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8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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Vortex-ring-fractal Structure of Hydrogen Atom
Pavel Omera
AbstractThis paper is an attempt to attain a new and
profound model of the natures structure using a vortex-ring-
fractal theory (VRFT). Scientists have been trying to explainsome phenomena in Nature that have not been explained so
far. The aim of this paper is the vortex-ring-fractal modeling
of elements in the Mendeleevs periodic table, which is not in
contradiction to the known laws of nature. We would like to
find some acceptable structure model of the hydrogen as a
vortex-fractal-coil structure of the proton and a vortex-fractal-
ring structure of the electron. It is known that planetary model
of hydrogen is not right, the classical quantum model is too
abstract. Our imagination is that the hydrogen is a levitation
system of the proton and the electron.
Index TermsModel ofhydrogen atom, vortex-ring-fractalstructures, covalent bond
I. INTRODUCTIONThe electrical force decreases inversely with the square
of distance between charges. This relationship is calledCoulombs law. There are two kinds of matter, which wecan call positive and negative. Like kinds repel each other,while unlike kinds attract unlike gravity, where onlyattraction occurs [8]. When charges are moving theelectrical forces depend also on the motion of charges in acomplicated way [1].
Fractals seem to be very powerful in describing naturalobjects on all scales. Fractal dimension and fractal measureare crucial parameters for such description. Many natural
objects have self-similarity or partial-self-similarity of thewhole object and its part [3].Most of our knowledge of the electronic structure of
atoms has been obtained by the study of the light given outby atoms when they are exited. The light that is emitted byatoms of given substance can be refracted or diffracted intoa distinctive pattern of lines of certain frequencies andcreate the line spectrum of the atom.
The careful study of line spectra began about 1880. Theregularity is evident in the spectrum of the hydrogen atom.The interpretation of the spectrum of hydrogen was notachieved until 1913. In that year the Danish physicist NielsBohr successfully applied the quantum theory to this
problem and created a model of hydrogen. Bohr alsodiscovered a method of calculation of the energy of thestationary states of the hydrogen atom, with use of Plancksconstant h. Later in 1923 it was recognized that Bohrsformulation of the theory of the electronic structure ofatoms to be improved and extended. The Bohr theory didnot give correct values for the energy levels of helium atomor the hydrogen molecule-ion H2
+, or of any other atom withmore than one electron or any molecule.
Manuscript received July 14, 2009. This work was supported in part bythe Czech Ministry of Education under Grant No: MSM 00216305529, Q W H O O L J H Q W 6 \ V W H P V L Q $ X W R P D W L R Q D Q G E \ W K H J U D Q W D J H Q F \ * $ 5 1 R
102/09/1668: Control Algorithm Design by Means of EvolutionaryApproach.
P. Omera is with the European Polytechnical Institute Kunovice,Osvobozen 699, 686 04 Kunovice, Czech Republic(e-mail: osmera @fme.vutbr.cz).
During the two-year period 1924 to 1926 the Bohrdescription of electron orbits in atoms was replaced by the
greatly improved description of wave mechanics, which isstill in use and seems to be satisfactory. The discovery by deBroglie in 1924 that an electron moving with velocity v hasa wavelength K mev [2]. The theory of quantummechanics was developed in 1925 with the Germanphysicist Werner Heisenberg. Early in 1926 an equivalenttheory, called wave mechanics, was independentlydeveloped by Austrian physicist Ervin Schroedinger.Important contributions to the theory were also made by theEnglish physicist Paul Adrien Maurice Dirac. The mostprobable distance of the electron from the nucleus is thus
just the Bohr radius rB (ro); the electron is, however, notrestricted to this distance. The electron is not to be thought
of as going around the nucleus, but rather as going in andout, in varying directions, so as to make the electrondistribution spherically symmetrical [2].
Matter is composed of tiny atoms. All the atoms of anyelements are identical: they have the same mass and thesame chemical properties. They differ from the atoms of allother elements. Twenties-century X-ray work has shownthat the diameters of atoms are of the order 0.2 nm (2x10-10
m). The mass and the positive charge are concentrated in atiny fraction of the atom, called nucleus. The nucleusconsists of protons (p) and neutrons (n). Protons andneutrons are made up of smaller subatomic particles, suchas quarks. Both protons and neutrons have a mass
approximately 1840 times greater than an electron (e). Themore energy an electron has, the further it can escape thepull of the positively charged nucleus. Given sufficientenergy, an electron can jump from one shell to higher one.When it falls back to a lower shell, it emits radiation in theform of a photon.
