Quantum Mechanics Interpretation Using Energy Flow in Transformers
Abstract
This paper proposes a new interpretation of quantum mechanics based on energy flow between the primary and secondary coils of a transformer. By introducing the concept of mutual energy flow, the author points out that energy propagation is not governed by the traditional self-energy flow but by mutual energy flow between the primary and secondary coils. The shape of the mutual energy flow exhibits both particle and wave characteristics on a macroscopic scale, which can be used to explain wave-particle duality. Furthermore, the paper discusses the physical significance of advanced waves and analyzes their applicability in quantum mechanics using mutual energy flow equations. Combining Huygens’ principle, action-reaction theory, and absorber theory, this study aims to provide a more intuitive and physically meaningful explanation of quantum mechanics. Through theoretical derivations and relevant simulation results, the paper further demonstrates the potential of mutual energy flow in interpreting quantum behavior and energy transfer mechanisms, offering a new perspective for interdisciplinary research between classical electromagnetism and quantum mechanics.