7. Interaction of the Four Fundamental Forces in a Relative Time Frame and Its Relation to Absolute Time
The four fundamental forces---gravity, electromagnetism, the strong nuclear force, and the weak nuclear force---are the cornerstones of modern physics, governing the interactions between particles and the structure of matter in the universe. Our understanding of the interactions of these forces has been built on a relative time framework influenced by relativity and quantum mechanics. However, in the context of absolute time resonance theory, a new perspective is needed that looks at how these fundamental forces interact and are "mediated" through a more fundamental time structure, namely absolute time.
7.1. Fundamental Forces and Relative Temporal Dimension
Each fundamental force operates in a local, observable relative time, also called phenomenological time or thermodynamic time in the case of entropy. For example:
Gravityaffects the structure of space-time within the framework of general relativity, which has relative time as part of its four-dimensionality.
Electromagnetism and nuclear forces operate in the framework of quantum fields whose evolution and interactions are measured relative to the time parameter in the system.
Thermodynamic time related to entropy and the arrow of time which explains the irreversibility of physical processes experienced by particles interacting with these fundamental forces.
7.2. Mediation by Absolute Time: Ontological Framework
In the absolute time resonance theory, all of these relative time frames are varying projections of one ontological absolute time field that is not directly detectable by conventional physical measurements. Absolute time acts as a "base layer" or substrateexistential that unites the interaction of fundamental forces within a universal temporal framework.
This implies:
The fundamental forces not only interact in different relative times, but are also connected through resonance with absolute time, which allows synchronization and coherence between physical phenomena on the macro and micro scales.
