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Re: Tesla Coil RF interference (humidity)
Original poster: Jim Lux <jimlux-at-earthlink-dot-net>
At 05:22 PM 5/26/2004 -0600, you wrote:
>Original poster: Brett Miller <brmtesla2-at-yahoo-dot-com>
>David,
>
>Yes, I have noticed the same consistency in arc
>lenghth over different heat and humidity levels.
>If there is an effect on tesla coils, it is one that
>is difficult to measure, and certainly not noticable
>with the naked eye. So as far as the effect of
>humidity on the arcs we love to see, I would say
>almost significant.
>
>-Brett
Given that the breakdown field for air doesn't change a whole lot with
humidity, I wouldn't expect to see a big change. Terry made some
measurements showing that the Q (loss) of the secondary might change with
humidity (particularly with cardboard tubes that happen to have some sort
of salt in them), and that might change the output power of the coil.
There might also be a change due to hot air being less dense (and, for that
matter, humid air is less dense than dry air), since breakdown voltage is
mostly a function of density.
Spark propagation is weird though, particularly in a Tesla coil. Imagine
that you are running your coil in a gas with half the breakdown strength of
air. You've got several conflicting, interacting effects. The initial
spark starts easier, but that drains charge off the topload faster, which
reduces the peak voltage, which reduces the overall electric field trying
to push the leader out.
I think that spark extinction time (i.e. the spark channel cooling enough
to become nonconductive) probably doesn't vary signficantly (in a spark
propagation sense) with small changes in air temperature. You're talking
about something cooling from 7000K or so, and whether it's cooling by
conduction to something at 40 degrees C or 0 degrees C won't make a heck of
a lot of difference. The primary cooling mechanism at that temperature is
going to be radiation anyway (that T^4 thing...). And even if it did cool,
it's cooling from the outside in, so it just makes the channel get
skinnier, but still conductive.