Authors :
Yang Immanuel Pachankis
Volume/Issue :
Volume 7 - 2022, Issue 2 - February
Google Scholar :
http://bitly.ws/gu88
Scribd :
https://bit.ly/37zlSPk
DOI :
https://doi.org/10.5281/zenodo.6360849
Abstract :
The article presents the empirical
confirmation to the black hole and white hole juxtapose
theory. The author based the experiment on the multimission multi-spectral space telescope data conducted
remotely with the NASA Data Challenge and HarvardSmithsonian Micro-Observatory. Since the loss of the
original manuscript, the author reformulated the
mathematics during the research. The observation
developed a resonance observation technique that
observed the white hole to the moon’s direction with the
sun. The data reduction of the white hole and other
observations provides an explanation for the undetected
gravitons and some empirical physical features of the
white hole.
Keywords :
gravitational singularities; interdisciplinary astronomy; astronomy data reduction; theoretical techniques; white hole; singularities; resonance observation; anti-entropy; space astrometry
The article presents the empirical
confirmation to the black hole and white hole juxtapose
theory. The author based the experiment on the multimission multi-spectral space telescope data conducted
remotely with the NASA Data Challenge and HarvardSmithsonian Micro-Observatory. Since the loss of the
original manuscript, the author reformulated the
mathematics during the research. The observation
developed a resonance observation technique that
observed the white hole to the moon’s direction with the
sun. The data reduction of the white hole and other
observations provides an explanation for the undetected
gravitons and some empirical physical features of the
white hole.
Keywords :
gravitational singularities; interdisciplinary astronomy; astronomy data reduction; theoretical techniques; white hole; singularities; resonance observation; anti-entropy; space astrometry