Thursday, April 12, 2012

White Dwarf Stars Only 100 LY From Earth Are the Coolest Oldest Known Stars Discrediting the Big-bang Universe Age


Two coldest and oldest known 11-12 billion year old dead white dwarf stars WD 0346+246 and SDSS J110217.48+411315.4 are still cooling, only 100 light years away from earth. (Story) Mukremin Kilic of OU college says "these two white dwarf stars have been dead and are cooling off for almost the entire history of the universe." This interpretation is illogical and wrong, considering the number of stars and the size of the universe. It would require an incredible coincidence for two extremely faint stars that are most easily detectable by being only 100 light years away, to actually be the oldest and coldest stars in the entire universe. Kilic says "It is like a crime scene investigation, we measure the temperature of the dead star, and then determine the time of the crime." The crime is deception to society and science, to purport the outdated Big-bang theory. Ancient dead cold stars called black dwarfs would emit no light and be impossible to detect at distances even less then 100 light years. Other ancient white dwarf stars that are still alive, have already been discovered in other galaxies, that are believed to be almost as old as the universe itself.  If most stars have been dead for over 200 billion years, and do not emit any radiation, being so near to absolute zero, they could account for all of the phony dark matter in galaxy halos. In 2001 Oppenheimer showed that up to 35% of the dark matter in galaxy halos could be white dwarfs that are not even dead yet. This means that the universe could commonly contain dead black dwarf stars that are over hundreds of billions of years old, relegating the big-bang into utter gibberish.

The universe is being incorrectly dated by the Big-bang theory, to be almost as old as the most ancient known discovered stars that become more faint as they cool off until they become black dwarfs impossible to detect at great enough distances and colder temperatures. Kilic of OU college says "A white dwarf is like a hot stove, once the stove is shut off, it cools slowly over time. By measuring how cool the star is, we can tell how long it has been shut off (dead). Both stars WD 0346+246 and J110217.48+411315.4 have been cooling for billions of years." 

the COOLEST AND OLDEST white dwarf stars nearby in the visible Universe
white dwarf WD 0346+246 proper motion near earth is only 100 LY away






In "A nearby old halo White dwarf candidate from the SDSS"  "The cooling time to reach 3,830 degrees kelvin for the white dwarf star SDSS J110217.48+411315.4 is 9.6 billion years assuming 0.6 M (solar mass)." "The white dwarf models could be sufficiently in error to explain the formally poor fit of the pure hydrogen model predictions for J110217.48+411315." "If J110217.48+411315 is a product of common envelope binary star evolution, its age would be greater than the age of the universe unless it is an unresolved double degenerate."

coolest brown dwarf stars

Strong evidence for the existence of black dwarfs is ignored for purporting the big-bang age of the universe
undetectable dead black dwarf stars far older then the age of the big-bang universe theory emit no radiation except blackbody radiation and remain hypothetical

Stars trade and swap roque planets by interacting with stellar neighbors or groups. Magnetized plasma bubbles surround the solar systems of stars, that interact with roque planets drifting in the ISM. It is estimated our galaxy contains 100,000 more roque planets than stars. This is strong compelling logic and evidence for the existences of black dwarf stars far older than the big-bang "baby universe" theory. Our solar system bubble extends far out past the orbits of the common known planets. Roque planets drift and orbit around EM field lines, interacting with the charges in the ISM from supernovas and filaments produced by the magnetized winds of supernova shock waves that form stars. Roque planets also interact outside the magnetized solar system bubbles with our local bubble that forms our local star group. This has been occurring for at least hundreds of billions of years, far longer than the big-bang, to explain the innumerable numbers of roque planets.
Roque wandering planets find new stars to orbit at distances hundreds or thousands of times farther away from the star than earth's orbit. Roque planets have tilted orbits and may orbit the star backwards.

Roque planets proliferating our galaxy had to have formed around now dead black dwarf stars. Only some roque planets nearby earth have been discovered so far.
Nomad roque planets likely outnumber stars 100,000 to 1 in our galaxy

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