Spiral over Norway

This is an amazing phenomena.

This was described by 'them' on CNN as a failed Russian ICBM test. Why can't 'they' say, 'I don't know'? Nobody has any idea what this is. This is not a failed missile test, this was an electric event. It shows similarities to an analog Mandelbrot set.

We can learn things from these pictures. I would like to know how long this remained in the sky.  Did pilots see this? Were there any electrical disturbances on the ground? Was this seen by other people and where were they? How many people saw this? Did the plume change position based on the observer? Did compasses or GPS systems work? Was the internet slow in the affected area? How long did it take for Google searches to return in the affected area? Did the event affect broadcast signals? Are there pictures over time of the event? What was the barometric pressure? Humidity? Did the magnetic probes around the earth pick up anything strange? What did the interstellar medium look like at this time? Were there other magnetic events occurring on other planets at this time? Was there a solar storm at this time?

One thing I noticed in the second picture is the lack of symmetry. I also noticed that the plume is changing position based on the spiral.

There are many more questions to be asked before any answers are developed.

Thanks to those who took the pictures and to Curt Youngs for the conversation.

Addendum: 01/18/2010
This is the description of what happened.
http://wwwppd.nrl.navy.mil/whatsnew/haarp/

This is a cool site.
http://truedeity.wordpress.com/

Abstract of the Baryonic Model

Dark Energy is the media in which all vibrations transverse. The Ruleset is one bit of dark energy. Dark energy is rigid and 3 dimensional.


Baryonic matter: All baryonic matter consists of 3 gluons. These 3 gluons always form a triangle. At the connection points of 2 gluons a quark is formed by the intertwining of the gluons. Baryons have two of one type of quark and one of another. The two similar quarks spin around the axis of the other type of quark. This forms a cone in shape.

The gluon transmits information using the photon(heat), Z boson(electricity), and W+/- boson(magnetism). Each boson transmits information.

The Z boson is electricity. The dissimilar quark provides the direction of charge. The Z boson provides information to the lepton electron. This information is photon data, electron data and current. If the current of the Z boson is too strong it ejects the electron causing electricity. If the current of the Z boson is much more intense the Z boson extends to another baryon. This is plasma.

The W boson results from the two similar quarks spinning about the axis of the direction of charge. The more intense the spin of the baryon the more intense the W boson.

The photon is generated by the lepton electron. It is preloaded by the Z Boson. The electron emits the photon using Planck's Spectral Black Body Equations.
Frequency = u(v,T) = (8πhv^3/C^3)(1/e^(hv/kT)-1)
Wave length = u(λ,T) = ((8πhc)/λ^5)*(1/e^(hc/λkT)-1)

The receiving baryon's electron calculates the frequency and wave length. By evaluating the number of spins the photon has taken since emission, the receiving baryon get this information, spectra(what the emitting baryon is), Temperature of the emitting baryon, Distance traveled by the photon and direction. With this information the receiving baryon can calculate directed pressure on it, changes in temperature. Baryonic density is calculated by:

where
where M is the magnetic field
where E is the electric field
where T is the temperature field
where a,b,c are the lengths of the gluons
where A,B,C are the angles between gluons

Dark matter is made of 2 anti-gluons. These anti-gluons form anti-quarks. These vibrations spin in the opposite direction. These dark matter anti-gluon systems form threads. Many threads form fabrics. Dark matter is repelled by charge. Any W+/- boson pressurizes dark matter. This provides a bubble in the dark matter where baryons can exist.

Aaron Guerami

Split Photons

In the presence of magnetic field, spectral lines that are normally at a single wavelength become split into two or three components. Here observations of spectral lines inside a sunspot (split lines) and in the surrounding solar surface (single line) are shown.
Image credit: NOAO.
From Heidi Korhonen at cosmicdiary.org

************

This is amazing. Here we see a split spectra due to magnetism. In great magnetic fields, photons bend or in this case split. Since this is a spectral line, I would say that this is evidence of 3 pieces of information contained in the wave.

