BAE SYSTEMS HAWK T1A (RED ARROWS)

BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A TRIBUTE LIVERYBAE SYSTEMS HAWK T1A TRIBUTE LIVERYBAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)BAE SYSTEMS HAWK T1A (RED ARROWS)

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.

  • Primary Users: Royal Air Force, Indian Air Force, Finnish Air Force, Royal Australian Air Force