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Overview. Authors: Raza Tahir-Kheli. Offers a highly pedagogical and thorough introduction to statistical thermodynamics. Derives all the important formulae meticulously and explicitly, explaining all the necessary mathematics. Includes a wealth of worked-out problems and examples. Part of the book series: Graduate Texts in Physics (GTP)
- Raza Tahir-Kheli
Statistical thermodynamics provides the formalism for understanding how molecular interactions lead to the observed collective behavior at the macroscale. This course will develop a molecular-level understanding of key thermodynamic quantities like heat, work, free energy and entropy.
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Statistical Thermodynamics. Description: Lecture notes on statistical thermodynamics, calculation of macroscopic thermodynamic results, ideal gas mixtures, ideal liquid mixtures, energy, and entropy changes. Resource Type: Lecture Notes. pdf. 174 kB. Statistical Thermodynamics. Download File. DOWNLOAD.
Statistical thermodynamics is a theory that uses molecular properties to predict the behavior of macroscopic quantities of compounds. While the origins of statistical thermodynamics predate the development of quantum mechanics, the modern development of statistical thermodynamics assumes that the quantized energy levels associated with a ...
Statistical thermodynamics. The primary goal of statistical thermodynamics (also known as equilibrium statistical mechanics) is to derive the classical thermodynamics of materials in terms of the properties of their constituent particles and the interactions between them.
This course offers an introduction to probability, statistical mechanics, and thermodynamics. Numerous examples are used to illustrate a wide variety of physical phenomena such as magnetism, polyatomic gases, thermal radiation, electrons in solids, and noise in electronic devices.
Statistical thermodynamics, of which Boltzman is one of its best known fathers,9 considers the world at the microscopic, atomic scale and aims at understanding the phenomena that classic thermodynamics was only examining at a macroscopic scale.