II. THE SPIN OF THE ELECTRON
It was discovered in 1925 that the electron hasproperties corresponding to its spin S. It can be described asrotating about an axis of a ring structure of the electron (seeFig.1 and Fig.7) [7]. The spin of the electron is defined as
angular momentum [8]:
000
YUP6
=(1)
For the spin on axis z:
eee
z vrN
mNS = (2)
where me is the mass of the electron, reis the radius of theelectron and N is number of substructures inside thestructure of the electron. In [8] the formulae for radius re ofthe electron are:
2
0
2
2 1
8 eee
vm
er =
(3)
mmee vvvv
22=== (4)
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009
8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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h
evm
0
2
4= (5)
where er is mean radius, v is mean velocity of the electron
[8], ev is mean velocity of the subelectron, vmis maximum
translation velocity of the electron and vme is maximumvelocity of the subelectron -1e (maximum rotational velocity
of the electron) if the electron has distance do (see Fig.2 andFig.7) and minimum energyEqo , see equation (33) or [8].
Mean radius er is:
==2
2
02
2
48 mee
vm
er
(6)The spin Szon axis z:
=== emeeeez rvmrvmS
2
(7)where
=
8
P
(8)
The result in (8) is in coincidence with the generallyequation for the spin, where ms is spin quantum number [8].
We can suppose that a fractal structure of the electron hasZ D Y H O H Q J W K 1 o (see Fig.1a):
2222
===
N
N
Nr oe (9)
or from Fig.1b
= er22
4=er (10)
where N is number of subparts (for example: number ofsubelectrons). Formulae (7) with (10) lead to:
==== eee
eeez rvN
mN
hrvmS
22
1
(11)
vm
h
vm
hN
vm
h
ee
o
ee
==== (12)
vve = (13)It can be an explanation of de Broglies equation for awavelength
K
mv because we suppose that the electronenergy Et of translation movement is the same as therotational energyErof the rotating electron [8].
Fig. 1 The electron that is moving with velocity v has awavelength
K
mev (de Broglies equation):D 5 H O D W L R Q E H W Z H H Q D Q G o in the fractal-ring
structure of the electron,
b) An inner ring of the electron with spin quantumnumber: 1/2 (twice around annuloid to match).
It is the 21-multiple double-helix-line structure(here only one double helix with markers 1,2).
III. MODEL OF HYDROGEN ATOM
In a new model of the hydrogen atom with a levitatingelectron [7], [8] there is attractive (electric) force F+ and(magnetic) repellent force F- :
== + 4
2
2
2 1
4 d
d
d
eFFF o
o
(14)
The hydrogen atom can have the electron on left side or onright side (see Fig.4a, 4b). The attractive force F+ isCoulombs force. The repellent force F- is caused withmagnetic fields of the proton and the electron (see Fig.2). Adistance between the electron and the proton is d in (14).The electron moves as Yo-Yo (see Fig. 3)
The Bohr radius rB (or ro) has the same size as the
distance mdo111029.5 [2] in our vortex-fractal-ring
model [8].
22
16
32 2
2
0
4
22
0
0
2
o
ee
d
em
h
e
h
m
e
===
smh
===2
1
22
1
==2
2
0
0
2
24
2
em
h
h
em
e
e
==2
0
2
4
1
8me
vm
e
4=
e
e vN
mN
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009
8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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Fig.2 The levitating electron in the field of the proton (thefractal structure model of hydrogen H is simplified[8]).
