More on Entropy

Its even harder to have an Equal and Opposite Reaction when Entropy is involved in the reaction.

Thus the first law of the universe is entropy. Without interference, every Boson and Baryon reduces by the energy of the Higgs Boson per rotation.

Paradoxes of Energy

Conservation of Energy and Entropy cannot exist in the same universe.

Out of the two, entropy always works. 

X2.7 Solar Flare

Credit: NASA/GSFC/SDO

Credit NASA/GSFC/SDO

I can expect seizures between 6pm and 12am may 7th. Look for large earthquakes. This is going to be a big one if it is direct or glancing in its impact on the magnetosphere.

Addendum: a 7.1 earthquake occurred in Papa New Guinea. On may 7 2015, 15:46 UTC

Sounds of the Solar System

Credit NASA, Electric Universe

Lets discuss that vacuum.  Kinda hard to have sound in a vacuum. Another foundation of physics falls, along with canals on Mars and gravity. We need to rethink a few things. Especially the foundations.

Voyager 2 is still doing some amazing work.

Cross and magnetic helicity in the outer heliosphere from Voyager2 observations.

The Voyager Missions Credit JPL

Voyager 1 is in interstellar space.  

Magnetic Fields at Galactic Core

A strong magnetic field found in the jet base of a supermassive blackhole

In this model black holes are referred to as Galactic Cores. We will find magnetism, because of the rapid rotation of a dense Baryonic matter object. This occurs in mostly spiral and barred spiral galaxies. Elliptical galaxies cores explode from more thermonuclear events.

Solar Magnetic fields show signs of Multifractal Mathematics

This is a cool article and easily explains constant change in field lines.

Multifractals

I think the difficult part will be to examine every arc spectra. We need many spacecraft in polar orbit around the sun. 

Motion of Jupiter's Moons

Credit : K Prajapati

The Zeeman Effect on Atmospheric O2

Zeeman Effect

Understanting the Geometry of the W+/- Boson (Magnetism)

Today we are going to look at magnetic anomalies as Planetary Nebula.

Wikipedia is the best. Please support our online encyclopedia!

In order to study magnetism we need to examine the torus.

There are three types of tori along with a sphere. Meaning a Ring torus can degenerate to a Horn torus to a Spindle torus then to a sphere.

We see all 4 types of torus in nature.

With this picture we see several magnetic tori. We see two half tori in the Horn shape. The center is a Ring torus. The center is the Baryon core in high rotation. With these magnetic fields we can now examine them. How much energy is this generating?

This is M27:The Dumbbell Nebula
Credit ESO

This is M57: The Ring Nebula Credit Hubble

Lets look at the parametric equations of a torus. A torus is a circle revolving around a coplaner circle.

Again Wiki

I am going to post this before I lose it.

Looking at a spiral galactic core will show a similar shape in all E/M wavelengths.

Quasars in the Standard Vibration Model

Using Wiki Definition from 04/24/2015

Quasars (/ˈkweɪzɑr/) or quasi-stellar radio sources are the most energetic and distant members of a class of objects called active galactic nuclei (AGN). Quasars are extremely luminous and were first identified as being high redshift sources of electromagnetic energy, including radio waves and visible light, that appeared to be similar to stars, rather than extended sources similar to galaxies. Their spectra contain very broad emission lines, unlike any known from stars, hence the name "quasi-stellar". Their luminosity can be 100 times greater than that of the Milky Way.^[2]While the nature of these objects was controversial until the early 1980s, there is now a scientific consensus that a quasar is a compact region in the center of a massive galaxy surrounding a central supermassive black hole.^[3] Its size is 10–10,000 times the Schwarzschild radius of the black hole. The energy emitted by a quasar derives from mass falling onto the accretion disc around the black hole.

--------------

From there we get great artist rendering of their concepts. Lovely artwork.

Credit ESO/M. Kornmesser

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In the Standard Vibration Model all Cores act the same. This is why Arp saw this shape everywhere in space. This is high energy magnetism at work in the same way at the galactic, quasars, even atoms have this same shape as described in the papers on the right of the blog. The size is not relevant. What is relevant is a very dense Baryonic object rotating at high speeds.  

The nuclear bonds of the Gluons in a Baryon will rotate at a high enough speed to expand their W+/- Boson field. The Z Boson transmits information from Photons and converts the information. This information tell the Baryon how far the nearest element was, how hot it was, and what magnetic fields the photon had to pass through to arrive at the receiving Baryon's electron.  

Coral Castle

I have lived 10 miles away from this site for 15 years and I never knew it existed. I am going to check it out.

