On 23 Feb, 15:07, Gene Fuller wrote:
craigm wrote:
art wrote:

Frank, choose your friends! Alpha and Beta were the first two letters
of the alphabet,

But nucleus and electron would be much clearer to the reader.

I do not wish to represent myself as a physicist.

Don't worry, you don't.

It is clear you don't know how electricity flows in a material.

Your example of the balls on the string is wrong. You state that under high
magnification the middle balls do not move. If this were to be true there
can be no energy transferred from one end to the other. This is a simple
example of elastic collisions and conservation of momentum. High school
physics covers this material.

Your concept of electrons leaving the surface and returning at anything
other than significantly elevated temperatures is fantasy.

You make the extention of Gauss' law to include time. However, from what I
know, Gauss' law applies to electroSTATICS. If this can extended to include
time, and you are the first to observe this, then some sort of rigorous
proof would be appropriate.

You might want to look at a basic book on electromechanics. You need a
better grasp of the fundamentals

This has been mildly, but sadly, amusing. However contorted the actual
antenna might be, the obvious problem is in the premise that somehow
Gauss' Law has been overlooked in the past.

To keep it simple, Gauss' Law is precisely one of the four standard
Maxwell Equations. Gauss' Law has been part of electromagnetics and
antenna theory for eons.

As for electromechanics, who knows?

73,
Gene
W4SZ- Hide quoted text -

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Gene, forgive me if I am incorrect but I am going to assume you have
an engineering degree and are fully conversant with the work of the
masters. I f I am not correct then we can stop at this point Otherwise
I fully recommend that you check out the web foe a book on fields and
waves or something like that by a professor at Rutgers University. In
chapter 21 he delves very deeply into an array consisting of four
elements all of which are resonant.
Ofcourse he doesn't mention anything of mine but you will notice that
the array he chose is actually what I refer to as a Gaussian array
since it meets all the requirements that I have expoused on my page.
He doesn't use computor programs but basic mathematics to provide all
the desirables plus a radiation field. This array is really a
derivitation of one designed some 50 years ago and is the only one I
know that exists in literature. If you study this chapter and relate
it to what I am expousing then possible you will see things with fresh
eyes. But again if you are not fully educated in this field save your
self from the bother. I personaly have a program that if you isert any
fugure and tell it to obtain maximim gain I assure you it will not
produce a yagi but a gaussian array........ and I am thrilled with
that.
Nuff said
Art