Heat and Photon Energy Phenomena: Dealing with Matter at Atomic and Electronic Level

Abstract

Technology is achieving its climax, but the basic understanding of science in numerous phenomena is still required. Misconception using terms such as photon and electron exists in different areas of science. When the electron of outer ring in silicon atom executes interstate dynamics for only one cycle, it generates force and energy of a unit photon. Interstate dynamics of the electron for one forward and reverse cycles generate the overt photon having the least measured length. When the photon of suitable length interacts with the side of laterally orientated electron of an atom, it converts into heat energy. Under the approximate angle of 90º, when a photon interacts with the tip of laterally orientated electron, it divides into the bits of energy having a shape like integral symbols. In silicon atom, electrons of the outer ring execute confined interstate dynamics on exerting forces along the poles; the centre of atom acts as the reference point for electrons executing interstate dynamics and the lateral lengths of the electrons are along the north-south poles. In neutral-state silicon atom, the involved heat energy wraps around the force shaping along the tracing trajectory of electron dynamics in both forward and reverse cycles. A force is being shaped from the sides of electron not experiencing the exertions of forces. In interstate dynamics, electron of the outer ring first reaches the ‘maximum limit point’, where energy of one bit is engaged wrapping around the shaping force along its tracing trajectory. From the ‘maximum limit point’, electron completes the second half cycle dealing with relevant forces, where again energy of one bit is engaged wrapping around the shaping force along the tracing trajectory. In this way, an electron depicts the force and energy relation forming a unit photon. The shape of unit photon is like ‘Gaussian distribution of turned ends’. Under uninterrupted supply of heat energy to the silicon atom, an electron dynamics generates the photon having a shape like wave. Path independent but interstate dependent forces take over the control of electron. Hence, that electron executes dynamics nearly in the speed of light. In confined interstate dynamics, naturally viable conservative forces exert to the position-acquiring electron. A photon can be in the continuous and unending length if the electron dynamics remains uninterrupted. Having not made contact with states limiting forces at work, the changing aspect of electron recalls auxiliary moment of inertia at each point of turning. By executing electron dynamics, atoms under neutral states generate photons of different shapes, so revealing the phenomena of heat and photon energy.