawk of Wikipedia ( authors )

Specifications (Hawk 128)

  • Crew : Two (student and instructor).
  • Length : 12.43 m (40 ft 9 in).
  • Height : 3.98 m (13 ft 1 in).
  • Wingspan : 9.94 m (32 ft 7 in).
  • Wing area : 16.70 m² (179.64 sq ft).
  • Empty weight : 4,480 kg (9,880 lb).
  • Useful load : 3,000 kg (6,600 lb).
  • Max takeoff weight : 9,100 kg (20,000 lb).
  • Maximum speed : Mach 0.84 (1,028 km/h, 638 mph) at altitude.
  • Range : 2,520 km (1,360 NM, 1,565 mi).
  • Service ceiling : 13,565 m (44,500 ft).
  • Rate of climb : 47 m/s (9,300 ft/min).
  • Powerplant : One Rolls-Royce Adour Mk. 951 turbofan with FADEC.
  • Thrust : 29 kN (6,500 lbf).
  • Thrust/weight : 0.65.
  • Armament (all armament optional) :
    • One 30 mm ADEN cannon, in centreline pod.
    • Up to 6,800 lb (3,085 kg) of weapons on five hardpoints, including :
      • Four AIM-9 Sidewinder or ASRAAM on wing pylons and wingtip rails.
      • 1,500 lb (680 kg), limited to one centreline and two wing pylons (Hawk T1).

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This text is available under the Creative Commons Attribution-ShareAlike License
Source : Article BAE Systems Hawk of Wikipedia ( authors )
BAe Systems Hawk & McDonnell Douglas T-45 Goshawk : Your comments on this subject
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    Some media may have escaped the vigilance of Administrators with regard to copyrights. If a user reports copyright infringement, he will be asked to prove that he is indeed the rights's owner for the concerned media. If so, his decision on the Administrator's next action will be respected: A total suppression of the Media on the Website, or the addition of some owner's reference. The publication of a media on the internet normally having as a goal to make it visible to many people, the Administrators expect in any case that the second option will be most often chosen.

    Pursuant to the Law on copyright and related rights, the user has the right to download and reproduce information on the Website for personal use and provided that the source is mentionned. They cannot however be used for commercial or advertising purposes.

    Using Blogs and filing comments

  • Moderator : The Administrator reserves the right to prevent the publication of comments that are not directly related to the Service without providing any explanation. Similarly, all insults, out of scope or unethical material will be banned.
  • Identification : Persons wishing to post a comment or use any form of contact are required to provide identification by the means of a valid e-mail address.
  • Responsibilities : Comments are posted on the Website under the unique responsability of their authors and the Administrators may in no case be liable for any statements or claims that the users might have issued.

    • As the comment system is hosted and maintained on servers external to the Website, the Administrators may in no circumstances be held responsible for the use that administrators of these servers or other third parties may have with those comments or filed data.

    Content Liability

    The Administrators carefully check the reliability of the sources used. They cannot, however, guarantee the accuracy of any information contained on the Website, partly because of the multiple sources from which they come.

    JavaScript and cookies - Storing information

    This Website imperatively uses JavaScript and cookies to function properly. Neither of these technologies, or other means shall in no case be used on the Website for the retention or disclosure of personal information about Visitors. Exceptions to this rule will involve storing the Users banned for inappropriate comments they might have given as well as contact information for Users wishing to subscribe to future newsletters.

    When a user accesses the Website, the corresponding servers may automatically collect certain data, such as IP address, date and time of Website access, viewed pages and the type of browser used. This information is kept only for the purpose of measuring the number of visitors to the different sections of the site and make improvements.

    Donations - Advertising

    To continue providing the Service for free, the Webmaster reserves the right to insert advertising or promotional messages on any page of the Site. In the same idea, any donations will only by used to cover the running costs of the site, such as hosting, connection fees, hardware and software necessary for the development and maintenance of the Website.

    Links and other websites

    Administrators shall in no case be liable for the non-availability of websites operated by third parties to which users would access through the Website.

    Administrators assume no liability for any content, advertising, products and/or services available on such third party websites. It is reminded that those sites are governed by their own terms of use.

    Placing a link to third party sites or authorize a third party to include a link on their website refering to this Website does not mean that the Administrators recommend in any way the products or services offered by these websites.

    Modifications

    The Webmaster reserves the right to modify at any time without notification the present terms of use as well as all content or specific functionality that the Website offers.

    The modified terms and conditions immediately apply to the using Visitor when changes come online. Visitors are invited to consult the site regularly on the most current version of the terms and conditions

    Governing Law and Jurisdiction

    These general conditions are governed by Belgian law.

    In case of dispute regarding the interpretation and/or execution of the above terms, the parties agree that the courts of the district of Nivelles, Belgium shall have exclusive jurisdiction power.

    Credits page

    Wikipedia.org

    Wikipedia is a collaboratively edited, multilingual, free Internet encyclopedia.

    Youtube

    YouTube is a video-sharing website on which users can upload, view and share videos.