+++++++++++
addendum 07/22/2009
This is called the Zeeman Effect. It is caused by a strong magnetic field effecting the information of the photon. I also notice that when the strong magnetic field dissipates the photon information returns to itself and continues on in a slightly changed direction. This slight change can account for Non-Gravitational Lensing of light in galactic clusters.

Variables Involved in Baryonic Motion

δ_Dn= δ_Dp+(Δδ_M+Δδ_E+Δδ_T)

Where:

δ_Dn = Baryonic density of object, not effected by dark matter boundaries.
where δ_Dp Previous baryonic density of object = (δ_M+δ_E+δ_T)/(1/2bcSin(A))
where a,b,c are the lengths of Gluons
where A,B,C are the angles between Gluons at the Quarks

δ_M = Magnetic field (W Boson) emitted from and read by Baryon. The W Boson is related to the rotational speed of the Baryon. In the case of uud, the 2 u quarks spin in a cone shape around the d Quark. The center of this cone is the rotational axis. The faster the spin the more intense the W Boson. The Voltage = the rotational speed.

δ_E = Electric field (Z Boson) emitted from and read by Baryon.
The uu rotational plane is perpendicular to the Z Boson field . The down quark lies on the rotational axis and is the direction of charge.

using Density Function Theory Introduction
ABCs of DFT
(DFT Wiki)

δ_T = Temperature field (Photon) emitted from and read by Leptons (Electrons) of the Baryon.
using Planck's spectral black body equations
u(v,T) = (8πhv^3/C^3)(1/e^(hv/kT)-1)
u(λ,T) = ((8πhc)/λ^5)*(1/e^(hc/λkT)-1)

This occurs during one spin of the object.
Equilibrium state:
t₀₁ = beginning of vibrations entrance to the Dark Energy Ruleset.
where
Work state:
t₁₁ = change period of Baryon. Application of work equations.
where δ_D= δ_Dp+(Δδ_M+Δδ_E+Δδ_T)
Equilibrium state:
t₀₂ = beginning of vibrations entrance to the Dark Energy Ruleset.
where δ_D = (δ_M+δ_E+δ_T)/(1/2bcSin(A))

Hydrogen atom pictoral representation

This is the picture that shows all the vibrations of the atom at an instant.

I noticed the asymmetry in the picture. This helps describe the general asymmetry of the universe. While the atom is in motion, this asymmetry causes error. Error causes pattern.

Another thing I noticed, is how essential trigonometry is. Those three Quarks always form a triangle in 3d space. I see Sine waves and Cosine waves.

The Z Boson and Electricity & Plasma

Much is known and being studied in the field of electricity. I mean, We have some really cool things because of people's understanding of electricity. I'm writing on a tablet pc. What could be more cool than that? Iphone, maybe. So, we already have an incredible understanding of electricity.

Plasma physicists on the other hand are doing some really cool things with new ideas. They get to play with some wild toys. Plasma engines teams are making huge achievements in their field(with their fields). Plasma is going to turn out to be the next major leap in physical technology.

The Z Boson transmits information from the Gluon to the Electron and back again. In conductors the Z Boson knocks Electrons from their orbit. In that, a Z Boson is responsible for changes in the Electron's distance to the nucleus. This strength in it's field is a measure of the intensity of the information that the Z Boson carries.

The information the Z Boson carries is it's charge and two compressed datasets for the Electron. The first is so the Electron can create a photon; temperature, wavelength, and frequency of the Quarks. The second dataset contains information for the Electron; current and voltage of the Quarks.

So now I can finish this table.
Table of information
Boson.| Gluon....| W Boson..| Z Boson.....| Photon
info.....| Voltage...| Charge.....|Current........| Frequency
info.....| Color......| Current.....|Photon data| Wave Length
info.....| Length....| Voltage....|Electron data| Temperature

Electricity occurs when the intensity of information(current) of the Z Boson ejects an Electron through a conductor. Plasma occurs when the intensity of information of the Z Boson extends it's field beyond it's atom to another atom or a free electron.

