Documentation
  • PLANETARY INERTIAL TENSOR REACTOR
    • The Science Behind RTIP
  • RTIP General Overview
    • Answers to Questions for Individuals with a Basic Technical Background
    • Answers to Questions for Design Engineers
    • Answers to Questions for Media and Business Professionals
    • Answers to Questions for Professors and Academics
      • ACADEMIC ANALYSIS
      • Emergent Radial Energy in Dual Regime (RTIP)
      • The Role of Centrifugal Force and the Origin of Centripetal Force
      • Conservation of Angular Momentum and the Impact of Radial Energy Extraction
      • Tangential Energy and the End of the Operating Cycle
      • LATENT EMERGENT FORCE
      • Tangential Energy and the End of the Operating Cycle
      • Technical Foundation of RTIP – Final Reconstruction with Conclusion and Rotational Tensor
      • Radial Energy – A Pure Manifestation of Spatial Opposition
      • Fundamental Annex – Energy Validation of RTIP
    • Answers to Questions for Physicists and Theoreticians
  • REAL PHENOMENA
    • Essential Aspect of Rotational Inertial Dynamics and Interaction with the Structure of Space
  • RTIP and AI: Two Complementary Technologies for a Revolutionary Future
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  1. RTIP General Overview
  2. Answers to Questions for Professors and Academics

Tangential Energy and the End of the Operating Cycle

PreviousConservation of Angular Momentum and the Impact of Radial Energy ExtractionNextLATENT EMERGENT FORCE

Last updated 2 months ago

The operating cycle of RTIP involves a clear sequence of events that ensures the conservation of tangential energy and the efficient extraction of radial energy. This section analyzes how RTIP completes its cycle and the mechanism of energy recovery.

1. Maintaining Tangential Energy During the Cycle

✔️ During radial transition, tangential energy remains nearly constant due to the extraction of radial energy. ✔️ Extracting radial energy eliminates the component that would reduce tangential velocity, allowing conservation of angular momentum. ✔️ The formula for tangential energy is:

✔️ Since tangential velocity is nearly constant, tangential energy is optimally used for conversion and energy recovery at the end of the cycle.

2. Completing the Cycle and Recovering Energy

✔️ After the bodies reach the outer radius, the forces balance, and the system enters a controlled deceleration phase. ✔️ Electromagnetic braking captures the surplus tangential kinetic energy and transforms it into recoverable electrical energy. ✔️ The total energy of the system is maintained, and internal forces are redistributed in dynamic balance. ✔️ The extracted energy can be used to restart the cycle or delivered to an external consumer.

3. Determining the Power Generated by RTIP

✔️ Total power is determined by the time of a complete cycle:

✔️ The shorter the cycle, the higher the generated power. ✔️ By optimizing radial energy extraction and tangential energy recovery, RTIP maximizes energy efficiency. ✔️ At the end of each cycle, the system returns to its initial position, and the process restarts without significant losses.

4. Manifestation of Inertial Mass in the Tensor and Conversion into the Stress-Energy Tensor

✔️ The inertial mass accumulated in the system creates a stress-tension tensor:

5. Synthesis of Energy Forms in the Complete RTIP Cycle

To fully understand the energy conversion of the RTIP system, it is necessary to clearly identify all energy forms involved in the complete cycle: