Authors: Kadir Aydogdu
To understand the relation between heat and temperature, physicists are modeling them as radiation and average kinetic energy, however in this thesis we will explain them as heat particles in the eyes of particle physics by analyzing the energy density functions. In thesis, this heat particle becomes the energy itself and carries constant mass, conservative forces and potential energy that is dependent to the distance between particles. Moreover, we will assume that the interaction between these particles result a radiation as blackbody distributed photons, in addition, interaction of these particles with other particles that we know result kinetic and other types of potential energy exchanges as we know as photon exchange. We will start with analyzing laws and theories that we trust, then we will try to find how these heat particles behave and how they interact with each other by modeling heat inside the black body box and heat inside photons as smallest particles and we will discuss how energy density changes in vacuum. By working with many particle systems, we will assume that energy density of the vacuum is dependent to conserved potential and we will try to find some proportionality about it. After finding constants and proportionalities, we will try to predict how every physical interaction happen and we will discuss every biggest physical problem in the eyes of our theory. Finally, we will be discussing one particle physics model in which everything made from just one particle.
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[v1] 2018-09-20 09:52:32
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