Robert Leguillon wrote:
Don't miss the fundamental argument of heat storage.
Great care was taken to insulate the E-Cat, and keep heat from
escaping. If you think that this is impossible, I have an experiment
for you. Make a scalding hot 1/2 cup of coffee. Put it into a
Thermos. See how long it takes to cool.
Yes, yes, yes, we all know that heat can be stored. Please look at what
I wrote. I am saying that it cannot be released passively from a stable
system except monotonically decreasing. Yes, the temperature can be very
high. Yes, the decline can be slow when you use lots of insulation. (But
in this case, the data proves it was very fast.)
But the temperature CANNOT go anywhere but DOWN. It can only decrease,
never increase. The rate of decrease must follow Newton's law. That is
the point you must address to prove the "stored heat" hypothesis. How
can it violate Newton's law? You need to demonstrate that it can by
experiment.
The only way it can go up is if there is heat generation. This is
absolutely fundamental to physics. It is the whole basis of calorimetry.
if this was not true calorimeters would not work.
- Jed