From Aristotle to Newton to Einstein to contemporary Grand Unified theoreticians, physics derives its prescience from increasing generality of natural representation. The concept of such a representation can be illustrated more fruitfully than it can be defined (the definition requiring a formulation in set theory).
Newtonian mechanics generalizes Aristotle through the intuition of mass that obviates physical distinctions between heaven and earth, celestial and terrestrial substances. Einstein ian concepts of relativity (laws of physics apply in all reference frames, regardless of motion) and space time generalize Newtonian ideas of space, time, and motion. Much as God generalizes over Babylonian and local polytheism’s. And there is good reason for the relation.
Western science has roots in Greco-Judeo-Christian-Islamic preconceptions of natural unity, the power of abstraction (evident in Greek philosophy and Judaic theology), and temporal linearity. The Jewish myth of Genesis, with its presumption of creation out of unity progressing to multiplicity and complexity, is what the Big Bang and evolutionary theory elaborate. The medievalism of science is prediction, the implication of essence. Points of singularity, where laws of physics cease to apply, are a current topic of speculation.
Within a singularity anything is possible, including the elaboration of a non-denumerable infinity of universes at our fingertips. What else shows infinite phenomenological possibility? Futurity. The coincidence is not accidental and suggests that time is the logical aspect of a singularity. A world such as ours with a temporal dimension can be theorized to have come from a singularity, bearing time as its legacy. If black holes spawn singularities, we rose and live in such a hole.
The Essay on Physics in Everyday Life
1) When we walk or run, our motion is part of laws of mechanics and thrmodynamics. 2) We eat food which undergoes chemical reactions producing heat energy which is converted into mechanical energy 3) Use of refrigerator, pressure cookers, washing machines, television, music system, computers, etc. are all designed on the principles of physics. 4) When we speak, we produce sound properties of which ...