SS: a star called T Pyxidis erupted into a nova in 2011 in the constellation of “the Mariners Compass” .. it might very well be a compass that shows us and our solar system where we might be headed .. this blog i will attempt to explain what i mean while advancing one of my theories. the first thing we must understand is the difference between a *NOVA* and a *SUPERNOVA* .. everyone should know what a supernova is a star that explodes into a gaseous form and sends out GRB gravitational waves. a nova is different in that when a nova explodes it does not destroy the star. so a star could have multiple novas.

SS: the current theory how nova happens when a star accumulates enough gas on it’s surface for it to become unstable and explodes. at the white dwarf accumulates gas it brightens and dims after the nova explosion. this is where i want to compare phenomena with our white t-tauri sun star .. our sun turned white during the solar maximum prior to our current solar maximum. our sun began to brighten during that solar maximum and it has stayed white. our scientist call our sun a variable star and that might be truth but it is not the entire truth. our sun is a t-tauri star. a t-tauri star goes through brightening phases where it starts to solar flaring massively with flares massively larger than what we currently see from our sun.

SS: when our sun turned white it stayed white due to the interstellar dust flowing into the inner solar system. this dust is usually held at bay by the magnetic field of the sun but the magnetic configuration of the sun changed that it no longer shields the inner solar system of space dust. this space dust is fuel to our sun. it is the same space dust that was our accretion disc that caused our sun when was in proto-star stage to explode and become the sun we see today. the space dust is ice crystals that melt as they near the sun and turn into a gas that collects on the suns surface. we know this is the truth because we have the data to prove this phenomena of gas heading into the sun.

SS: and our sun is collecting gas from the comets that are grazing our sun. the gas does not blow back out by the solar wind, instead it follows the magnetic lines and flows into the sun. we have to remember if was the solar wind holding the space dust out of the inner solar system we would not have a white sun right now because the sun never stopped solar wind and the space dust is still accumulating in the inner solar system. we sometimes can even see the ice crystals in the sky when we see the noctilucent clouds which are ice crystals that appear at certain times at the very upper atmosphere. we can only see them when the sun shines just right on them.

SS: i think that this nova phenomena of gas collecting on the surface of the sun causing the sun to brighten and then eventually become unstable and explode fits the same model of of our current sun that has brightened and become white. i have previously said that i think the sun is feeding and i think this nova phenomena shows i am right. and when the sun collects enough of this space dust it will become unstable and go into t-tauri flaring state.

SS: the cataclysm that befell mars was caused when our sun exploded.. the martian god was not powerful enough to save them.. mars along with its parent brown dwarf and an entire advanced ancient space-faring civilization was completely destroyed. this destruction was at all levels and is the reason why for this 3Dimensional sinkhole .. i have always said that when a star explodes that it explodes mufti-dimensionally.. it does not explode just in 3D space time that we percieve but also in the other dimensions. so when they say we detected the nova but that it happened millions years ago it took for that light to reach here theory is wrong. my theory regarding star explosions is that when we detect them is the exact moment they happened.

SS: we cannot just refuse to remember quantum particle physics laws whenever it is inconvenient and believe absurd theories like the light from the star explosion travels a million years before we see it.. “something only exists as a potential waveform until CONSCIOUSNESS percieves it” .. in other words the super nova or nova never happened until we detected it, and then at that very moment of observation the explosion so powerful happens it is mufti-dimensional explosion. the nova had not happened in the past until the moment we observed it then the multi-dimensional nova happened in the past .. time and space is an illusion.

SS: quantum particle physics explains how a star explosion happens at present moment and in the past simultaneously instantly we observed the light collapsing it’s waveform polarizing it into manifestation. when u are hyper-dimensional as in think hyper-dimensionally it makes sense that time and space is an illusion. the laws of quantum physics has warped around time and space. the light did not travel a million years, instead it was the star explosion happened right at the moment we saw the light… the astral light. there is NONE visible or invisible in this solar system more powerful than our sun and the astral light.

