This project explores a new theoretical framework that unifies general relativity, quantum mechanics, and cosmic evolution by proposing that time, light, and matter are fundamentally interconnected and cycle through different states.
- Matter is not distinct from energy; both exist in a recursive transformation driven by time.
- Gravity may emerge from energy redistribution across spacetime, not as a fundamental force.
- Black holes recycle cosmic energy and play a key role in maintaining cosmic equilibrium, supporting the steady-state universe model.
- Matter and energy are fundamentally interconnected, subject to a recursive transformation.
- Known phenomena like pair production demonstrate the transformation of photons into matter.
- Instead of gravity being a fundamental force, it may emerge from energy redistribution across spacetime.
- The Einstein field equations have been modified to include a time-dependent energy feedback term, removing singularities and allowing black holes to recycle energy.
- Black holes are not simply information sinks but act as energy recyclers, stabilizing the cosmos.
- This helps resolve the information paradox and negates the need for dark matter.
- Cosmic expansion may be driven by natural oscillations within the energy cycle, not requiring exotic forces like dark energy.
- Time Propagation via Black Holes: Black holes are theorized to release time as a dynamic quantity. This time release alters spacetime and allows for the emergence of dark energy.
- Gravitational Feedback: The dynamics of spacetime curvature are altered by feedback loops involving time release and entropy, leading to a self-regulating cosmological system.
Follow these instructions to test and run the black hole time wave simulation:
- Clone the Repository
git clone https://github.com/your_username/black-hole-time-waves.git
cd black-hole-time-waves
2. Install Dependencies:
pip install -r requirements.txt
3. Run the Simulation:
python scripts/black_hole_time_waves.py