When the pursued plane returns the fire, a conservation of momentum in its speed happens. The momentum after the event will be equal to the momentum before the event.
Depending on the rounds fired there would be a slight drop in speed momentarily due to the blowback of the gun. If firing say a standard 5.5 machine gun then the effect would be minor,if it were larger missiles etc the effects would be greater but still neglidgeable due to the huge mass and kinetic energy of the aircraft.
The speed had to be around 500 miles per hour K
The Concorde was the first and only supersonic passenger airliner. Many other airplanes -- mainly military -- before and after it far exceeded its speed.
use y key to start plane, press m key repeatedly to speed up, n key to slow down, x to stop engine.
The Eurofighter Typhoon at 1550mph top speed
When the pursued plane returns the fire, a conservation of momentum in its speed happens. The momentum after the event will be equal to the momentum before the event.
The aircraft
You would hear the sound after the plane has passed.
202.5 mph
When the nose drops slightly, the plane's air speed typically increases because the change in pitch causes the aircraft to descend slightly. As the aircraft descends, it gains potential energy which is converted to kinetic energy, leading to an increase in air speed. Pilots use this technique to accelerate or descend quickly if needed.
Your speed will increase a whole a lot because your are free falling in mid air with no surroundings
When the throttle is opened wide, it accelerates down the runway.
its simple the sound barrier is broken :D
When the throttle is opened wide, more fuel is combusted in the engine, generating more power. This increased power allows the plane to accelerate, which results in an increase in air speed.
When you first push the throttle, or throttles if you have a multiengine airplane, to the stop the plane will accelerate to its maximum speed. Once it reaches it, the plane will just keep going very fast.
No planes are faster than light.
When thrust and drag are equal, the plane's speed remains constant. The forces are balanced, and the plane will maintain its current velocity without accelerating or decelerating. This state is known as "steady level flight."