<Several crossed postings>
I want to explain that the temperature uniformaty used in
simple mathematical models of heat is not true, that
equipment that can stabilize temperatutes on a micrometer
or larger scale will have little effect on the kTB thermal
energy of the electrons in a single small electronic
component or similar thermal kinetic energy in a gas
molecule. The energy of the gas molecule has a clear
direction as if it was boiled from where it was and will
condense where it is going. The next step is to be able to
use these nanometer scale properties of heat. I believe
that a diode will rectify thermal electrical noise
(Johnson noise) and that a group of diodes in consistant
alignment parallel will aggregate the net rectified
remnent of all the diodes into useful amounts of
electrical power.
Do people mind if I change the subject title to summerize
the immediate discussion?
Aloha,
Charlie