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Particle radiation
This section is a continuation of the Mass Formation
section
The universe is a self-developing
and self-adjusting system.
The universe's
development system is about a basic part and the rest
are combinatorial compositions and stabilization points.
We have that the universe in a classic Big Bang can
only create one particle and is the only particle that
is active.
I have named it a Basic Particle and it
has the mass energy 5.185681022 * 10-34 kg.
It is not
stable at rest but at the speed of light.
Two particles are created in connection with the
Big Bang, an electron and a proton bound
together by Basic nuclei which makes these two particles
stable at rest and form mass attraction of the
particles.
The electron and proton cannot be synthetically created;
if the stabilization point is broken, the particles
collapse and the Base particles become radiation.
In this section we look at the basis of the
particle's energy conversion system.
There
are two types that work in the same system.
Speed
changes in a mass.
Radiation from the base nuclei of
an atomic mass.
Some different properties associated
with radiation.
One cannot consume energy,
therefore the energy stabilization of the universe is a
displacement where both velocity (spread) and volume are
max. locked.
The universe's core is therefore locked
at this max. size that is essential for the base core to
absorb and emit radiation.
Mass is made up of basic cores and forms the mass of
attraction.
Mass and kinetic energy are two parts of
the same system (no mass, no kinetic energy).
Mass has no solid form and is formed by
the forces it is influenced by.
The kinetic energy of
the mass is generated by an offset of the velocity
vectors of the resting mass.
The universe can only create a particle,
which I call a basic particle and which are the building
blocks of radiation as well.
The base core mass is
measured in kg. and is max. the energy that a bright
string can have, you will not experience this value
being exceeded.
If the base nucleus lies stationary relative to the
resting point of the universe (coordinate 0,0,0) it will
try to send a light strand with velocity and length c. .
You must be aware that radiation is a variant of the
universe's mass particle system.
Some physical
processes quickly find a resting point, e.g. mass
attraction, with radiation it is often the reverse e.g.
molecular structures here, the rate of turnover between
absorption and emission is extremely high and the strand
length very small. If the temperature is raised it
indicates that the turnover rate has increased.
You
can see this process in the Brownian motions of the
molecule and that the temperature is equalized between
hot and cold liquids. I would recommend that you look
closer at this here in the middle section on molecular
bonds
I just want to note;
When a particle decelerates, the light string will be
formed by two parameters. see fig. K24
A basic
core that absorbs and emits a light string
will use
only amount parameter which is a sumform, because the
absorbed light string already has the velocity c.
All
atomic systems will therefore emit a line spectrum
formed in sum form. There are some visible cases in the
hydrogen spectrum but this applies to all spectra.
I show here some more detailed examples of
how radiation works.
It is not because I
have anything against wave physics as such, but it is
necessary to see the universe as a complete evolving
system where there is a connection between mass,
particles and also radiation. Radiation as a wave does
not fit into the development machine of the universe.
Radiation is one of the universe's
fundamental building blocks of the universe and
is included in all physical connections.
I will show an interesting example which should give you
something to think about.
A blacksmith is knocking on
a piece of iron, the iron becomes hot and emits infrared
light. The smith has just by knocking on a piece of iron
reached the speed of light.
Here I show a
picture of the most common way to split a light beam on.
Scattering of photons comes when the light is deflected
by the mass attraction of the atomic nucleus. The places
where there is impact of photons, spectral points
appears, the rest of the tape is black (nothing).
Deflection of a light beam is much more than the line
spectrum, you can see more about it in my other
sections.
When a particles velocity
becomes larger, its properties will be changed.
When a particle reach the speed of light, we get a very
long particle as I call a light beam but it still have
has the same particle characteristies
.
A light beam has mass deflection
characteristic and is a variant in the particle
system of the universe.
To calculate a light
beams energy, it is necessary to calculate it from the
light beam standard length c.
All particles have a built-in system to absorbing and
emitting radiation.
The way the system works is that
it is not always the entire string length that is
emitted but small bits each having the same properties
as a whole string of light.
The properties of the
string can be determined by using the mass attraction of
the light string,
A light beam is deflected in a
force field Fig. f 32
On the photon's transverse axis there is normal
particle characteristic.
Therefore it is possible
because of the mass attraction between two particles to
calculate the light beam's deflection.
If we send
some light with different wavelengths from point A, the
light will arrive at point B with arrival times which
are longer than if the light beam is send in a straight
line (the light speed is c).
We observe
it as if the light hesitates. The light is an
exact size that always moves with speed c only (it is
one of the most important functions in the universe, see
other sections).
