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Preface to the lecture, 1
st
Edition 1996
The theme encloses the electromagnetic compatibility of both technical and biological
systems. Only part of the electromagnetic wave can be considered for function troubles,
namely the part that was absorbed and has rolled up to a vortex. The activity depends on
the number of created vortices and of their lifetime, their decay.
The eddy current only manifests in conducting materials. In the air and in dielectric
materials on the other hand the vortex of the electric field will form, also called the
potential vortex. To calculate and to measure this vortex is our goal.
First we'll carry out a survey of the problems and the usual methods. From the analysis of
unsolved problems the need for the introduction of the new vortex
phenomena is deducted
and an adequate field-theoretical approach will be chosen. Afterwards the potential
vortices are calculated and their properties are discussed and interpreted.
For the purpose of proving their existence, on the one hand the Schrodinger equation will
be derived and on the other hand the quantum properties of the most important elementary
particles will be calculated and compared with the well-known measured values.
Measurement and calculation are in excellent agreement for weight, charge, magnetic
moment and spin. So the theory not only proofs it's correctness, in addition it
demonstrates it can achieve much more. The theory takes us to the unification of the well-
known interactions and physical phenomena and shows itself as an unified theory.
In the practical conversion and usage of the theory there will not only be informed but by
all means also be provoked as an entrance in a fruitfully discussion. Fundamental
questions will be taken up like: What is information, energy, temperature or smell? The
connection to the theme of the electromagnetic environmental compatibility is formed by
the technical and the biological usage of the potential vortices, the energy transmission of
Nikola Tesla exactly like the in a similar way functioning nerve conduction. Here we
already can expect biological reactions.
This lecture, held for the first time in the winter semester of 1995/96, is available in book
form, as an edition belonging to the lecture. This lecture will not deliver ready recipes or
instructions. The goal is reached when the critical sense of the listeners and readers has
been inspired and discussions have been set going. Everybody has to draw the
consequences out of such a theory by him- or herself.
In addition to this lecture a seminar is offered, wherein several themes are supplemented
or deepened, different theories are compared and possible consequences are discussed.
The appearance of an edition belonging to the seminar has started in 1998
.
Regarding the conversion of consequences both politicians and scientists are equally
addressed, because the electromagnetic environmental compatibility has developed to one
of the most urgent problems of today's world. But in last consequence all of us bury the
worldwide responsibility for our environment.
: K. Meyl: Electromagnetic environmental compatibility, Part 2 and 3 of this
book, Edition belonging to the seminar.
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Table of contents
Page
Preface to the Lecture. 1
st
Edition 1996 .............................................................III
Table of contents ............................................................................................. IV
Part 1 edition belonging to lecture "Electromagnetic environmental compatibility"
1.
Introduction ...................................................................................................... 1
1.1
Discussion about limits........................................................................................3
1.2
Wireless telephones............................................................................................. 5
1.3
Absorption of waves ............................................................................................7
1.4
Overlap effect .................................................................................................... 9
2. Tasks
................................................................................................................ 11
2.1
Tasks of the electromagnetic environmental compatibility.................................. 11
2.2
Tasks of the electromagnetic compatibility (EMC) ............................................ 13
2.3
Declaration of conformity ................................................................................. 15
2.4
EMC-techniques to measure the emission of interference .................................. 17
2.5
Electro smog ..................................................................................................... 19
2.6
EMC-techniques to measure the stability against interference .......................... 21
2.7
Tasks of the biological compatibility ................................................................ 23
2.8
Natural fields .................................................................................................... 25
2.9
Electricity of the air........................................................................................... 27
2.10
Biological effects............................................................................................... 29
2.11
Artificial fields .................................................................................................. 33
2.12
Protection against artificial fields....................................................................... 35
2.13
Unsolved tasks .................................................................................................. 37
3. Approach
......................................................................................................... 39
3.1
Principle of causality ........................................................................................ 41
3.2
Field-theoretical approach ................................................................................ 43
3.3
Duality .............................................................................................................. 45
3.4
Flow vortices ................................................................................................... 47
3.5
Rankine vortex.................................................................................................. 49
3.6
Vortices and anti-vortices .................................................................................. 51
4. Properties
........................................................................................................ 53
4.1
Concentration effect ..........................................................................................53
4.2
Duality of the vortex properties ......................................................................... 55
4.3
Derivation of the electron as an elementary vortex ............................................ 57
4.4
Quanta as field vortices .................................................................................... 59
4.5
The photon ........................................................................................................ 61
4.6
Pair creation...................................................................................................... 63
4.7
Noise ................................................................................................................. 65
4.8
Condenser losses ...............................................................................................67
4.9
Vortex lines and vortex streets ...........................................................................69