Time is not relative to speed of the object.

Here is another area where Einstein did not have enough information to create an adequate model of Physics.

Time is not relevant to Leptons or Quarks. Although they have a spin, it is not necessary for them to maintain a count. They have 1/2 and 1/3 spins respectively. For example, an Electron that is receiving information from a Photon adjusts its spin rate to the spin of the Photon. By doing this the Electron can now read the data from the Photon.

The 4 Boson's make time. All Bosons have a spin of one. Three of the Bosons express time by counting the number of spins they have travelled since their emission from another Gluon. This count is read by a Lepton or another Gluon. The Gluon reads data on spin and converts to the attached Quarks as pressure.

There is a hierarchy of of interactions between Bosons. This allows for consistent transfer of information. For example a Photon cannot transmit it's information directly to a Gluon. The Photon's information needs to be converted into a Z Boson first then to information that a Gluon can read.

Quarks, being the expressions of Gluons, only need to know the information about now. Whereas Gluons need to provide the information on now. Every now, the Gluon reads and expresses information on it's attached Quarks. This process is (magnetism, pressure (W Boson)), (electricity, data(spectra, heat, pressure) (Z Boson)), (spectra, heat, pressure (Photon)). Every now, the Gluon stores information to its attached Quark (Baryonic density, heat, pressure, spectra, magnetism, electricity (Quark)). Every now, a Quarks passes their information to both their attached Gluons to be expressed as a Z Boson and a W Boson. Since there are two Quarks to every Gluon, the Gluon must calculate/average information from both Quarks.

The speed of time is relative to baryonic density. A satellite's clock and a clock on the ground run at different rates. Like a satellite's orbital position over areas of differing densities, a satellite clock's rate changes based on the density of the ground below it. The speed of time is not relative to the speed of the object.

Time as we understand it, Past, Present, and Future is the result of a collection of molecules in a complex neural network. A neural network's primary purpose is to take tremendous amounts of information and convert it into useful actions.

Dark Energy : Ruleset

Dark Energy in its simplest form is a Ruleset.

1) A Ruleset is a computational engine.
2) A Ruleset is the media in which vibrations transverse.
3) A Ruleset is a 3 dimensional structure.
4) A Ruleset adds to the vibration's counter and reduces the intensity of the vibration as the vibration transverses the ruleset.
5) A Ruleset does not care which vibration it holds or if it is void of vibrations.

Wilkinson Microwave Anisotropy Probe is the best map of the contents of the universe that we can detect.
Currently
100% of the spaces of the detectable universe are Dark Energy Rulesets.
72% of those Rulesets are void of vibrations.
23% of those Rulesets contain Dark Matter vibrations.
4.6% of those Rulesets contain Baryonic Matter vibrations.



13.7 Billion Years ago
100% of the spaces of the detectable universe are Dark Energy Rulesets.
63% of those Rulesets contained Dark Matter vibrations.
12% of those Rulesets contained Baryonic Matter vibrations.
15% of those Rulesets contained photon vibrations
10% of those Rulesets contained Neutrino vibrations.

Shielding of spacecraft from solar radiation

The way you shield a spacecraft from solar radiation is to build a series of permanent magnets around the craft. This will allow the craft to be magnetically protected from solar radiation. It is like a magnetosphere. Solar radiation for the most part will go around the magnetic field.

They just need to be far enough apart to allow for an envelope to protect the computer. This is how you protect a spacecraft from solar radiation. I will look for some citations to support this but it is just obvious. Many people have written about this. A good paper is Townsend where several strategies are reviewed.

It is probably best to use permanent magnets, but if you have a nuclear reactor then electro-magnets are better for variable shielding.

