Course 1 first explores the basics of both macroscopic and microscopic thermodynamics from a postulatory point of view. In this view, the meaning of temperature, thermodynamic pressure and chemical potential are especially clear and easy to understand. In addition , the development of the Fundamental Relation and its various transformations leads to a clear path to property relations and to the concept of ensembles needed to understand the relationship between atomic and molecular structural properties and macroscopic properties. We then explore the relationship between atomic and molecular structure and macroscopic properties by taking a statistical point of view. Using a postulatory approach, the method for doing this is made clear. This leads to the development of the partition function which describes the distribution of molecular quantum states as a function of the independent, macroscopic thermodynamic properties.
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- 5 stars58.51%
- 4 stars24.01%
- 3 stars8.73%
- 2 stars4.36%
- 1 star4.36%
來自FUNDAMENTALS OF MACROSCOPIC AND MICROSCOPIC THERMODYNAMICS的熱門評論
Precise and informative, exactly what I need for my research on the animate and the inanimate.
Very Much interesting and Problem solving is the challenging. Need some more references in solving Problems. Which will help the learners concentrate more.
Sublime Course with very good presentations , obviously requires basic understanding to go through the course , must do for a mechanical student if aiming for higher studies
Really fun and challenging. Good teaching methods.
關於 Statistical Thermodynamics 專項課程
This specialization was developed for the mechanical or aerospace engineering advanced undergraduate graduate or graduate student who already has a strong background in undergraduate engineering thermodynamics and is ready to tackle the underlying fundamentals of the subject. It is designed for those entering advanced fields such as combustion, high temperature gas dynamics, environmental sciences, or materials processing, or wishes to build a background for understanding advanced experimental diagnostic techniques in these or similar fields. It covers the relationship between macroscopic and microscopic thermodynamics and derives properties for gases, liquids and solids. It also covers non-equilibrium behavior as found in kinetic theory and chemical kinetics. The main innovation is the use of the postulatory approach to introducing fundamental concepts and the very clear connection between macroscopic and microscopic thermodynamics. By introducing basic ideas using postulates, students are given a very straightforward way to think about important concepts, including entropy and temperature, ensembles and quantum mechanics.