What is it about?
Does the earth have other stable orbits in the solar system? This question can be answered by studying the long-term statistical behavior of the motion of real particles. The earth's trajectory in solar system is an ellipse according to Kepler's laws of motion. The quantum state function is a mapping of the elliptical equation onto the complex plane, from which we derive the Schrödinger equation of quantum mechanics. The results show that the stable orbit of the earth is not unique, and the motion energies of different orbits are quantized.
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Why is it important?
The wave-particle duality is a fundamental assumption of quantum mechanics. This study rules out the binary paradox of quantum through the motion scenarios of the solar system and provides a realistic interpretation for quantum mechanics by deriving the Schrödinger equation from the Kepler's laws of motion. It reveals an unusual relationship between classical mechanics and quantum mechanics, and demonstrates the unity of physical laws in the macro and micro world.
Perspectives
The real particle theory is an axiomatic system that represents a new paradigm different from classical and modern physics. The real particle theory is the tangram to build a unified physics, and the cluster concept is the unique module with parallelogram to solve particle puzzles.
Dr. Zhongcheng Liang
Nanjing University of Posts and Telecommunications
Read the Original
This page is a summary of: Wave or Particle? Quantum Behavior of Solar System, May 2023, Research Square,
DOI: 10.21203/rs.3.rs-2891785/v1.
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