by Claus W. Turtur (Fachbereich Elektrotechnik, University of Applied Sciences Braunschweig-Wolfenbuettel)
Published in physic.philica.com
Abstract
A
theoretical method for the computation of zero-point-energy converters
has been presented as dynamic finite element method (DFEM) in [Tur 10a],
[Tur 10b], but in these articles, only the method of computation has
been described, without taking realizable parameters for an experimental
setup into account. The way to calculate a realistic system for an
experimental setup is developed here.
Therefore, the essential aspect is the question, how
to control the speed of propagation of the interacting fields, which
are responsible for the force, which drives the zero-point-energy
converter. In the work presented here, these are the fields of the
electromagnetic interaction, because for our example, a capacitor and a
coil have to be adjusted in a way, that the frequency of an
electromagnetic oscillation corresponds to the frequency of a mechanical
oscillation. It depends on the precision of this adjustment, whether
zero-point-energy is converted or not.Article body
1. The method of dynamic finite elements "DFEM"
The
DFEM-method was introduced in [Tur 10a] and [Tur 10b]. The first
mentioned article explained the theoretical background, and the second
one displayed an example, how to use this algorithm...
Full article: http://philica.com/display_article.php?article_id=213