R.C.Macaulay wrote:
>
> Paul wrote,
>
>> I've often used the term "magnetic momentum" in my research. It's just
>> occurred to me "magnetic momentum" is a form of magnetic viscosity!!
>
> Howdy Paul,
>
> Should occur to astro-physicists that the rings around the Saturn planet
> have different colors that may be a possible indication of a function
> of magnetic viscosity. A mirror finish flat steel plate will exhibit
> these characteristics as it is heated. May be similar to what could be
> described as magnetic " resonance in color". Strange and wonderful are
> the imaginations of our new crop of scientists, un-incumberered with
> yesterday's rigid conformative discipline..
>
> Richard
Hi Richard,
Although I uses laws and equations, as they're useful, I never adhere to the
laws of limitations. Once one begins to adhere to a limitation it then becomes
difficult to break and overcome.
My email exchanges reveal nearly 100% of physicists firmly believe ambient
energy is unattainable energy-- entropy. When asked, "What about extreme
temperature gradients on an atomic scale?" they typically reply, "That's
unattainable energy since you need to average the temperature. When you average
the temperatures over time there's no gradients. No free lunch." Then such
physicists become stumped when you say, "Two high-speed sensitive temperature
probes separated by one inch, a macro distance, will show temperature gradients
at room temperature. That's a fundamental property of noise, as there's no
sudden scale/distance where such gradients vanish. It's noise-- random. Such
macro scale temperature gradients are available and usable energy. Therefore, at
what scale/distance is such temperature gradients become unavailable?"
I'm just absolutely flabbergasted how a so-called intelligent human being that
claims to be a physicist cannot understand why and how ambient temperature is
available usable energy. I've provided numerous simple methods of capturing
ambient energy. The above is just one of many.
Furthermore, my magnetic research precisely clarifies how magnetic entropy is
converted to lattice entropy in magnetic materials by means of electromagnetic
radiation. All that's left is inventing a clever design of efficiently capturing
such energy. Computer simulations show that such a design is very difficult and
requires a specific type of magnetic material. It appears Steorn has found such
magnetic material and a mechanical design to capture such energy.
Regards,
Paul Lowrance
