New Scalar Wave Detector and laws of Scalar Physics

[Belfior]

Interesting stuff. As a side note I still think Kapanadzes OU is visible on his first video https://www.youtube.com/watch?v=3thvqFhFIfY

he is using that coil, a PC PSU and something under a circuit board to get that flywheel going and then using that to turn a generator. His OU is in the coil,PSU and what ever is under that piece of circuit board.

I think the grenade coil came later, when he had to hide the real thing under some garbage

[SolarLab]

F.Y.I.

As requested.

Reference to the above "Lessons, etc."; see sspickle (Steve Spicklemire) on
GitHub for Python, Java code and some support information:

https://github.com/sspickle

Also, may be of interest - Python - stuff:

https://pypi.python.org/pypi/vpython/7.1.3

FIN

[SolarLab]

F.Y.I.

The following youtube video clips illustrate several tasks that might be required 
in a practical approach towards FE/CE device analysis employing CAE.

There may be a steep learning curve; but the knowledge gained is universal
and the pay-back can be quite good in other areas as well. So it's not a waste
of the time and effort invested even if the "secrets" are not immediately revealed
- however, rest assured they will all surface, in a usable form, at some point.

Brief overview of coil and capacitor analysis and optimization
(one of many that are available):

COMSOL webinar - modeling coils and electric devices
https://www.youtube.com/watch?v=n7xhNFzWQ1U

From a typical users prospective (3 videos):

Multilayer Air Coil - Magnetic Flux Density - COMSOL 5.2 - (English Subt.)
https://www.youtube.com/watch?v=W40hkeqSvgM
https://www.youtube.com/watch?v=H6APIQ7WBFA
https://www.youtube.com/watch?v=n7xmWlS_p6g

High Voltage Capacitor Design on COMSOL
https://www.youtube.com/watch?v=aPdX7vhfApw

Note: (IMHO) One proven methodology when using CAE to analyze and solve
complex problems is to break up the "forest" into "various individual trees"
and then use the characterized "trees" to rebuild a structured "forest." Start
with the "easy trees" and a "small forest." Not so daunting, helps avoid being
overwhelmed and all the smaller pieces are still perfectly usable!

FIN

[SolarLab]

F.Y.I.

Some General Thoughts and Opinions -

A CAE Approach

Before balking at the up-front investment in time and materials; consider
the amounts that you may have already laid out towards this endeavor.

Many have poured thousands of hours and many thousands of dollars out
- look around your lab - wire, electronics, equipment - and in some cases,
years upon years of study and discussion.

Although it's been extremely interesting and educational; pragmatically,
the results are for the most part, really not quite there yet.

So, in an attempt to avoid being classified within the insanity category, that
is - doing virtually the same thing over and over again and expecting a
different result - it just might be time to try a different approach.

And, if the results turn out to be the same as before, then at worst we
will know that our current science, physics, or engineering needs to be
revised, updated or re-invented. We will have a much better idea of what
works and what doesn't.

The experimentalists appear to have proven much but the theorists have not.
Since CAE tools are now within our grasp; maybe we can help them out a bit!

Just my opinion and my "new" approach...


FIN

[SolarLab]

F.Y.I.

A (good)  general resource - ties an organized analysis approach to some of the
math that is used; and explains how it fits together to a great extent:

ACDCModuleUsersGuide (2.2MB)

https://www.researchgate.net/profile/Awani_Bhushan/post/Comsol_Acoustics_Module/attachment/59d63bc679197b8077998cef/AS:412692939591681@1475405072430/download/ACDCModuleUsersGuide.pdf

The "Review of Electromagnetics" chapter, although focused primarily on the Comsol AC/DC
module, presents (imho) an excellent overview and organized approach to the methodical study of EM in general.

It can also be appreciated, in general, some of the complex interactions that are involved.
Some insight into finding that proverbial "needle-in-the-haystack?"

*** This thing seems to have worked several times but it's "hit-and-miss"  and I can't
figure out why!   And worse; I don't even know what I don't know! ***

FIN