SS: there is one more thing that we can see that comets formed in the accretion disk of the white dwarf which i think means that comets are originally part of the sun, it is material ejected from the sun.. if comets form this way from ejection of material from the sun then so do planets and moons since they are originally comets in their pristine state too.

Sun’s 2013 solar activity peak weakest in 100 years¬† July 15, 2013 Though the sun is currently in the peak year of its 11-year solar weather cycle, our closest star has been rather quiet over all, scientists say. This year’s solar maximum is shaping up to be the weakest in 100 years and the next one could be even more quiescent, scientists said July 11. “It’s the smallest maximum we’ve seen in the Space Age,” David Hathaway of NASA’s Marshall Space Flight Center in Huntsville, Ala., told reporters in a teleconference.

Hubble Maps 3-D Structure of Ejected Material Around Erupting Star 06.04.13 A nova erupts when a white dwarf, the burned-out core of a sun-like star, has siphoned off enough hydrogen from a companion star to trigger a thermonuclear runaway. As hydrogen builds up on the surface of the white dwarf, it becomes hotter and denser until it detonates like a colossal hydrogen bomb, leading to a 10,000-fold increase in brightness in a little more than one day. Nova explosions are extremely powerful, equal to a blast of one million billion tons of dynamite. T Pyx erupts every 12 to 50 years.

Hubble captures infrared glow of a kilonova blast Kilonovas are about 1000 times brighter than a nova, which is caused by the eruption of a white dwarf. But they are 1/10th to 1/100th the brightness of a typical supernova, the self-detonation of a massive star.

If a white dwarf has a close companion star that overflows its Roche lobe, the white dwarf will steadily accrete gas from the companion’s outer atmosphere. The companion may be a main sequence star, or one that is aging and expanding into a red giant. The captured gases consist primarily of hydrogen and helium. The gases are compacted on the white dwarf’s surface by its intense gravity, compressed and heated to very high temperatures as additional material is drawn in. The white dwarf consists of degenerate matter, and so does not inflate as its temperature increases, while the accreted hydrogen is compressed upon the surface. The dependence of the hydrogen fusion rate on temperature and pressure means that it is only when it is compressed and heated at the surface of the white dwarf to a temperature of some 20 million kelvin that a nuclear fusion reaction occurs; at these temperatures, hydrogen burns via the CNO cycle.

While hydrogen fusion can occur in a stable manner on the surface of the white dwarf for a narrow range of accretion rates, for most binary system parameters the hydrogen burning is thermally unstable and rapidly converts a large amount of the hydrogen into other heavier elements in a runaway reaction,[1] liberating an enormous amount of energy, blowing the remaining gases away from the white dwarf’s surface and producing an extremely bright outburst of light. The rise to peak brightness can be very rapid or gradual and is related to the speed class of the nova; after the peak, the brightness declines steadily.[2] The time taken for a nova to decay by 2 or 3 magnitudes from maximum optical brightness is used to classify a nova via its speed class. A fast nova will typically take less than 25 days to decay by 2 magnitudes and a slow nova will take over 80 days.[3]

These three images taken by NASA’s Hubble Space Telescope reveal a disk of previously ejected material around an erupting star being illuminated by a torrent of light unleashed during a stellar outburst. (NASA, ESA, A. Crotts, J. Sokoloski, and H. Uthas (Columbia University), and S. Lawrence (Hofstra University)

This illustration shows a disk of material ejected by an erupting star, called T Pyxidis, or T Pyx. T Pyx is a recurrent nova, erupting every 12 to 50 years and ejecting material that has formed the disk around the bright star. The disk is full of clumps of material that have comet-like tails pointing away from the star. (NASA, ESA, A. Crotts, J. Sokoloski, and H. Uthas (Columbia University), and S. Lawrence (Hofstra University)

The sun is captured over Earth’s horizon by one of the Expedition 36 crew members aboard the International Space Station, as the orbital outpost was above a point in southwestern Minnesota in this May 21, 2013 photo courtesy of NASA. REUTERS/NASA/Handout (OUTER SPACE – Tags: ENVIRONMENT SCIENCE TECHNOLOGY TPX IMAGES OF THE DAY)