What is the Kinetiverse?
The Kinetiverse is a novel physical framework that redefines our understanding of the universe by rejecting traditional concepts of gravity and spacetime. Instead, it employs F=ma (spatial force) and E=mc (temporal energy) to model physical phenomena. In this paradigm, space and time are treated as separate, entangled entities, where acceleration in one domain influences the other. This approach offers a fresh perspective on phenomena like planetary motion, tides, and atmospheric dynamics, free from the constraints of Newtonian gravity or Einsteinian spacetime.
Core Principles
- Spatial Force (F=ma): All physical interactions are governed by Newton’s second law, where force equals mass times acceleration. This replaces traditional gravitational forces (F=G(m1m2)/R²).
- Temporal Energy (E=mc): Energy dynamics are described by a temporal energy equation, where c is a velocity scale (~3 × 10^8 m/s), distinct from Einstein’s E=mc², focusing on temporal interactions.
- Separation of Space and Time: Space and time are distinct entities, not merged into a spacetime continuum, allowing independent analysis of spatial and temporal dynamics.
- Entanglement of Space and Time: Accelerations in space (e.g., orbital or axial motion) affect temporal accelerations, and vice versa, creating coupled dynamics.
- Rejection of Gravity and Spacetime: Traditional gravity and spacetime are replaced by spatial forces and temporal energy, offering a simpler mechanistic view of the universe.
- Dynamic Phenomena: Effects like tides arise from combined orbital (Keplerian) and axial motions, reducing centrifugal force on the Sun-facing side. Clock motion alters photon path lengths, modulating applied forces.