Section 42 (first updated 2.12.2021) Infinitesimal and Continuity The infinitesimal is not merely a general continuity; rather, it is the infinite continuity within a discrete point of singularity. This means that, on the one hand, there are an infinite number of separate discrete points whose total amount is innumerable—they cannot be counted as individually separate …
Section 23 (first updated 1.12.2021 Eternity The ontological incorporation of one concept into another requires acquaintance with the ultimate principles of space and time. Eternity and infinity together constitute the ultimatum of spacetime. It is therefore necessary first to clarify the logic of eternity in relation to infinity in order to understand several vital consequences:(A) …
section 34 (first updated 1.13.2021) Newton vs Einstein Common Misconceptions about Time A common misconception treats time as if some already-given quantitative measure exists prior to activity, and that activity merely draws from this preexisting stock. In reality, the doing of the activity is the duration of the time taken. Time is not a container …
section 25 (last updated 1.14.2021) Two Chains of Possibilities and the Emergence of Actuality Two chains of possibilities coming into the same reality How do two chains of possibilities collide together to make an actuality? An actuality, in this sense, is the initiation and end of a series containing the set of possibilities, any of …
Section 26 (first updated 1.16.2021) Our modern accounts of what constitutes development in the evolutionary context are heavily dependent on the observation of physical differences between life forms that have accumulated throughout different periods of time. Modern evolution is very physically oriented and focuses on the “use and disuse” of physical attributes of an animal—its …
Section 27. (First updated 1.22.2021) Quantization is defined as the process by which a system’s possible values or states are restricted so that certain variables can only assume discrete magnitudes. In the purely physical sense, this appears as light being quantized into packets of energy, discrete particle points, rather than as a continuous wavelength. This quantum leap represents the division of a …
Section 28 (first updated 1.22.2021) Wormholes, Energy Inversion, and Temporal Discontinuity The modern explanation of a wormhole describes it as a “connection between widely separated regions of spacetime.”¹ Two locations that are ordinarily distant within the spacetime fabric become connected and effectively reduced to the same point, so that the time required to travel from …
Section 29 (first updated 1.23.2021) Oscillations The proposition of String Theory, which posits one-dimensional objects called strings, describes how point-like particles of particle physics propagate through space.¹ The vibrational state of the string explains the mechanical phenomenon whereby oscillations occur about an equilibrium point.² This description denotes how the uncertainty of spacetime—coming in and out …
Section 28 (first updated 1.26.2021) Schwarzschild Radius – How Black Holes Are Made The discovery of the black hole is one of the most startling concepts ever conceived in the study of nature. Black holes are “singularities” in spacetime in which gravity is so extreme that nothing—not even light—can escape their grasp.[1] They serve as …
Section 31 (first thought of 2015 and first articulated 1.28.2021) Quantum Dialectic Discrete Continuous- Quality Quantity (Vacuous — mindless, showing no thought) How do the magnitudes of discrete and continuous relate to quality and quantity? For both magnitudes can be a quality and a quantity, as they belong to dimensions of the conditions of objects …