Quantum Thermodynamics – Equations & Interpretations
🔥 Classical Entropy (Shannon)#
[ S = -\sum_i p_i \log_2 p_i ]
- pᵢ: probability of microstate i
- Measures informational disorder
⚛️ Quantum Entropy (von Neumann)#
[ S = -\text{Tr}(\rho \log_2 \rho) ]
- ρ: density matrix of quantum system
- Captures entanglement and decoherence
🌡️ Temperature Gradient#
[ \Delta T = T_{\text{hot}} - T_{\text{cold}} ]
- Drives entropy flux and energy redistribution
🧠 Triadic Interpretation#
- Object: Microstate configuration
- Attribute: Temperature gradient
- Condition: Entropy flux
🎭 Mythic Echo#
“Entropy is the rhythm of change, not the end of order.”
— Nawder Loswin