Thrust-vectoring makes impossible maneuvers possible. The huge, powerful jets can perform extremely tight turns that ...

Thrust vectoring—essentially redirecting the plane’s exhaust flow—allows modern fighters to quickly change direction, giving them an edge in close combat.

Fluidic thrust vectoring and control refer to a suite of aerodynamic techniques that achieve directional control of engine thrust by modulating the flow field through the injection of secondary ...

The F-22 Raptor is designed to remain controllable even when traditional aerodynamics fail. Using thrust vectoring, it can ...

Fluidic thrust vectoring nozzles represent a promising approach in aerospace propulsion, utilising the controlled injection of secondary flows to manipulate the primary exhaust stream. This innovative ...

Barnstorming is rare at aerospace trade shows these days, but the thrust-vectoring RSK MiG-29M OVT fighter has rekindled the air display spirit with an arresting flying demonstration. The double ...

Innovative Flight-Ready Kit Enables Single-Axis Vectoring of Aircraft Propellers to Advance Aerial Vehicle Research and Development REDONDO BEACH, CA, UNITED STATES ...

Tranche 2 Eurofighter Typhoons will be delivered with upgraded control units for their Eurojet EJ200 engines designed to support the future introduction of a thrust-vectoring capability. The digital ...

The electric solar wind sail is a propulsion system that uses the solar wind proton flow as a source of momentum for spacecraft thrust. The momentum of the solar wind is transferred to the spacecraft ...

MiG is trying to persuade the Russian air force and others of the combat utility of thrust-vector control, now being flown on a MiG-29 Fulcrum development aircraft. The Russian manufacturer is ...

In view of the control effects of fluidic thrust vector technology for low-speed aircraft at high altitude/low density and low altitude/high density are studied. The S-A model of FLUENT software is ...