Abstract
A high positive correlation between the distance and temperature of the hottest nearby space objects
Highlights
We have reported a positive correlation (0.914384) between the possibility of finding unexpected high Redshift (Z greater than 0.001) and the average temperature of nearby objects in different categories [1]
The SIMBAD Astronomical Database told us "some of them showed up as stars in SDSS imaging data because they look like point sources, but they were followed up for spectra so that we can tell that they are quasars
We decided to find the correlation between distance and temperature of hottest objects
Summary
We have reported a positive correlation (0.914384) between the possibility of finding unexpected high Redshift (Z greater than 0.001) and the average temperature of nearby objects in different categories [1]. By analyzing information of 199 high Redshift nearby objects we realized that most of them are quasar and white dwarf, and an average temperature of them is almost 9,771 K. The SIMBAD Astronomical Database told us "some of them showed up as stars in SDSS imaging data because they look like point sources, but they were followed up for spectra so that we can tell that they are quasars. The stars have Redshifts near zero and the quasars have Redshift values in the expected range".
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