The Coral Castle 

Pluto Has 5 Moons

Hay that is more that Earth. Should Pluto be a Planet? Based on moons???? Just Asking.

Credit Wiki

Poor Pluto, Kicked around by people who make label before all the data is in.

OOPS, Magnetism, Baby and Bath Water?

According to this article the comet landings by the Rosetta probe and the Philae lander did not find magnetism at the level expected for Electromagnetic only theories. And the QUESTION became how? "You need to defend this", a friend said. 

ESA Rosetta and Philae find Comet not Magnetized

http://www.dailymail.co.uk/sciencetech/article-3038292/Comet-landers-measurements-weaken-space-magnetism-theory.html

This is true for all Electromagnetic/Plasma ONLY theories. They tend not to examine Density of the Baryon, or in the worst case the dismiss the Baryon for an existential object (Comet,Planet,Star). 

But as David LaPoint has shown the electromagnetism of high energy objects. The Rosetta probe shows low energy electromagnetic objects. That comet is not rotating fast enough.

Neptune's atmosphere is 80% hydrogen and 19% helium. Wiki
So an object of almost all hydrogen and helium in high rotation will convert to a superfluid. 

If it had been rotating fast enough, they could not land the Philae lander. So you cannot dismiss other observations based on this. You the Scientist At ROSETTA AND PHILAE must release and open data on the comet if this is to be accepted. You are attempting to dismiss magnetism with your headlines and not the data. The DATA show this object is MAGNETIC. You actually state it in the article but it is easy to miss between the flashing adds. It is just not as magnetic as you demand for a displacement of magnetism for gravity. Again BOTH SIDE of the argument are missing the actual Baryon and its properties.

David LaPoint's Primer Fields

Credit: David Allen LaPoint

This is amazing. Enjoy. We are beginning to see reality for what it is. Not what we want it to be. This is part one of three. In a very simple description. He shows us the geometry of magnetism as shown with real observation not just conjecture. This is the most difficult thing I have had to deal with. Plank's and Weber's equations really explain do not explain everything to the point that I am comfortable with. I would work with their understandings and logic until someone explained magnetism in the universe better. That is why this is a model. When one explanation is replaced by another, it is easy to do so within the confines of the model.

He talks about free electricity. That is not what I find remarkable in this video. I would really like to see some math about those bowl magnets.

Wow, Part one is amazing. I can agree with everything, even his disproof of within current accepted models that dark matter, dark energy and black holes don't exist. The problem then becomes

Dark Energy is where the math is done. Can't forget that important part of the equation. The actual EQUAL sign means math is done here.

Dark Matter still are gluons that are not excited by magnetism into rotation. Like a null instantiation of an undeclared variable.

The galaxy will always have a core. A Galactic Core is a dense baryonic object capable of ejecting stars like solar flares. Better then Black Hole.

Everything in this video works within the Standard Vibration Model as the W+/- Boson.

Now not to get involved in someone else s argument.
__________________________

After some research on this topic 

I found this on  Thunderbolt Forum

Re: The Primer Fields? by nick c » Sat Jan 12, 2013 10:02 pm

All magnetic fields have their origins in an electric current. From where did the "two ceramic magnets" get their magnetic field? answer: from an electric current. Permanent magnets are not 'permanent' but are rather a remnant magnetic field which has it's origin in an electric current.

See:
This paper, which seems to be only available as an abstract on line, shows that lodestones (natural permanent magnets) are created by lightning, aka electrical discharges.
http://onlinelibrary.wiley.com/doi/10.1 ... 6/abstract

These lodestones have Hc between 10 and 30 mT, SIRM between 8 and 18 Am²kg¹ and RI between 0.10 and 0.26. Magnetite, titanomagnetite and metals have REM values (ratio of NRM to SIRM) < 0.05. Samples (called fulgarites) obtained from the Smithsonian Institution have REM values ranging from 0.45 to 0.92. The REM value serves as a witness parameter to the magnetic fields associated with the lightning bolt. If a high REM value (say ≫ 0.1) can be verified as not to be due to contamination by man and does not contain MD hematite then the rock has LRM (lightning remanent magnetization). The magnetic field associated with lightning can be revealed from an isothermal remanent acquisition (RA) curve.

also:
http://farside.ph.utexas.edu/teaching/3 ... ode77.html
also:
http://lep694.gsfc.nasa.gov/archive/obs2001rep.pdf

Mother Nature essentially processes the magnetite
ore to impart magnet properties and then charges the ore
with a lightning bolt. This process was verified with triggered
lightning experiments at the Langmuir lab (New
Mexico Tech) at South Baldy mountain.

