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The answer is Helmholtz!
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Applications
Helmholtz resonance finds application in internal combustion engines (see airbox), subwoofers and acoustics. In stringed instruments, such as the guitar and violin, the resonance curve of the instrument has the Helmholtz resonance as one of its peaks, along with other peaks coming from resonances of the vibration of the wood.
JamesM wrote:just a question. whats the theory behind a longer pipe causing the velocity to increase?
with a manifold that is tappered then the pressure drop increases along it.. so the air is more likely to go down the first chamber then second etc..
or is it in fact the complete opposite.. due to the taper the air velocity increases and thus more air is forced down the furtherest away chamber and so on? i think thats more likely.. but also all the intake valves are not open at the same time.. so it might not make that much difference..
the manifold design is not optiaml anyway.. with having the throttle body perpindicular to the runners.. would be better with splitters for each runner.. or the best is to have individual throttle for each runner.. (quads etc).. this way the same amount of air is taken into each runner.
but with a turbo car i dont think the manifold design would be as crucial as for an NA car.. due to the air being forced into the runners due to pressure rather than beign sucked in. so for a turbo car its more like just a pressurised chamber.
soemthing to think about?
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