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principles of thermodynamics
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This is a contributed entry on Thermodynamics principles and/or laws; the latter are defined as those primary propositions that are fundamental to the logical and mathematical development of Thermodynamics in accord with all experimental findings in classical molecular physics. Thus, thermodynamics has its historical roots in studies of heat and Molecular Physics.
In particular, such thermodynamic laws impose essential constrains on the equations of state and state functions that are employed to describe all closed thermodynamic systems. However, the thermodynamic treatment of open systems is not yet a `closed book'. One also notes that such thermodynamic laws that hold for all closed systems may still be further derived from statistical mechanics.
Thermodynamic systems: Closed vs. Open systems.
Thermodynamic Processes: Reversible vs. Irreversible := equilibrium vs. Non-equilibrium
Temperature is a measure of the degree of molecular motion: the higher the average magnitude of velocities in a system measured at equilibrium with the system, the higher the temperature is (the hotter the system is).
absolute temperature scale
[More to come...]
Remark 1.1 Whereas absolute temperatures of molecular systems can only take on positive values, spin temperature–or spin-lattice temperature– for example, may take on `negative' values as a result of spin population inversion through Polarization, or cross-polarization.
Such cross-polarization processes might be thus utilized in designing and operating quantum `computers' or quantum nano-robots.
Total energy Conservation
During any thermodynamic process the entropy of a closed system always increases if the closed system is not at equilibrium (when the latter becomes constant), [or, equivalently, that perpetual motion machines are impossible].
The entropy of any crystalline system tends to zero in the limit of absolute zero temperature.
Suggested Fourth Principle: the Onsager reciprocity relations for non-equilibrium, open systems
Remark: Commonly, the four principles of reversible thermodynamics are also known as "the four thermodynamic laws".
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"principles of thermodynamics" is owned by bci1.
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See Also: Thermodynamics, zeroth law of thermodynamics, first law of thermodynamics
| Other names: |
thermodynamic principles, statistical mechanics |
| Also defines: |
reversible process, open system, closed system, irreversible process, reversible process, absolute temperature, internal energy, entropy, state functions, thermal equilibrium in closed systems, negative spin temperature, cross-polarization, thermodynamics principles and laws, the four thermodynamic laws, thermodynamic laws |
| Keywords: |
thermodynamic principles, statistical mechanics, quantum statistical mechanics, open systems, Onsager principle, equations of state, state functions |
This object's parent.
Cross-references: relations, energy, quantum computers, spin, absolute temperature scale, velocities, magnitude, motion, temperature, equilibrium, systems, heat, Thermodynamics, propositions
There are 37 references to this object.
This is version 19 of principles of thermodynamics, born on 2009-01-07, modified 2009-04-22.
Object id is 352, canonical name is PrinciplesOfThermodynamics.
Accessed 4207 times total.
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