no not sincerely, if you are running the rev limiter than yes and quickly.
A particle accelerator engine propels spacecraft at high speeds by using electromagnetic fields to accelerate charged particles to very high velocities. These particles are then expelled from the spacecraft at high speeds, creating thrust that propels the spacecraft forward.
A loud knocking noise in the motor of a car at high speeds is most likely the engine. There could be another issue with the transmission if the knocking only happens at high speeds.
The variable intake controls the amount of air pushed through the engine in order to keep it from stalling. The laws of physics that describe Air flow at speeds below Mach 1 (speed of sound) are different for air flow at supersonic speeds. So the size and shape of the engine inlet at low speeds are different that at high speeds.
what year is your car and engine cylinders
Check the compression for the cylinders on the Eclipse. If there is?æa leak in one of the cylinders then this could cause the jerking.
Turn the boost up too high
Probably a matter of where the engine's power band is set out, or you may simply be bogging the engine down at lower speeds. Try downshifting and keeping your RPMs up a little.
On the Ford 4.0 liter OHV , V6 engine the PCM starts cutting the fuel back at 5200 RPM in order to protect the engine when it is IN GEAR I believe it does it at 3000 RPM when there is no load on the engine ( park / neutral ) ( if that is what you mean by high speeds )
You will not damage the engine but you can damage the radiator if you use any high pressure. If you only flush and apply no pressure you will do no damage. Use a chemical flush and a water hose and you will be safe.
The KTM 250 has a four stroke engine. It is a large and heavy bike but it does pack a lot of power in its engine and manages to get up to high speeds quickly.
Turbojets increase efficiency at high speeds because they rely on the forward motion of the aircraft to compress incoming air, which reduces the amount of work the engine has to do compared to slower speeds. This allows turbojets to produce more thrust for the same amount of fuel, resulting in improved efficiency at higher speeds.
Fighter aircraft achieve high speeds by use of a high-efficiency turbofan engine. The air is compressed by high speeds and by a turbofan, and is mixed with gasoline. The highly flammable mix of gasoline and oxygen is ignited, and exhaust from the combustion propels the craft.