Three-dimensional transformation for rotating coordinate systems and its applications in physics
B. V. Gisin

TL;DR
This paper explores the three-dimensional transformation for rotating coordinate systems and demonstrates its applications across quantum mechanics, general relativity, and optics, highlighting its broad relevance in physics.
Contribution
It introduces a comprehensive analysis of the three-dimensional transformation for rotating systems and applies it to multiple fundamental physics domains.
Findings
Effective in describing rotating frames in quantum mechanics
Provides insights into relativistic effects in rotating systems
Enhances understanding of optical phenomena in rotating coordinates
Abstract
Applications of the three-dimensional transformation for rotating coordinate systems to quantum mechanics, general theory relativity and optics are considered.
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Taxonomy
TopicsScientific Research and Discoveries · Geophysics and Gravity Measurements · Inertial Sensor and Navigation
