Exploring Time Electron Theory: A Novel Perspective on Time Perception

Introduction Time has long been one of the most intriguing and debated concepts in physics. Is time an independent dimension, an illusion, or merely an emergent property of atomic interactions? The Time Electron Theory, proposed by Syed Munim Qadri, offers a groundbreaking perspective—suggesting that time emerges from electron interactions rather than existing as a fundamental entity. This novel approach challenges conventional views on time and sheds light on its relationship with entropy, quantum mechanics, and relativity.

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Understanding Time Electron Theory: The Time Electron Theory postulates that time is not a separate dimension but an emergent phenomenon resulting from electron interactions at the atomic level. The theory suggests:

• Electron movement dictates time perception: Changes in atomic states due to electron interactions define the passage of time.
• Entropy and time’s arrow: The irreversible progression of entropy corresponds to the unidirectional nature of time.
• Time dilation through quantum transitions: Electron energy levels and gravitational forces influence time perception, aligning with relativity principles.

Key Findings and Implications

1. Time as an Emergent Property
   • If electron interactions were halted, time would cease to exist in that system.
   • Higher entropy leads to faster time progression.
2. Quantum Mechanics and Time
   • Electron transitions between energy levels may contribute to the passage of time.
   • Quantum fluctuations impact the micro-scale perception of time.
3. Time Dilation and Relativity
   • Time slows down in stronger gravitational fields and for high-speed particles.
   • The theory aligns with Einstein’s special and general relativity principles.

Scientific Context and References This theory builds on established physics, referencing key works like:

• Carlo Rovelli’s ‘The Order of Time’—exploring time as a relational concept.
• Brian Greene’s ‘The Fabric of the Cosmos’—connecting quantum mechanics to spacetime.
• Richard A. Muller’s ‘Now: The Physics of Time’—discussing time’s fundamental nature.

The American Physical Society (APS) recognizes the significance of studying time’s quantum and relativistic nature in advancing physics.

Further Reading and Citation For an in-depth exploration, read the full research article at DOI: 10.29328/journal.ijpra.1001081.

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