„Emission & Regeneration“ Unified Field Theory
Osvaldo Domann
-
Methodology
Main characteristics of Fundamental Particles (FPs)
Unified field for all forces
Coulomb law
Ampere law
Induction law
Time quantification
Gravitation laws
Special and General Relativity
1
Motivation
The motivation was to find a physical theory that explain what generates the
forces we measure at charged particles.
Starting point.
• Definition of particles (electrons and positrons) as focal points in space where
Fundamental Particles (FPs) cross from infinite to infinite, FPs that are the energy
carriers of the particles.
• Definition of longitudinal and transversal fields for the FPs
Interactions
Determination of interaction laws between the fields of FPs in that way, that well
proven basic laws like Coulomb, Ampere, Lorentz, Maxwell, Gravitation, Bragg, etc
can be reproduced.
Important results
• Gravitation is composed of a Newton and an Ampere component where the latter
component explains the flattening of galaxies' speed curve and the expansion of
Galaxies.
• Relativity between two inertial frames formulate as a speed problem instead of a
space-time is Galilei instead of Lorentz covariant.
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Methodology
Postulated
3
Particle representation
transversal
longitudinal

p

p
4
Introduction
Distribution in space of the relativistic energy of a BSP with v  c
Ee = Eo2  E p2  Es  En
Es =
d =
Eo2
Eo2  E p2
where
En =
E p2
Focal point
Fundamental
particle
Eo2  E p2
1 ro
d
dr
sin

d

2 r2
2
dEe = Ee d =  J e
dEs = Es d =  J s
dEn = En d =  J n
dV=r 2 dr sin d

p
d
2
FP

Opposed angular momenta n
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Introduction
Linear momentum out of opposed angular momentum


dE n  ν J n

Jn

dp

 Jn
 
1
dE p 
dE n dl

2R
 1

dp  dE p s p
c
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Introduction
Moving particles with their angular momenta

p
   

p

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Introduction
Definition of field magnitudes dH
dH e = H e d  s e
with
H e = Ee
Longitudinal emitted field
dH s=H s dκ s
with
H s = Es
Longitudinal regenerating field
dH n=H n dκ n
with
H n= E n
Transversal regenerating field
Relation between the angular momentum J and the dH Field
dH e se= ν J e dκ se
dH s s = ν J s dκ s
dH n n = ν J n dκ n
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Characteristics of the introduced fundamental particles (FPs)
• Fundamental Particles are postulated.
• FPs move with light speed relative to the focal point.
• FPs store energy as rotations in moving and transversal directions
• FPs interact through their angular momenta or dH fields.
• Pairs of FPs with opposed transversal angular momenta generate
linear momenta on subatomic particles.
Classification of Subatomic Particles
• Basic Subatomic Particles (BSPs) are the positrons, the electrons
and the neutrinos
• Complex Subatomic Particles (CSPs) are composed of BSPs and are
the proton, the neutron, nuclei of atoms and the photons.
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Index
Interaction laws between two BSPs (electrons and positrons)
1) Interaction between two static BSPs (Coulomb)
2) Interaction between two moving BSPs (Ampere, Lorentz, Bragg, Gravitation)
3) Interaction between a moving and a static BSP ( Induction, Maxwell, Gravitation)
These three interactions between BSPs correspond to the three following
interactions between the longitudinal and transversal dH fields of the
Interacting BSPs.


1) dE p  dH s1 s1  dH s2 s2


2) dE p  dH n1 n1  dH n2 n2
3) dE p  dH n  dH s
p
Longitudinal X longitudinal (Coulomb)
Transversal X transversal
(Ampere)
Transversal X longitudinal (Induction)
The three following slides show each interaction in detail.
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Coulomb law
1) Interaction law between two static BSPs (Coulomb)
dH s = ν J dκ s

dE p =


dH e1 s1   dH s2 s2
re
rs
dp 
dpstat
1
dE p
c


1 
 d l  ( se1  ss2 ) 

sR =  
H
d

H
d

r1 e1 r1 r2 s2 r2  sR
c R
2R


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Ampere law
2) Interaction law between two moving BSPs (Ampere, Lorentz , Bragg and gravitation)
dE1( n ) = dH n n1  dH n n2
1
2
with
dH n ni =  n J n d i ni
i
dpdyn
i
i