A particles radiation
system
A particle is composed of the basic
nucleis as also the atomic nucleus is composed of . It
is the basic nuclei which treats radiation and is the
universes main building blocks. If a particle had no
basis nuclei the particle would neither have any
absorption and emission system.
It will take a
second to create a light beam with the length c which is
a very large time in the world of atoms.
The basic
nucleus starts to emitters one light beam, but before it
has reached to send the entire string, it absorb another
light beam. The two amounts of energy melts together
and the whole process starts over again.
The basic nucleus emits therefore light beam into
small pieces, where every pieces has the same
characteristic as a whole light beam.
By physical and
mathematical reasons it is necessary to calculate the
entire light beam´s length to find the light beam´s
diameter as it interacts with mass.
A basic nucleus
can be considered a machine that continually absorbs and
emits radiation and there are millions of them in an
atomic nucleus.
You can try to imagine how small a
basic nucleus is and it all takes place constantly with
the speed of light.
It is also the basic nucleus
which transforms the energy to radiation in connection
with a particle´s deceleration and it is the one part
which forms the the molecular binding structure.
The basic nucleus is only stable in free standstill at
the speed of light c
The basic nucleus is responsible for all radiation, so
it is the one that determines the max. and min. of the
radiation size
Technical and mathematical sizes
The max. radiation value is 5.185681022 * 10-34kg
or 4.6606576 * 10 -17joul
The min.. radiation value is greater than 0 joul
Al
radiation lies within this range and is an entire light
beam.
I can then see that there is a
large radiation area under radio waves that has not been
mapped.
Technical provision.
E base = (V basis * c
2) * c 2
When a particle decelerate dv, the basic nuclei will
redistribute the kinetic energy.
E Kinetic
= (V basis * dv 2)
* c 2
E Kinetic = (V basis * c
2) * dv2
The constant is technically determined and is one of
the universe's basic elements which I will not deviate
from.
A deviation will affect other important construction
parts.
The constant is therefore technical specific
to 5.185681022 * 10 -34 kg.
Photon internal structure
When a
particle decelerates the basic nuclei are supplied
energy with the speed dv2
The basic
nucleus can not contain two different values of speeds
(dv2) and we get a compression to the highest
value c2. The volume is reduced and the speed
increases to c.
There is nothing new in compression,
we know it from the big bang.
m basis2
= (V basis * c 2)
+ (V basis* dv
2) = m basis2= (V
basis * c 2) + (V
photon * c 2)
If the basic nucleus could not transform kinetic
energy by compression, so the nucleus would not be
ableto emit a light.
All light beams has the speed
c, it is the volume of the light beam which forms the
light beam´s diameter.
It is the light beams
diameter that ineracts with a force field and make sure
we get a deflection.
If the basic nucleus is in rest in proportion to the
coordinates (0,0,0) of the universe and emits one light
beam, the string length is c.
If the nucleus is
moving toward or away from the photons emission line the
string length will be longer or shorter and we get
another string diameter and another deflection when it
interacts in a force field.
The phenomenon is observed as a displacement in the line
spectrum, also called red and blue displacement
Notes kinetic energy and radiation
Ex. a proton consists of about 3.2 million basic nuclei
which are bound together and forms the whole mass of the
proton.
When the proton deaccelerates all the basic
nuclei as the proton consists of will be allocated the
energy
mbasis
= Vbasis * dv2.
We have here monotonous radiation with almost the
same wavelength.
If you want to do some tests
with deflection of a light string in a force field, you
must first calculate the light string diameter and
determine the distance between the atomic nuclei as
shown in Fig. F32
You need to use a set of formulas
for mass attraction and put a computer simulated model
up. I would not recommend that you use the old heavy
mass attractiveness formulas, but instead use the new
light formulas.
Concluding remarks
Keep in mind
that radiation is a high-speed particle and is subject
to the same rules as a regular particle, here under
action and reaction.
That there is a large
radiation area under infrared and radio waves that is
not mapped at present and there may be great development
opportunities in this radiation area.
If you have
read this section, you will see that the entire
radiation range is incredibly extensive.
that the
universe can gather fundamental millions of parts to
absolute accuracy at the speed of light. We use a unit
controlled number system, we cannot assemble two parts
for absolute accuracy, even if we spend unlimited time
on it.
All stable particles are made up of the
basic nuclei of the universe. An electron, proton, and
atomic nucleus are composed of basic nuclei, millions of
them in a proton. You can see them if you crush them in
a particle accelerator. It is the base nuclei that
absorb and emit radiation.
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The
Universe.
Classic big bang.
Mass
formation.
Atom
structure.
Molecular binding.
Particle radiation
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