Statistical Physics and Thermodynamics
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Statistical Physics and Thermodynamics
An Introduction to Key Concepts
Rau, Jochen
Oxford University Press
09/2017
224
Mole
Inglês
9780199595075
15 a 20 dias
440
Descrição não disponível.
1: Introduction
1.1: The Challenge of Statistical Mechanics
1.2: Classical Probability
2: Quantum Theory
2.1: Review of Basic Concepts
2.2: Mixed States
2.3: Composite Systems
3: Constructing the State
3.1: Information and Entropy
3.2: Maximum Entropy Principle
3.3: Thermodynamic Square
3.4: Reproducible Processes and the Second Law
3.5: Equilibrium and Temperature
3.6: Fluctuations
4: Simple Systems
4.1: Harmonic Oscillator
4.2: Rotor
4.3: Spin in a Magnetic Field
4.4: Paramagnet
5: Thermodynamic Limit
5.1: Homogeneity
5.2: Stability
5.3: Equivalence of Ensembles
5.4: Four Laws
6: Perfect Gas
6.1: Generic Properties
6.2: Continuum and Classical Limits
6.3: Fermi Gas
6.4: Bose--Einstein Condensation
6.5: Photons
6.6: Internal Dynamics
6.7: Dilute Solution
7: Processes and Responses
7.1: Work and Heat
7.2: Cycles, Barriers, and Reservoirs
7.3: Potentials
7.4: Equilibrium and Stability in the Presence of a Reservoir
7.5: Coefficients
8: Phase Transitions
8.1: Coexistence of Phases
8.2: First-Order Phase Transition
8.3: Second-Order Phase Transition: Ising Model
1.1: The Challenge of Statistical Mechanics
1.2: Classical Probability
2: Quantum Theory
2.1: Review of Basic Concepts
2.2: Mixed States
2.3: Composite Systems
3: Constructing the State
3.1: Information and Entropy
3.2: Maximum Entropy Principle
3.3: Thermodynamic Square
3.4: Reproducible Processes and the Second Law
3.5: Equilibrium and Temperature
3.6: Fluctuations
4: Simple Systems
4.1: Harmonic Oscillator
4.2: Rotor
4.3: Spin in a Magnetic Field
4.4: Paramagnet
5: Thermodynamic Limit
5.1: Homogeneity
5.2: Stability
5.3: Equivalence of Ensembles
5.4: Four Laws
6: Perfect Gas
6.1: Generic Properties
6.2: Continuum and Classical Limits
6.3: Fermi Gas
6.4: Bose--Einstein Condensation
6.5: Photons
6.6: Internal Dynamics
6.7: Dilute Solution
7: Processes and Responses
7.1: Work and Heat
7.2: Cycles, Barriers, and Reservoirs
7.3: Potentials
7.4: Equilibrium and Stability in the Presence of a Reservoir
7.5: Coefficients
8: Phase Transitions
8.1: Coexistence of Phases
8.2: First-Order Phase Transition
8.3: Second-Order Phase Transition: Ising Model
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
1: Introduction
1.1: The Challenge of Statistical Mechanics
1.2: Classical Probability
2: Quantum Theory
2.1: Review of Basic Concepts
2.2: Mixed States
2.3: Composite Systems
3: Constructing the State
3.1: Information and Entropy
3.2: Maximum Entropy Principle
3.3: Thermodynamic Square
3.4: Reproducible Processes and the Second Law
3.5: Equilibrium and Temperature
3.6: Fluctuations
4: Simple Systems
4.1: Harmonic Oscillator
4.2: Rotor
4.3: Spin in a Magnetic Field
4.4: Paramagnet
5: Thermodynamic Limit
5.1: Homogeneity
5.2: Stability
5.3: Equivalence of Ensembles
5.4: Four Laws
6: Perfect Gas
6.1: Generic Properties
6.2: Continuum and Classical Limits
6.3: Fermi Gas
6.4: Bose--Einstein Condensation
6.5: Photons
6.6: Internal Dynamics
6.7: Dilute Solution
7: Processes and Responses
7.1: Work and Heat
7.2: Cycles, Barriers, and Reservoirs
7.3: Potentials
7.4: Equilibrium and Stability in the Presence of a Reservoir
7.5: Coefficients
8: Phase Transitions
8.1: Coexistence of Phases
8.2: First-Order Phase Transition
8.3: Second-Order Phase Transition: Ising Model
1.1: The Challenge of Statistical Mechanics
1.2: Classical Probability
2: Quantum Theory
2.1: Review of Basic Concepts
2.2: Mixed States
2.3: Composite Systems
3: Constructing the State
3.1: Information and Entropy
3.2: Maximum Entropy Principle
3.3: Thermodynamic Square
3.4: Reproducible Processes and the Second Law
3.5: Equilibrium and Temperature
3.6: Fluctuations
4: Simple Systems
4.1: Harmonic Oscillator
4.2: Rotor
4.3: Spin in a Magnetic Field
4.4: Paramagnet
5: Thermodynamic Limit
5.1: Homogeneity
5.2: Stability
5.3: Equivalence of Ensembles
5.4: Four Laws
6: Perfect Gas
6.1: Generic Properties
6.2: Continuum and Classical Limits
6.3: Fermi Gas
6.4: Bose--Einstein Condensation
6.5: Photons
6.6: Internal Dynamics
6.7: Dilute Solution
7: Processes and Responses
7.1: Work and Heat
7.2: Cycles, Barriers, and Reservoirs
7.3: Potentials
7.4: Equilibrium and Stability in the Presence of a Reservoir
7.5: Coefficients
8: Phase Transitions
8.1: Coexistence of Phases
8.2: First-Order Phase Transition
8.3: Second-Order Phase Transition: Ising Model
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