Fig.3 Displacement velocity v and rotation velocity ve ofthe electron on Fig.2
Fig.4 Distances do= ro between proton and electron [8]a) left side orientation of hydrogenb) right side orientation of hydrogenc) the hydrogen molecule-ion H2
+
d) the hydrogen molecule H2with covalent bond
To calculate quantum model of hydrogen we use radius reof the electron, which was derived in [8]:
2
2
2
2
4e
o
e
oe
v
v
m
er
= (15)
for 2
cvo =
oo
o
cv
2
1
2
22 == (16)
Fig.5 Vortex-fractal structure of the neutron [8]
Fig.6 Vortex-fractal structure of the proton [8]
===2
2
2
2
2
2
2
2
244ee
o
e
o
e
o
ev
c
m
e
v
v
m
er
2
0
2
2 1
8ee vm
e=
(17)
IV. STRUCTURE OF ELECTROMAGNETIC FIELD
Electric lines or rays with different substructures(positron and electron substructures) repel each other (seeFig.8). The same types of substructures (lines) attract eachother and create braids. The same behavior has magneticfield - magnetic lines or rays with electron and positronsubstructures repel each other (see Fig.9). Electric lines are
do
v , ve +vm+vme
-vm-vme
v= ve=0
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009
8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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formed from electron subparts (-4e) or/and positron subparts(-4
# 0 D J Q H W L F O L Q H V D U H I R U P H G I U R P H O H F W U R Q V X E S D U W V
-3e)or/and positron subparts (-3
# ( O H F W U L F O L Q H V R U U D \ V D U H
perpendicular to magnetic lines or rays. The ray is a braidof lines (see Fig.8).
Fig.7 Vortex-fractal ring structure of the electron [8], [10]
Fig.8 Structure of the electric field
Fig.9 Structure of the magnetic field
EnergyEo of the quite and free electron0e [8], which has
velocity v=0 and quite mass meo, can be calculated fromkinetic energy of their subparts: subelectrons -1e withvelocity v-! (ve), subsubelectrons
-2e with velocity v-2 (vo),
subsubsubelectrons -3e with velocity v-3,subsubsubsubelectrons -4e with velocity v-4 , and
subsubsubsubsubelectrons
-5
e with velocity v-5(see Fig.11):If velocities of substructures are [7], [8]:
==0
YY2
543
cvvvv
o=== (18)
then their inner kinetic energy is:
++ 32
33
22
2 2
1
2
1Nv
N
mNv
N
mE eoo
eoo
(19)2
cmE eoo (20)
This result is in coincidence with the well-knownEinsteins law. Mass is a measure of the amount of matter inan object. The objects inertia is proportional to its mass,and Einstein showed that mass is actually a very compactform of energy.
Figure 10 explains a particle structure of the photon and awave behavior of the light ray, which consists from more
photons arranged in the series (sequence, string). A vortexpair is created from bath vortex VB an a tornado vortexVTwith flow of energyE[8].
Fig.10 Structure of light as a ring particle or a wave energystructure
VI. QUANTUM MODEL OF HYDROGEN
To calculate a quantum model of hydrogen we use radius reof the electron, which was derived in [8]:
2
2
2
2
4e
o
e
oe
v
v
m
er =
(22)
2
2
2
2
422
e
o
e
oe
v
v
m
er =
(23)
Let us assume that [18]:
oo
o
cv
2
1
2
22 == (24)
On a circumference of a circle with re (see Fig.1) have to ben R I D K D O I Z D Y H O H Q J W K K P ev (n is quantum
number) [8]:
====2
2
2
22
2
2
2
21
42422
eeoee
o
e
o
e
oe
vm
e
v
c
m
e
v
v
m
er
cmNvNmNv
Nm eo
eoeo =++ 5255424421
21
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009
8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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(25)
nhv
e
eo
=1
2
2
(26)
nhv
e
mo
=22
2
(27)
where vmis maximum velocity of the electron if the electronhas distance doand minimum energyEqo [8]:
h
e
nv
o
mn4
1 2= (28)
EnergyEtof translation movement of the electron is:
22
4
22
16
1
2
1
h
em
nvmE
o
emet== (29)
Energy Er of rotation of the electron is due to a maximalsymmetry in the multiple double-helix structure of theelectric field has the same size as energy Et of translationmovement. Total energyEq of rotating and moving electronis:
=+=rtq EEE
(30)
For quantum number n=1
H9K
HP(
4
0
6 4
=
(31)
eVd
e
d
eEE
oooo
oqo6.13
1
84
31
64
3 22===
(32)
ooo
e
qo d
e
h
em
E
1
88
2
22
4
== (33)
mem
hd
e
oo
11
2
2
1029.5 =
(34)
It is the same result as Bohr obtained [2] but with quitedifferent hydrogen model.
