What is a thrust vector control system?

What is a thrust vector control system?

Thrust vector control (TVC) is a vital part of space/aerospace maneuvering. It is essentially the ability of an aircraft, rocket, or launch vehicle to change the direction of flight via altering the thrust from its engine (or engines). In launch vehicles the control systems are often located next to the rocket exhaust.

What do pilots control the plane with?

The pilot controls the roll of the plane by raising one aileron or the other with a control wheel. Turning the control wheel clockwise raises the right aileron and lowers the left aileron, which rolls the aircraft to the right. The rudder works to control the yaw of the plane.

How do you set thrust vectoring in War Thunder?

To do this vector your nozzles to an appropriate angle (85-92\% on the harrier, 100\% on the Yak-38), then increase thrust until the aircraft begins climbing (avoid using WEP if you can as you only have a limited supply of it). Once airborne begin to slowly vector the nozzles and gain airspeed.

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How useful is thrust vectoring?

Today’s most maneuverable fighters use thrust vectoring, which can make a jet turn faster and more tightly. Flaps in the engine nozzle point up or down to “steer” the jet exhaust, making the airplane more responsive and maneuverable.

What is thrust vectoring flight control used for?

This will likely be used in many unmanned aerial vehicle (UAVs), and 6th generation fighter aircraft . Thrust-vectoring flight control (TVFC) is obtained through deflection of the aircraft jets in some or all of the pitch, yaw and roll directions.

What is the difference between 3-D nozzles and thrust vectoring?

Three-Dimensional (3-D): Nozzles with multi-axis or pitch and yaw control. Thrust Vectoring (TV): The deflection of the jet away from the body-axis through the implementation of a flexible nozzle, flaps, paddles, auxiliary fluid mechanics or similar methods. Thrust Vectoring Flight Control (TVFC): Pitch,…

How does the thrust vector pass through the mass center?

Nominally, the line of action of the thrust vector of a rocket nozzle passes through the vehicle’s center of mass, generating zero net moment about the mass center. It is possible to generate pitch and yaw moments by deflecting the main rocket thrust vector so that it does not pass through the mass center.

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How does thrust vectoring work in ballistic missiles?

A later method developed for solid propellant ballistic missiles achieves thrust vectoring by deflecting only the nozzle of the rocket using electric actuators or hydraulic cylinders.