Speed of light is a variable

Citation http://www.rpi.edu/dept/phys/Dept2/APPhys1/optics/optics/node4.html
Cite DJ Wagner at Rensselaer Polytechnic Institute

The speed of light has a maximum velocity of 2.99792458 x 10^8 m/s in a vacuum.

The index of refraction of some common materials are given below.

material	n	material	n
Vacuum	1	Crown Glass	1.52
Air	1.0003	Salt	1.54
Water	1.33	Asphalt	1.635
Ethyl Alcohol	1.36	Heavy Flint Glass	1.65
Fused Quartz	1.4585	Diamond	2.42
Whale Oil	1.460	Lead	2.6

Values of n come from the CRC Handbook
of Chemistry and Physics

v = c/n
Where
v = velocity of light through the medium
c = maximum speed of light in a vacuum
n = optical density or refractive index of media


--------------------------------------
v(lead) = c/n(lead)= (299792458 m/s) /(2.6) = 115304791.538 m/s through lead.

--------------------------------------
Dark Energy has a refractive index of ~<1. Though quite small Dark Energy still affects the speed, wavelength, frequency, and temperature of the photon-wave over great distances.

This is very important. I am beginning to think that the only constant is change.

Harmonic Vibrations in Dark Energy

I have been asking myself about the nature of Dark Energy. How is energy/data transferred through a Dark Energy space? How does a photon's vibration data change over time? What happens if a Dark Energy space is occupied by another boson? What shape would be required to transfer information? Does the gluon preform the necessary calculations or does the Dark Energy preform these calculations?

This model's axiom is that Dark Energy is a computational engine.

Each Dark Energy space is called a Ruleset.

Each Ruleset can only be occupied by one Boson at a time. (almost)
:A Photon cannot enter a Ruleset that is occupied by any other Boson (except Z Boson).
:Whereas, the W Boson can move a Photon wave, 2 antispin-Gluon harmony(Dark Matter), or a Z Boson out of a Ruleset.
:Gluons absorb W Bosons and Z Bosons in a 3 Gluon harmony (Baryon).
:Gluons are repelled by a W Boson in a 2 antispin-Gluon harmony (Dark Matter).
:A Ruleset can be void of data.

The Ruleset is rigid and does not interact with its neighbor. A Ruleset is a cube of 3 dimensional space and a counter. Each Space is defined by the rules of the data of its Boson. A Ruleset domain is exactly the width of one Boson.

A Ruleset is a computational engine in that it adds one unit to the counter and removes one unit from the Boson's data. The Ruleset also maintains information on direction of the boson.

Table of information
Boson.| Gluon....| W Boson..| Z Boson..| Photon
info.....| Color.....| Current.....|Charge.......| Frequency
info.....| Charge..| Charge......|Electron data..| Wave Length
info.....| Width....| Voltage.....|Photon data...| Temperature

The Boson dissipates at a greater rate if it breaks the rules of the Ruleset. This is disharmony. Disharmony occurs in a particle accelerator (vibration accelerators).

addendum 5/30/09
I made a mistake in my axioms. I presumed that charge was necessary to convert electrical data. Charge is not intensity.

Table of information
Boson.| Gluon....| W Boson..| Z Boson..| Photon
info.....| Color.....| Current.....|Current.......| Frequency
info.....| Voltage..| Charge......|Electron data..| Wave Length
info.....| Length....| Voltage.....|Photon data...| Temperature

There that is better. Why the change? Current is the intensity of the vibration. Voltage is the strength of the emitter.
Aaron

Long wave through a tiny hole

This is from Bill Beaty's antenna problem
http://amasci.com/elect/tinyhole.html

Here's a second answer to the original question. To allow EM waves to pass through the tiny hole in the infinite conductive plate, just place some molecules in the hole, but choose molecules which are resonant at the frequency of the EM waves. Suppose the EM waves are microwaves, and their frequency is at the ammonia resonance (think "ammonia maser"). If we place some ammonia molecules in that tiny hole, the molecules will strongly absorb the incoming radiation, then they will re-radiate it. Part will be scattered backwards, but part will move forwards through the hole. The presence of those ammonia molecules has allowed the EM radiation to pass through the hole.

