前期 月曜日 2講時. 単位数/Credit(s): 2. 担当教員/Instructor : 米田 忠弘. 学期/Semester: 前期. 開講年度/Year: 2024. 科目ナンバリング/Course code/number: SCH-PCH221E. 使用言語/Language Used in Course: 英語.
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Advanced Scanning Probe Microscopy, IMRAM (Tagen)
物理化学概論A
Thermodynamics and statistical physics
In this course, we study thermodynamics, statistical mechanics, and the properties of many-body systems at finite temperature. The course is intended for the understanding both of chemical physical phenomena appeared in material science. We will cover the classical thermodynamics, the relationship between the macroscopic phenomena and the microscopic properties (statistical mechanics), and the application of these ideas to the observed states of actual materials.
In this course, we study thermodynamics, statistical mechanics, and the properties of many-body systems at finite temperature. The course is intended for the understanding both of chemical physical phenomena appeared in material science. We will cover the classical thermodynamics, the relationship between the macroscopic phenomena and the microscopic properties (statistical mechanics), and the application of these ideas to the observed states of actual materials.
Chemical energetics; entropy; work and reversibility; phase equilibria; solution properties; a statistical approach to chemical energetics and equilibria Introduction to quantum chemistry:- applications to the bonding and structure of molecules, materials and nanoparticles. Molecular properties and reactivity
Chemical energetics; entropy; work and reversibility; phase equilibria; solution properties; a statistical approach to chemical energetics and equilibria Introduction to quantum chemistry:- applications to the bonding and structure of molecules, materials and nanoparticles. Molecular properties and reactivity
The following topics will be discussed, each of which takes two weeks.
Properties of ideal gases
Statistical thermodynamics principles
Statistical thermodynamics principles
Entropy accounting principles
Free-energy functions & the chemical potential
Application to multi-phase systems
Application to solids, surfaces & nanostructures
Fuel cell
Topics like as chemical reaction of fuel cells and spin ordering of magnetic materials are both included.
The following topics will be discussed, each of which takes two weeks.
Properties of ideal gases
Statistical thermodynamics principles
Statistical thermodynamics principles
Entropy accounting principles
Free-energy functions & the chemical potential
Application to multi-phase systems
Application to solids, surfaces & nanostructures
Fuel cell
Topics like as chemical reaction of fuel cells and spin ordering of magnetic materials are both included.
Midterm and Final Examination, plus reports of several classes, and the attendance
Midterm and Final Examination, plus reports of several classes, and the attendance
Hand out materials based on Physical Chemistry - molecular approach by D.A. McQuarrie and J.D. Simon
Hand out materials based on Physical Chemistry - molecular approach by D.A. McQuarrie and J.D. Simon
Homeworks at adequate occasions
Homeworks at adequate occasions