Permanent magnets obtain their magnetic field from exposure to the strong magnetic field which accompanies an electric current. The permanent magnet's magnetic field has its' origin in an electric current
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Understanding that the Electron communicates information collected from the W+/- Boson to the Z Boson. From there it is communicated to the Gluons of the Baryon.


La Point provides us with a fantastic new view of what we are looking at. We need to adapt his observations into our models and create the mathematical algorithms to prove them,

Elliptical Galaxies

If we look at the types of galaxies the most obvious difference are the magnetic and the thermonuclear.

The current model of Elliptical Galaxy Taxonomy and Growth is shown in this chart.

Wiki

In the Standard Vibration Model, the Elliptical Galaxies are similar to Thermonuclear explosions in space where there is little pressure against them from external densities, magnetism or Dark Matter. The more pressure against them the stranger the shape. Stars in Ellipticals are starved not of material to form stars, but they lack the strong magnetic core to cause rotation. This lack of a strong magnetic core in the Galaxy causes its stars to loose energy. Over time the Baryon no longer has information to transmit and becomes Dark Matter.

Metallic Fluid Hydrogen effect on Uranus and Neptune

Magnetic Fields of Uranus and Neptune: Metallic Fluid Hydrogen

Credit Pic: NASA

Credit W. J. Nellis (Submitted on 3 Mar 2015) 

The Power of Magnetism

Wow, I am just amazed at this. Not only did the iron rod hover. It melted. Then the less dense elements floated to the top. This is density. More dense objects sink while less dense objects float, Only when he/she shut the power it went splat like a bug on a windshield. When compared to the density of the surrounding air blob, it fell like a blob of iron. Cool

Magnetic Galaxies Part 2

Milky Way galaxy within a supercluster. That Supercluster is named Laniakea, Hawaiian for "immeasurable heaven."

Credit Nature

Spiral Galaxy Arms a Result of Magnetic Bursts from Galaxy: Part 1

     Spiral Galaxies are some of the most beautiful objects in the sky. This model will examine galaxies and some of their properties and show how and why these observations fit into this model. It will open the door to explaining why galaxies look similar and different. We will examine the life of galaxies from beginning to death. To do this this model will refer to the middle of galaxies as Galactic Cores because in different types of galaxies the cores are doing different things. Other than that the reader can refer to the Webb Society Deep Sky Observer Handbook v4.

 Galaxy Morphology can be studied at several places including galaxyzoo.org and Wikipedia. The basic chart defining galaxy morphology started with Hubble.

  From Wiki

The Tuning Fork of the Hubble Sequence. From this model we get the basics. He was missing a few types, but overall he showed the relation of one type to another on a chart. Fantastic for 1936. This is still the main concept used in Modern Astronomy. There is a more modern version of galaxy taxonomy which includes a mapping of individual stars within the galaxy. The MK or Morgan Keenan system evaluates spectra. It is vital that we understand these systems and expand upon them as needed.

To understand the differences between galaxies we need to understand their Galactic Core. Galactic Cores are not Black Holes. They are incredible densities of Baryonic matter that EMIT magnetism and densities. Here we see a Galactic Core emit a star like a CME (Coronal Mass Ejection) or a Solar Flare.

Credit Max Planck's Institute

Credit Discovery News

The above shows the plane of the Milky Way Galaxy. It has a Northern Ridge and a Southern Ridge coming from a core. This means its a highly dense Baryonic matter object rotating at high speed and is so hot that it emits stars in great quantity. It is also obvious that the Magnetosphere of the Milky Way Galaxy is on the left of this chart and the bending towards the right. This shows leftward motion of the galaxy in the Galactic Supercluster. The right side of this chart shows a magnetic event that is similar to the petite tail of the Earth's Magnetosphere.

Credit Physics.org

This article The Corrugated Galaxy shows the plane of the galaxy is not flat but corrugated. This comes from the nature of the magnetic Galactic Core. We know the flare that occur on the sun occur when a magnetic line snaps, dragging material with the snap. The sun cycles solar activity. The most intense activity occurs on the equatorial region. This is the chart for the Sunspots over the last 400 years.

Credit Wiki

Spiral Galaxies being a very large stars ejects material in its active phases just like the sun. When I look a the pic for the Milky Way Galaxy, I count 7 to 8 arms. There are probably billions of stars in each arm of the galaxy. This material ejected over time reaches the area where the magnetic influence of the core rotation reduces. Then we see the reduction of speed of all the stars in the arm. There is also the interaction of Dark Matter against the arms. When every period of activity ends for the galaxy, Dark Matter rapidly fills in between the arms.  