The presence of the molecule can make a big difference. Suppose we make our hole somewhat larger than a single ammonia molecule. Without that molecule present, the amount of EM wave energy which passes through such a tiny hole will be vanishingly small. However, with the molecule placed into the hole, relatively enormous amounts of EM power suddenly can get through.
---------------------------------------

My elaboration on Bill Beaty's tiny hole thought experiment.

Now I would like to explain this a little more. Since the hole has an ammonia molecule in the hole, this is what I think happens. The microwave hits the electron of the ammonia molecule. The electron reads all the information of the EM wave. The electron processes the information and converts it to z boson. The z boson transmits the information to the gluon of the molecule. The gluon converts it to the attached quarks.

Next the gluon retrieves the information from the quark, here the molecule processes the heat, and pressure. This information alters the quark. The quark sends the information about the new state of the molecule with the changes in temperature and shape to the gluon. The gluon converts the information to a z boson and sends it to an electron. The electron converts the z boson to a photon wave and transmits the information through the hole.

I really think this is what is happening.

a

Space is not a vacuum

The vacuum of (Solar System: added 8/22/09) space is a fallacy. Space is full of radiation, ions, baryonic matter, dark matter, W boson, and photons. In space the density of baryonic matter is low but not 0 per cm^3.

When the ISS is not in the shadow of the sun it is under constant bombardment from the sun. In this case density of photon-waves is quite high in the area close to the sun (150m km). The Photon-wave transmits the information on temperature, wave-length and frequency of the star at that distance. E=hv.

Since we have different classes of vibrations , they can have different densities in an area of space. The Earth is an area of space where baryonic matter density is quite high. Also the Earth emits photon-waves, and magnetism. Yet the space between Earth and Venus is mostly filled with photon-waves and magnetism emitted from the Sun.

Gravity Anomaly Map of the Moon

This comes from The Japan Aerospace Exploration Agency JAXA

Congratulations on such an excellent density map of Mascons on the Moon.

*******************************************************************************
Gravity Anomaly detected by using 4-way Doppler observation data from the RSTAR (OKINA) (RSAT)-New finding in study on the Origin of Dichotomy for the Moon-
*******************************************************************************
April 16, 2008 (JST)
Kyushu University
National Astronomical Observatory of Japan
Japan Aerospace Exploration Agency (JAXA)

JAXA announced a new finding of a gravity anomaly for both the near side and far side of the Moon by using 4-way Doppler observation data from the RSTAR (OKINA) with the main orbiter, the KAGUYA.
1)Gravity Anomaly Map by the KAGUYA

2)Gravity Anomaly Map in prior to the KAGUYA

3)The Apollo basin(S36,W150)








Until now, the gravity anomaly of the far side of the Moon has not been understood well. The gravity anomaly, which was obscure before, has been clearly revealed through observations by the Kaguya mission. For instance, the gravity anomaly of a basin on the far side is found to be characterized by a negative anomaly in a ring like the Apollo basin. On the other hand, the gravity anomaly of the basin on the near side is uniformly positive over the region such as with the Mare Serenitatis. Thus, the clear difference in gravity anomaly on the near side and the far side has been newly discovered and this fact brings a different story about the structure of the underground and the history of the evolution of the far side and near side of the Moon.

The gravity anomaly map for many regions will be developed more precisely and show the difference of gravity anomaly between the near side and the far side by adding more observation data. The latest observation data by the Kaguya will play a key role to promote the study of the origin and the evolution of the Moon. In addition, highly accurate lunar gravity distribution data will be useful for future lunar explorers.

*Gravity anomaly: The lunar gravity field is not homogenous. Any region of the Moon with a higher than expected mass density will produce a gravity anomaly.

