For Tesla's proposal of wireless energy transmission, we can examine three fundamental components - Generation of high-frequency currents (A), Transformation of the currents into an electric field (B), and Transmission of energy through Earth's atmosphere or crust (C). Each component relies on the other, and any imbalance can disrupt the system.
A. Structural Analysis: The Coexistence Triad demonstrates the mutual dependency of the electric current generation (A1), its conversion into an electric field (B1), and the transmission of that energy (C1).
A1: Generation of High-Frequency Currents: High-frequency alternating currents are generated using Tesla's devices. Any variation in the generated currents might alter the resulting electric field and influence the subsequent energy transmission efficiency.
B1: Transform into an Electric Field: High-frequency currents are transformed into an electric field by the Tesla Coil. Disruption or instability in this stage can severely alter the transmission of energy.
C1: Transmission of Energy: The electric field releases energy into Earth's crust or the surrounding atmosphere. Anomalies in the transmission process can substantially disrupt the energy reception on the receiving end, even if the previous stages function optimally.
B. Functional Analysis: The Stabilization Triad suggests how the alternating current generation (A2) facilitates the creation of an electric field (B2), which eventually results in the wireless transmission of energy (C2).
A2: Power Generation: The function of Tesla's AC generators and the Tesla Turbine is integral to the entire process. If the power generation faces any significant disruption, the subsequent stages fail to function effectively.
B2: Electric Field Formulation: The energy transmission depends on the successful formulation of the electric field by the Tesla coil and the Magnifying Transmitter. If the transformation stage faces any issue, it impacts the entire system's functioning.
C2: Energy Transmission: Assuming flawless operations in the initial stages, the transmission process involves the dispersion of energy throughout the Earth's crust or atmosphere. But this process may face issues like atmospheric penetration inefficiencies, which might affect the successful implementation of the system.
C. Potential Analysis: With the help of the Nonlinear Triad, one can analyze potential outcomes by observing the impact of alterations in high-frequency current generation (A3), electric field creation (B3), and energy transmission (C3), while considering the non-linearity between these factors.
A3: Power Generation Anomalies: Any changes in the current generation, even slight, can trigger an unpredictable outcome in the electric field creation and energy transmission processes, causing non-linear effects due to the complex dynamics involved.
B3: Electric Field Alterations: Any variable changes in the electric field, whether naturally occurring or man-made, would cause a significant impact on energy transmission that may not directly correspond to the initial change.
C3: Transmission Discrepancies: Even if the AC current generation and electric field formation are optimized, transmission may face various unpredictable issues, like atmospheric changes, resulting in a non-linear and inconsistent impact on the overall system's efficacy.