VI. CONCLUSIONS
It seems that gravitation lines (from graviton fibers) arein the same axes as levitating electrons [8]. Gravitation linesrepel each other and due to the two bodies are attracted. The
gravitation lines are braids, which are created from gravitonfibers. A quantum-foam-space that is full of graviton fibersand ring structures we would like to call gravitonum (or
shortly gravum) to distinguish from the terms: vacuum,ether etc. The gravum is a space where are highly organizedand lower organized substructures. It means they are in adifferent level of self-organizational state (see Fig.11).Smaller substructures can create dark matter and darkenergy. The name osmeron (see Fig.11) was derived fromthe name Osmera of Egyptian deity with 4 pairs of godsas primary creative forces (from a chaos beginning).
Osmerons are very small. It explains why they haveimmeasurable size and mass. From the basic osmeronsubstructure the electron, proton and neutron can be created[8].
The exact analysis of real physical problems is usuallyquite complicated, and any particular physical situation maybe too complicated to be analyzed directly by solving thedifferential equations. Ideas as the field lines (magnetic andelectric lines) are very useful for such purposes. We thinkthey are created from self-organized subparts of gravum(see Fig.11, Fig.8 and Fig.9). A physical understanding is acompletely nonmathematical, imprecise, and inexact, but itis absolutely necessary for a physicist [1]. It is necessary to
combine an imagination with a calculation in the iterationprocess [4]. Our approach is given by developing graduallythe physical ideas by starting with simple situations andgoing on towards the more and more complicated situations.But the subject of physics has been developed over the past200 years by some very ingenious people, and it is not easyto add something new that is not in discrepancy with them.The vortex model (see Fig.7) of the electron was inspired byvortex structure in the PET-bottle experiment with one holeconnector ($3 souvenir toy, Portland, Oregon 2004) [7], ourconnector with 2 or 3 holes [7], [8] and levitating magnetlevitron (physical toy). The ring theory is supported byexperiments in [9] and [11] too. Now we realize that the
phenomena of chemical interaction and, ultimately, of lifeitself are to be understood in terms of electromagnetism,which can be explain by vortex-ring-fractal structure indifferent state of self-organization inside gravum.
ACKNOWLEDGMENT:This work has been supported by Czech Ministry of
Education No: MSM 00216305529 Intelligent Systems in$ X W R P D W L R Q D Q G * $ 5 1 R & R Q W U R O
Algorithm Design by Means of Evolutionary Approach.
REFERENCES
[1] Feynman R.P., Leighton R.B., Sands M.: The FeynmanLectures on Physics, volume I-III, Addison-Wesleypublishing company, 1977
[2] Pauling L.: General Chemistry, Dover publication, Inc, NewYork, 1988
[3] Ian Stewart: Does God play Dice, The New Mathematics ofChaos, Penguin, 1997
[4] Li Z., Halang W. A., Chen G.: Integration of Fuzzy Logic and
Chaos Theory; paragraph: Osmera P.: Evolution of
Complexity, Springer, 2006 (ISBN: 3-540-26899-5)[5] Huggett S.A., Jordan D.: A Topological Aperitif, Springer-
Verlag, 2001[6] Thorne, K.S.: Black Holes & Time Warps, W.W.Norton &
Company, Inc., 1994
[7] Omera, P.: The Vortex-ring Structures and MendeleevsTable, Proceedings of WCECS2007, October 24-26, 2007,San Francisco, USA, 152-157
22
4
2
8
12
h
em
n
Eo
et
==
vm
hn
vm
hnn
eee2
1
2
1
2===
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009
8/3/2019 Pavel Omera- Vortex-ring-fractal Structure of Hydrogen Atom
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[8] Omera, P.: Vortex-fractal-ring Structure of Hydrogen,
Proceedings of MENDEL 2009, Brno, Czech Republic (2009)
81-92.
[9] Mauritsson J.: online.itp.ucsb.edu/online/atto06/mauritsson/
[10]
apkov T.: Modeling Fractal Objects in Blender, bachelor
work, UTB, Zln, 2009
[11] Lim, T.T.: serve.me.nus.edu.sg/limtt/
Fig.11 Fractal-ring structure of Universe (ring theory) [5], [6], [8]
Proceedings of the World Congress on Engineering and Computer Science 2009 Vol IWCECS 2009, October 20-22, 2009, San Francisco, USA
ISBN:978-988-17012-6-8 WCECS 2009