*Dichotomy of the Moon: Between the near side and the far side, clear asymmetry is called the "Dichotomy of the Moon" as in the thickness of the lunar crust and the distribution of the lunar Maria.
Gravity Anomaly Map at the Apollo basin

Gravity Anomaly Map at the Mare Serenitatis(N26,E19)









*RSAT/VRAD mission instrument team:
Kyushu University (RSAT Principle Investigator), NAOJ (VRAD: VLBI Satellite radio source Principle Investigator), Researchers from JAXA also participate as sub-PI or Co-I in the mission instrument team.

Current lunar gravity field models include large uncertainties on the far side of the Moon. For instance, the figure in the middle shows the current gravity distribution model for the Apollo basin by LP165P. The color of the figure shows strength of the gravity field in blue, green, yellow, and red, in that order. Red indicates a positive gravity anomaly related to either a topographic high or a dense material in the subsurface. In contrast, blue shows that a negative gravity anomaly related to a topographic low or less dense material. The gravity anomaly shown in the figure on the left hand side is processed by new data taken by the KAGUYA. The gravity anomaly in the Apollo basin is now identified as concentric rings of yellow, blue, and thin red from the center to outside.
*LP165P: Lunar gravity model developed by Konopliv et al.. incorporating tracking data from the Lunar Prospector spacecraft into a historical data set.

A new gravity anomaly map developed by the KAGUYA reveals that not only the Apollo basin, but many other basins on the far side of the Moon are characterized by a large negative gravity anomaly. Such a signature of far side gravity is distinguished from that on the near side. For example, the Mare Serenitatis, the representative basin on the near side, shows a strong positive (red color) gravity anomaly at the center of the basin (figure in the middle). The newly found difference of gravity anomaly on the near side and the far side gives us clues to important questions regarding the structure of the lunar interior and the formation of the far side and near side of the Moon. The gravity anomaly map will become more precise as more observation data is obtained by the KAGUYA. The latest observation data by the Kaguya will play a key role to promote a study of the origin and the evolution of the Moon. In addition, highly accurate lunar gravity distribution data will be used for future lunar explorations.

Four-way Doppler observation scheme









A schematic figure showing the principle of the four-way Doppler measurements of the Main Orbiter (KAGUYA) by using a relay satellite (OKINA). The uplink radio wave from the Usuda Deep Space Center (UDSC) is relayed to the Main Orbiter via the relay satellite (OKINA), which is returned to the UDSC via relay satellite (OKINA) again. Then the Doppler frequency is measured at the UDSC.

http://www.jaxa.jp/press/2008/04/20080416_kaguya_e.html
Copyright 2007 Japan Aerospace Exploration Agency
Thanks to Curt Youngs for showing me this.

To every action there is NOT an equal and opposite reaction: Part 2

Israel Sadovnik: To every action there is NOT an equal and opposite reaction.
Why?
Because in QT " The third Newton's law " must submit to
The Heisenberg Uncertainty Principle .
*************

This is the only resolution to the initial problem.

The universe is not symmetrical or static.

Information is processed before reacted to. Thus the loss of conservation is in time, thus the loss of time results in a loss of energy. For Example if Max hit Curt. It would take Curt a moment to realize that he was hit, from where he was hit, and how to hit back. These are all losses of energy. Curt's reaction would not be like a spring, but a new instance of hitting, once he collected his steel balls.

The real example is if a steel ball was floating in space and was hit by the pressure wave of an exploding star. It would not instantaneously move, it would move after the density of the ball was overcome by the energy of the wave. When the density of the ball was subtracted from the energy of the wave, the ball would move. So if the energy wave traveled a great distance, the ball may not move, but reflect the energy.

Near and far fields

Curt Youngs: Yes! At longer wave lengths an antenna is required. Now, radiation around the antenna develops a near field at the transmitter and the receiver. This near field is a standing wave. Within the standing wave, the electric and magnetic fields are at 90 degrees. In the far field, these fields are parallel to each other, and parallel to the propagation, so it is said.

