Article Main Points -Thrust vectoring gives fighters a party trick with real teeth: by swiveling engine exhaust, jets can pivot, claw for lift, tighten turns, even flirt with a hover. -The F-22, Su-30 ...

On January 19, 1995, an X-31 experimental aircraft was making a routine test flight from the NASA Dryden Flight Research ...

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 ...

ZHUHAI, China—An AVIC-owned J-10B testbed demonstrated in a Nov. 6 flying display showed China’s new mastery of extreme aerial maneuverability aided by an experimental thrust vectoring control system.

Mazda G-Vectoring Control and Mazda G-Vectoring Control Plus are vehicle dynamics and motion control systems that respond to steering inputs with subtle engine torque and braking changes. In response, ...

Science Progress (1933-) Vol. 104, No. 1, 2021 Research on control effectiveness of fluidic thrust vectoring This is the metadata section. Skip to content viewer section. In view of the control ...

The internet has already taught us that an electric surfboard is a great way to get around on the water while looking like an absolute badass. [RCLifeOn] is continuing to push the boat forward in ...

As one of the world's most powerful fighter aircraft currently in service, the F-22 Raptor is a marvel of technological achievement. Made from some of the most advanced and durable metals and material ...

Historically, the thrust-to-weight ratio concept has served as a benchmark for the evolution of fighter jets. An aircraft’s thrust-to-weight ratio is a statistic that is often thrown around, but one ...