    Special thanks to all Youtube quality aviation vids providers, specially (Those I forgot, please excuse me or report) :

    Airboyd
    Andys Video
    Aviation videos archives
    Bomberguy
    Classic Aviation TV
    Historical Aviation Film Unit
    Horsemoney
    Jaglavaksoldier
    Joluqa Malta
    Just Planes
    Koksy
    Classic Airliners & Vintage Pop Culture
    Memorial Flight
    Octane130
    Okrajoe
    SDASM archives
    Spottydog4477
    The Aviators TV
    Valentin Izagirre Bengoetxea
    Vexed123
    VonBerlich
    Zenos Warbirds

    Bundesarchiv

    The German Federal Archives or Bundesarchiv are the National Archives of Germany.

    FAQ

    I don't see my comments any more!

    Please note that each page has it's own comment entry. So, if you enter a comment i.e. on the B-747, you will only see it on that related page.

    General comments are accessed via the "BLOG En" button.

    Comments are moderated, so please allow some delay before they appear, specially if you are outside Europe.

    Menus are developing below the page, because they are too long!

    But they remain accessible, for example by scrolling the mouse wheel, or with your finger (on the menu) on a smartphone or tablet.

    I see adds on all videos.

    Use a good free add remover software.

    The site is loading random pages at startup.

    We think it is a good way to bring back the memory of aircraft, persons or events sometimes quite forgotten.

    HELP PAGE

    Why this site?

    Discovery

    This website is dedicated to one's aeronautical passion (which I hope we share) and was realised mainly as an educationnal tool. Knowing that, you'll notice that each new visit brings random topics for the purpose of making new discoveries, some achievements or characters certainly not deserving the oblivion into which they have sometimes fallen.

    By these pages, we also want to pay tribute to all those who gave at one time or another, their lives or health in the name of freedom, aeronautical security or simply our comfort.

    Centralisation

    Internet is full of websites dedicated to aviation, but most are dedicated to subjects or periods that are very limited in space or time. The purpose of this site is to be as general as possible and thus treats all events as well as characters of all stripes and times while putting much emphasis on the most significant achievements.

    The same years saw birth of technologies like photography and cinema, thus permitting illustration of a large part of important aeronautical events from the start. Countless (and sometimes rare) media recently put online by enthousiasts finally give us access to these treasures, but the huge amount of information often makes things a little messy. A centralization effort is obviously most needed at this level.

    All persons who directly or indirectly contributed to the achievement or posting of such documents are here gratefully acknowledged.

    General

    Fluid website

    This site automatically fits the dimensions of your screen, whether you are on a desktop computer, a tablet or a smartphone.

    Bilingual website

    You can change the language by clicking on the flag in the upper left or via "Options" in the central menu. Of course, the videos remain in the language in which they were posted ...

    Browser compatibility

    The site is not optimized, or even designed to run on older browsers or those deliberately deviating from standards. You will most probably encounter display issues with Internet Explorer. In this case, it is strongly recommended installing a modern (and free!) browser that's respecting the standards, like Firefox, Opera, Chrome or Safari.

    Cookies and Javascript

    This site uses cookies and JavaScript to function properly. Please ensure that your browser is configured accordingly. Neither of these technologies, or other means shall in no case be used on the Site for the retention or disclosure of personal information about its Visitors. See the "Legal" page for more on this subject.

    Website layout

    Left menus

    Because of the lack of space on smartphones and small tablets, these menus are hidden. Everything is nevertheless accessible via the main menu option, located between the video and photo sections. This menu is placed there for compatibility reasons with some browsers, which play the videos over the menus.

    "Search" and "Latest" :
    The link "In Titles" restricts the search to the titles of different forms. Use this option if you are looking for a plane, a constructor, a pilot or a particular event that could have been treated as a subject.

    The link "In Stories" will bring you to a search in all texts (the "Story" tab) and will take more time. The search term will appear highlighted in green when opening the corresponding story.

    Would you believe, "Timeline" will show all subjects in chronological order.

    "Random" will reload the entire page with a new random topic.

    The bottom section keeps you abreast of the latest five entries. New topics are added regularly. Don't hesitate to come visit us often : add bookmark.

    Blogs and Comments central section

    Under the photos section comes the comments tabs window :

    You can enter general comments in your own language via one of the two buttons on the left (BLOG EN and BLOG FR). Note that these buttons are accessible regardless of the language to allow some participation in the other language.

    All comments are subject to moderation and will be published only if they comply with the basic rules of decorum, while remaining relevant to the purpose of this site.

    The third tab allows you to enter comments on the shown topic and is bilingual. Personal anecdotes, supplements and other information questions will take place here.

    The "Story" tab shows the explanatory texts. They are most often taken from Wikipedia, a site where we participate regularly.

    The "Data" tab is reserved for list of features and specifications.

    Right menus

    On a smartphone, the lack of space is growing and this menu is moved to the bottom of the page to give priority to videos and pictures.

    The top right icons are links to videos posted by third parties (on their own responsabilities) or by ourselves. The link below these icons will take you to the channel of the one who posted the video. Feel free to suggest other videos if you think they are of some interest (Use the BLOG button or the "Contact" link).