Aaron: The reason, in my model, the near and far fields must be perpendicular to each other is that they are different vibrations. The far field I have described as the W boson and the near field is the Z boson. They have two different functions.

The W boson carries information directly from Gluon to Gluon. This is the far field. This field can travel large distances. The information it carries is voltage, current and charge plus a counter. When the W boson is received by another pro-spin Gluon, it is read as magnetism.

When the W boson is read by an anti-spin Gluon, it is read as pressure. It too is magnetism but non-baryonic Dark Matter uses this information differently. Dark Matter reacts to magnetism as a pressure and is repulsed by it. This causes a bubble in the Dark Matter allowing for Baryonic Specific Density (what use to be known as gravity).

The Z boson is the near field electric component of the Gluon's transmission of information. The Z boson excites the electron. This can have two outcomes. First is the releasing of a photon wave. Second is to excite the electron with charge, current, and voltage causing the near field.

As an antenna, an electron can move from atom to atom to continue to read information from the same wavelength. The longer the wavelength the further the electron travels up the field while reading. The electron reads one entire spin of the wavelength, gathering all the information from the photon wave. This information is converted to a z boson and returned to a gluon for processing. The gluon reacts to the information by expressing pressure, heat, and charge.

(Addendum) 5/10/09 - The W+/- and Z Bosons are nearly perpendicular to each other. The spin of the Baryon causes variation in position of each field. This is an equilibrium point.

Electron minimum/maximum read/write

The electron has a minimum and a maximum temperature, frequency, wave length that it can read or write. If any of these exceeded then the electron cannot read or write the information.

So if there are photon wave that have frequencies that are below the electron threshold, this means that the photon wave has travel too far and it temp is to low, or it has been modified by other fields that would extend the wave length.

For maximum temperatures electrons cannot exist. For example those black holes that I described http://aaronsreality.blogspot.com/2008/10/black-hole-flares.html

The temperature for the black body object referred to as a black hole exceeds 15000k. This temperature is to high for atoms to fully form. When the temperature drops below 5200k electrons can release photon waves.

In conclusion a photon that has a wave length that is too long will have a temperature that is too low for the electron to read. Even the largest atoms cannot read a wave length that is larger than the atom electron path.

An antenna is a series of atoms that allow an electron to pass along the length of the antenna to read the long wave length. Some wave lengths are so long that they will pass around the solar system. These photon waves are so cold that they seem unnoticeable. But if you built an antenna large enough you would register them. They would be read.

If the temperature is too high, the electron cannot form.

Information Density and the Gluon

E = hv

Which says Energy = Planck's Constant h multiplied by the frequency of the vibration.

Now these are 19th century equations that have been purposefully discarded by einsteinians. Because they are difficult. Not a good reason.

Others density equations include (Planck)
Frequency
u(v,T) = ((8(pi)hv^3)/(c^3))*(1/(e^(hv/kT)-1)

Wave length
u(λ,T) = ((8(pi)hc)/λ^5)*(1/e^(hc/λkT)-1)

u = spectra. The emitting Baryon leaves its identification on the spectra. Along the spectral line, where the temperature = 0, identifies the emitting baryon.

So here we have an exactly derived system of equations that show the vibration of energy over time through its frequency or wave length. There are other equations that show the vibration of energy over time through its charge or current. This is the basis of my model.

Now the sender and receiver of this energy is the gluon. Gluons communicate like this.
This is me,
All of this information is in the photonwave. The gluon produces the photonwave by exciting a z boson (near field) and vibrating the loaded electron. Then the electron discharges the photonwave.
I have a frequency of u(v,T)
I have a wave length of u(λ,T)
I have an intensity of u(λ,v,T)
and my identity is where the information is 0

A similar process occurs with the W boson. The gluon vibrates and discharges the w boson.
it says I am a far field W boson
(I am not as familiar with these equations)
I have a charge of
I have a inducted current of
I have voltage of

I will fill these W boson magnetism equations

Simple Counter

Both the photonwave and the W boson have counters. This is a simple mechanism that counts the number of spins since existence. So

Distance traveled = number of dark energy units or spins counted.