1  dl  (n1  n2 ) 
sR =  
H n d r  H n d r  s R

1
1 r
2
2
R
r
c 
2R
1
2

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Induction law
3) Interaction law between a moving and a static BSP (Maxwell, Gravitation)
„Induction law“
( n)
dpind
sR =
1  dl  n

c R  2R


rr

H
d

sp
r p  sR
r r
p

H n d r

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Quantification
Time quantification
dp dE p
1
F


dH 1 s1  dH 2 s2
dt c dt c dt
Fstat=
1 Q1 Q2
4π o d 2
t = K ro ro
1
2
Coulomb
Fdyn=
Proposed approach
μo I 1 I 2
2π d
 s 
K = 5.427110 4  2 
m 
Ampere
Standard theory
roi  radius of focal point
The radius of focal points of BSPs.
ro =
c
E
with
E = Eo2  E p2
for v  c
and
E = 
for v = c
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Coulomb
Linear momentum pstat as a function of the distance between static BSPs
Nuclei core
Coulomb
Electrons and positrons that migrate outsite the nucleus core are reintegrated or
expulsed. Reintegration generates the gravitation forces while expulsion radioactivity.
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Newton and Ampere gravitation forces
Gravitation between two neutrons due to parallel and aligned
reintegration of migrated BSPs
Neutrons composed of electrons and positrons
Nuclei core
Nuclei core
Newton component
Ampere component
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Induction +Ampere gravitation laws
Total gravitation force due to the reintegration of BSPs
Ampere
component
Newton
component
 G R
FT  FG  FR= 2   M 1 M 2
d
d
For galactic distances the Newton component can be neglected and  FR explains:
• with a positive sign the flattening of galaxie‘s speed curve without the need of
dark matter
• with a negative sign the expansion of galaxies without the need of dark energy.
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Fallacy used to conclude that the existence of fictious
entities is experimentally proven (killing argument)
Fictious entities of the SM
Particle wave
Gluons
Gravitons
Dark matter
Dark Energy
Time dilation
Space contraction
Higgs
Etc.
Experimental data that don‘t fit with
v
the SM
Define fictious entity based
v data
on the experimental
Make SM consistent with new
v as possible
fictious entity as good
Invent justifications for remaining
v
Paradoxes and contradictions
Become used over the years to the
fictious entity andvcontradictions
Helpmates of the SM
Duality principles
Equivalent principles
Uncertainty principle
Glorify and idolize the fictious
v
entity and ist creators
Experiments showing indirectly data that
led to the def. of thevfictious entity
Wrong
Prove that fictious entity
v
really exists
Right
Biggest impediment for
scientific progress
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Special Relativity
SR is based on a Lorentz equation with time and space variables resulting
LT equations with time dilation and length contraction.
(x) 2  (y ) 2  (z ) 2  (ico t ) 2 v(x ) 2  (y ) 2  (z ) 2  (ico t ) 2
Einstein
Equal light speed in all relative moving inertial frames is a speed problem and
not a time and space problem as postulated by Einstein. LT equations based on an
equation with speed variables are free of time dilation and length contraction
and particles move according to Galilean relativity for all speeds.
v  v  v  v  v vv  v  v
2
x
2
y
2
z
2
c
2
x
2
y
2
z
2
c
Proposed
approach
The speeds v x ,v y ,v z are the speeds of the focal point in space. The forth
speed vc is the speed of the FPs that move radially through the focal point.
All the known relevant relativistic equations for the momentum, energy, acceleration
and Doppler effect are derived with the „E&R“ UFT approach.
Einstein’s SR is a perfect example of a classical theory that doesn‘t include physical
interactions of the measuring instruments. The approach arrives to time dilation
and length contraction, what is equivalent to say that time and length remain unchanged
but time unit (second) contract and length unit (meter) dilate. This violates fundamental
principles of theoretical and experimental physics because units must be
universally valid for all frames.
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Applications of the proposed approach
Equations describing the following effects and experiments, where relativity and
gravitation is involved, were already successfully derived with the proposed approach:
-
Flattening of galaxie´s rotation curve
Expansion of galaxies
Sagnac experiment
Haefele-Keating experiment
Thirring-Lense effect
Precession of the Perihelium
Prercession of a gyroscope in the precense of a massive body.
Conclusions about light in a gravitation field.
- Light only looses energy in gravitation fields shifting to red frequencies.
- Light is not bend by a gravitation field. Light is bend in the plasma rim of the sun.
- The Shapiro effect is because of reduced speed in the plasma rim of the sun.
Quantum mechanics
With “Reintegration of migrated electrons and positrons to their nuclei” a physical model
for gravitation instead of a fictious spacetime-curvature model as derived by Einstein,
it should now be possible to incorporate gravitation into quantum mechanics.
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Back to the roots and
away from science fiction !
Thank you for your attention,
The complete work is available at
www.odomann.com
Osvaldo Domann
[email protected]
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