Statistical and Thermal Physics by Hoch, Michael J.R.;

An Introduction

GET 10% OFF
The discount is only available for 'Alert of Favourite Topics' newsletter recipients.

Publisher's listprice GBP 150.00
The price is estimated because at the time of ordering we do not know what conversion rates will apply to HUF / product currency when the book arrives. In case HUF is weaker, the price increases slightly, in case HUF is stronger, the price goes lower slightly.

75 915 Ft (72 300 Ft + 5% VAT)
Discount 10% (cc. 7 592 Ft off)
Discounted price 68 324 Ft (65 070 Ft + 5% VAT)

75 915 Ft

Availability

Uncertain availability. Please turn to our customer service.

Product details:

Edition number 1
Publisher CRC Press
Date of Publication 17 June 2011

ISBN 9781439850534
Binding Hardback
No. of pages450 pages
Size 234x158 mm
Weight 772 g
Language English

Long description:

Concepts and relationships in thermal and statistical physics form the foundation for describing systems consisting of macroscopically large numbers of particles. Developing microscopic statistical physics and macroscopic classical thermodynamic descriptions in tandem, Statistical and Thermal Physics: An Introduction provides insight into basic concepts at an advanced undergraduate level. Highly detailed and profoundly thorough, this comprehensive introduction includes exercises within the text as well as end-of-chapter problems. The first section of the book covers the basics of equilibrium thermodynamics and introduces the concepts of temperature, internal energy, and entropy using ideal gases and ideal paramagnets as models. The chemical potential is defined and the three thermodynamic potentials are discussed with use of Legendre transforms. The second section presents a complementary microscopic approach to entropy and temperature, with the general expression for entropy given in terms of the number of accessible microstates in the fixed energy, microcanonical ensemble. The third section emphasizes the power of thermodynamics in the description of processes in gases and condensed matter. Phase transitions and critical phenomena are discussed phenomenologically.In the second half of the text, the fourth section briefly introduces probability theory and mean values and compares three statistical ensembles. With a focus on quantum statistics, the fifth section reviews the quantum distribution functions. Ideal Fermi and Bose gases are considered in separate chapters, followed by a discussion of the "Planck" gas for photons and phonons. The sixth section deals with ideal classical gases and explores nonideal gases and spin systems using various approximations. The final section covers special topics, specifically the density matrix, chemical reactions, and irreversible thermodynamics.

Concepts and relationships in thermal and statistical physics form the foundation for describing systems consisting of macroscopically large numbers of particles. Developing microscopic statistical physics and macroscopic classical thermodynamic descriptions in tandem, Statistical and Thermal Physics: An Introduction provides insight into basic concepts at an advanced undergraduate level. Highly detailed and profoundly thorough, this comprehensive introduction includes exercises within the text as well as end-of-chapter problems. The first section of the book covers the basics of equilibrium thermodynamics and introduces the concepts of temperature, internal energy, and entropy using ideal gases and ideal paramagnets as models. The chemical potential is defined and the three thermodynamic potentials are discussed with use of Legendre transforms. The second section presents a complementary microscopic approach to entropy and temperature, with the general expression for entropy given in terms of the number of accessible microstates in the fixed energy, microcanonical ensemble. The third section emphasizes the power of thermodynamics in the description of processes in gases and condensed matter. Phase transitions and critical phenomena are discussed phenomenologically.In the second half of the text, the fourth section briefly introduces probability theory and mean values and compares three statistical ensembles. With a focus on quantum statistics, the fifth section reviews the quantum distribution functions. Ideal Fermi and Bose gases are considered in separate chapters, followed by a discussion of the "Planck" gas for photons and phonons. The sixth section deals with ideal classical gases and explores nonideal gases and spin systems using various approximations. The final section covers special topics, specifically the density matrix, chemical reactions, and irreversible thermodynamics.

CLASSICAL THERMAL PHYSICS: THE MICROCANONICAL ENSEMBLE: Introduction to Classical Thermal Physics Concepts: The First and Second Laws of Thermodynamics. Microstates and the Statistical Interpretation of Entropy. Applications of Thermodynamics to Gases and Condensed Matter, Phase Transitions, and Critical Phenomena. QUANTUM STATISTICAL PHYSICS AND THERMAL PHYSICS APPLICATIONS: The Canonical and Grand Canonical Ensembles and Distributions. Quantum Distribution Functions, Fermi?Dirac and Bose?Einstein Statistics, Photons, and Phonons. The Classical Ideal Gas, Maxwell?Boltzmann Statistics, Nonideal Systems. The Density Matrix, Reactions and Related Processes, and Introduction to Irreversible Thermodynamics. Appendices. Index.