This counter tells the receiving atom the temperature loss in the photon wave and the pressure loss in the W boson since inception

The Gluon: The Master of Information

It is the Gluon that is the most important vibration in our universe. It communicates information to all other systems of vibrations as expressions. All information communication is essentially Gluon to Gluon communication. Each Gluon needs to communicate certain bits of information to other Gluons.

Gluons use certain vibrations to communicate different bits of information to other Gluons. The type of information determines the type of vibration used to communicate that information. The Bosons are the vibrations that transmit information. The Leptons and Quarks are expressions of the Gluon's information.

There are simple Gluon to Gluon communication through Quantumchromodynamics(QCD). The W+/- Boson communicates magnetism directly from Gluon to Gluon over a distance. The Photon communicates heat, pressure, and time to other Gluons through a more complicated system using both the Z Boson and the Electron. This system transmits information over great distances.

All Quarks store information for Gluons. The Strong Nuclear Force is the storage of Gluon information. Essentially a Quark is part of a Gluon and is the final expression of Gluon information.

All Leptons are responsible for secondary transmission of information for Gluons. The electron vibration loads information (described as Reiter Loading Theory) to be releasing the photon-wave as needed. The electron vibration now free of the photon-wave can accept a photon-wave and read the information from another Gluon.

Another important interaction the gluon is responsible for is the W boson communicates with dark matter. I postulate that the Gluon can have an anti-spin. This anti-spin Gluon causes expression of Dark Matter in a chain. The W boson provides magnetism information to the Dark Matter chain repelling it from the W boson. This is responsible for the bubble in Dark Matter causing Specific Baryonic Density (what was known as gravity).

Disproof of Gravity

The standard particle model has yet to find any sign of Gravity. This is most concerning since gravity is used by most modern equations. Great particle accelerators have hunted for any signs of gravity. None found!

But one simple experiment shows there is no gravity. The Helium Balloon. It rises. How is this possible? Classical Mechanics shows that Force equals the inverse of the Constant of Gravity multiplied by the Mass of Object 1 multiplied by the Mass of Object 2 divided by the Distance between the two masses raised to the second power. F=-GM1M2/r^2

In this equation the mass of the earth is so great that the helium balloon would have no choice but to be attracted to the earth. It would not rise.

We see in the experiment that the helium is rising to meet its level of density.

Density is the most important function in determining the position of an object. Density is the vibration intensity within a volume in relation to the density of the surrounding medium.

Addendum 5/27/09: From the General Science Journal forum

Anonymous, (who ever you are?)
In standard conditions of temperature and pressure (SCTP), 1 kg of He fills a volume of 5.6 m³.
This also means that the density of He in SCTP is 0.1786 kg/m³.

This is an elementary secondary school calculation based of the atomic mass of Helium (4.0026 gr/mol) and the volume occupied by a mole in SCTP (0.022414 m³/mol).

Air composition is roughly 20.9% O2 and 79.1% N2.
This implies a volume of 0.777 m³ for 1kg of air, and a density of 1.287 kg/m³.

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So what you are saying is that lifting force is the differential between differing densities. Why does the balloon accelerate? Is there a terminal velocity for the balloon in SCTP?

If we were to create a box 500m in the y, 10m in both the x and z in reference to the ground. This box has door with a 500m on one side. We can open the door to introduce our SCTP. But we don't want other influences on our experiment. So we close the door. At the bottom of the box we have a mechanical device that will release the helium balloon as described above but including the density of the mylar balloon in our calculations.

What set of equations would accurately describe the balloon's voyage? Gravity suggests that the massive Earth would pull the balloon or any mass towards it. The balloon would never leave the ground. So any equation based on the axiom of gravity would not work. Mass does not accurately describe anything. So any equations based on mass will not work. Only density equations will work.


The Disproof of Gravity