Black holes are Blackbody Radiators

I am glad this idea is finally entering scientific publications.

Black holes are Planks Radiators.

This model has shown this from its inception. Black Holes must form all the stars in a spiral galaxy. Their massive rotation causes an immense magnetic field causing stars to orbit the Black Hole. 

Above we see a Black Hole emit a star. Credit Max Plank's Institute. 

Elliptical galaxies from explosions.

Densities in Motion

Within a rotating body of many (global) densities, local densities will move towards the center of rotation to their own density at a rate determined by the strength of the global magnetic field and the rotation of the global body of densities within the magnetic field. Localized interactions of densities; temperature, magnetism, electricity, pressure also influence the density in its motion.

Interview with Immanuel Velikovski

A Youtube video of the man who wrote the paper in the previous posting. This man's work was completely rejected by the scientific community, until his predictions on some topics proved correct. Venus is a hot planet. This man had profound ideas. It is well worth watching.

Interview with Immanuel Velikovski

"Cosmos Without Gravitation"

Hi Aaron,

              I found this interesting information written by Immanuel Velokosky 70 years ago. The EU is based on his ideas.

http://www.varchive.org/ce/cosmos.htm

That was an an amazing paper. I am glad to read papers on these topics, It really deepens my knowledge. I am also astonished to find his other papers. More importantly how they are impacting society.

Thanks.

Aaron Guerami

Quick Abstract

This is a quick Abstract to the Details that form the Standard Vibration Model.

So,

I am going to point some basics we all know and that you have shown in your tests. A single baryon is either a hydrogen atom, a proton, or a neutron. I have not fully modeled beyond this. I have a good design for He, but I don't feel it is not ready for integration into this model. Modeling in my mind and on paper the O and the NaOH and KOH are the next step. I have to solve problems like yours before I can move forward.

1. Everything about baryons is in thirds. 
1. This means every calculation must have one dimensional information.
2. Two dimensional data storage.
3. Three dimensional trigonometric interactions. 
2. Every baryon is effected by received bosons.
1. Photons
1. Photons transmit information about baryons/elements/molecules externally.   
2. Emitted and absorbed by electron
3. W+/- stops all functions of the boson photon until it exits the magnetic field.
4. Transmits vibration informational to the receiving baryon on wavelength, temp, freq, spectra, distance traveled, history of effects upon the photon.
2. W+/-
1. The primary purpose of the W+/- is to trap photons and direct them to the baryon's closest electron.
2. Magnetism.
3. Z Boson
1. Z Boson transmits information from the electron to the baryon or from electron to electron.
2. Electricity.
4. Gluon
1. This is the physical structure of the baryon.
2. In almost all cases a baryon must have 2 of one flavor of gluon and 1 of another in spinning rotation.
3. This rotation forms a cone.
4. Quarks are the unused strings (err:not tori) of the gluon.
5. A Gluon's information is managed by Neutrinos. 
5. Neutrino
1. Neutrinos manage and maintain baryons structure and information of the baryon
2. There are 3 types of neutrinos
3. Electron
1. Connects the Z boson to the baryon.
2. Input/Output functions of the information of the baryon
4. Muon
1. The purpose of the Muon is to connect each gluon's torus.
5. Tau
1. Allows W+/- boson to exit the baryon from the midpoint of the opposite gluon.

So, Those neutrinos are delicate and can deflagulate, rupture or stretch beyond capacity. When that occurs, we see implosion or explosion. Any exotic pressure, temperature, E/M..., can and will cause this. even solar flare will affect the magnetic fields around your test. So check spaceweather.com

I think this basic model shows how the flame out occurs. Some of the tests will explode at 2/3 rate because of of the conic rotation of the baryon crushes them to a volume of 0. 1/3 rate melts/extends/flames the baryons volume; depending on the boson affecting the baryon. At the small distances traveled after the explosion the baryonic chunks of flame and affect other baryons. 

Does your photon radiation detector emit radiation through the test? Or are they just receiving data from the test? 

Currently everything written above is written or derived in the blog. What I am missing is the actual testing of the ideas. Data.

I hope this is a helpful description of how I plan on modeling this issue. I realize I have not answered any of your questions, I am trying to form the problem into this model.

Addendum 12/7/2014
In this model Dark Matter are gluons without information. But because they are empty data structures, they form densities. These densities can rip apart galaxies. This density is the Plank's Constant. The amount of Dark Matter pressing against here right now. That number is very small but now it is accounted for in the model.

Dark Energy is where the math of the universe gets done. Please read the simple paper on Dark Energy.

Aaron Guerami