awking Radiation ― An Augmentation Attrition Model.doc

awking Radiation ― An Augmentation Attrition Model 　　Abstract A system of Hawking radiation that dissipates the energy and mass of black hole is investigated. With the methodology reinforced with the explanations， we write the governing equations with the nomenclature for the system of matter antimatter and concatenate those equations with that of energy and mass of Black hole and Hawking radiation， such concatenation process， ipso facto fait accompli， following the same processual formalities for solvability. Key words： Hawking radiation； Black body； Fundamental forces； Energy； Mass； Matter； Antimatter； Black hole； Governing equations K.N. Prasanna Kumar， B.S. Kiranagi， C.S. Bagewadi （2012）. Hawking Radiation ― An Augmentation Attrition Model. Advances in Natural Science， 5（2）， ―0. Available from URL： http：///index.php/ans/article/view/j.ans.1715787020120502.1817 DOI： http：///10.3968/j.ans.1715787020120502.1817 INTRODUCTION Hawking radiation is black body radiation that is predicted to be emitted by black holes， due to quantum effects near the event horizon. It has non―zero temperature and entropy. Alexei Starobinsky showed that according to the quantum mechanical uncertainty principle， rotating black holes should create and emit particles. Hawking radiation reduces the mass and the energy of the black hole. Shrink and ultimately vanish. Micro black holes （MBHs） are predicted to be larger net emitters of radiation than larger black holes and should shrink and dissipate faster. Black holes are sites of immense gravitational attraction. Classically， the gravitation is so powerful that nothing， not even electromagnetic radiation， can escape from the black hole. It is yet unknown how gravity can be incorporated into quantum mechanics， nevertheless， far from the black hole the gravitational effects can be weak enough for calculations to be reliably performed in the framework of quantum field theory in curved space―time. Hawking showed that quantum effects all