前期 金曜日 2講時. 単位数/Credit(s): 2. 担当教員/Instructor : 荒木 保幸. 学期/Semester: 前期. 開講年度/Year: 2024. 科目ナンバリング/Course code/number: SCH-PCH223E. 使用言語/Language Used in Course: 英語.
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Institute of Multidisciplinary Research for Advanced Materials
General Physical Chemistry C
General Physical Chemistry C
Chemical kinetics, also known as reaction kinetics, is the study of the speed of chemical processes.
A study of chemical kinetics includes investigations of how experimental conditions can influence on the speed of a chemical reaction. In this class, appropriate construction of mathematical models that can describe the characteristics of a chemical reaction will be discussed. Concept of "order of reaction" and "how to determine order of reaction along with integrated rate laws" are also the most important topics of this class. Moreover, the enzymatic reaction kinetics will be introduced to understand the specific examples of chemical reaction rate determination.
On the other hand, starting from the discussion of molecular velocities in the gas phase (Maxwell-Boltzmann distribution), the relationship between molecular collisions and reaction rates will be discussed. This discussion will be continued to study the relationship between chemical reactions in the gas phase and the internal and potential energies of the reacting molecules.Through the trial to solve the problems in the textbook, the establishment of the knowledge will be achieved.
Chemical kinetics, also known as reaction kinetics, is the study of the speed of chemical processes.
A study of chemical kinetics includes investigations of how experimental conditions can influence on the speed of a chemical reaction. In this class, appropriate construction of mathematical models that can describe the characteristics of a chemical reaction will be discussed. Concept of "order of reaction" and "how to determine order of reaction along with integrated rate laws" are also the most important topics of this class. Moreover, the enzymatic reaction kinetics will be introduced to understand the specific examples of chemical reaction rate determination.
On the other hand, starting from the discussion of molecular velocities in the gas phase (Maxwell-Boltzmann distribution), the relationship between molecular collisions and reaction rates will be discussed. This discussion will be continued to study the relationship between chemical reactions in the gas phase and the internal and potential energies of the reacting molecules.Through the trial to solve the problems in the textbook, the establishment of the knowledge will be achieved.
The main goal is to teach principles of reaction kinetics and catalysis. Topics covered include the laws and theories governing reaction rates and mechanisms in gas, condensed phase and at the solid-liquid interface. Modern experimental approaches to study kinetics in complex chemical and biochemical systems and analysis of experimental data will be introduced. Computational approaches to estimate rates of chemical reactions and study the mechanism of catalysis will be discussed.
The main goal is to teach principles of reaction kinetics and catalysis. Topics covered include the laws and theories governing reaction rates and mechanisms in gas, condensed phase and at the solid-liquid interface. Modern experimental approaches to study kinetics in complex chemical and biochemical systems and analysis of experimental data will be introduced. Computational approaches to estimate rates of chemical reactions and study the mechanism of catalysis will be discussed.
Contents and Progress Schedule of the Class:
In this class, the contents from Chapter 27 to Chapter 31 of the textbook (Physical Chemistry – a molecular approach by D. A. McQuarrie and J.D. Simon) will be discussed.
Chapter 27 / The Kinetic Theory of Gases
Chapter 28 / Chemical Kinetics : Rate Laws
Chapter 29 / Chemical Kinetics : Reaction Mechanisms
Chapter 30 / Gas-phase Reaction Dynamics
Chapter 31 / Solid and Surface Chemistry
Contents and Progress Schedule of the Class:
In this class, the contents from Chapter 27 to Chapter 31 of the textbook (Physical Chemistry – a molecular approach by D. A. McQuarrie and J.D. Simon) will be discussed.
Chapter 27 / The Kinetic Theory of Gases
Chapter 28 / Chemical Kinetics : Rate Laws
Chapter 29 / Chemical Kinetics : Reaction Mechanisms
Chapter 30 / Gas-phase Reaction Dynamics
Chapter 31 / Solid and Surface Chemistry
Record and Evaluation Method:
Class attendance (perfect attendance assigns 60 points), reports (perfect submission assigns 20 points) and scores of final examinations (full score assigns 20 points) are totally evaluated.
Person who gains over 90 points gets AA score.
Record and Evaluation Method:
Class attendance (perfect attendance assigns 60 points), reports (perfect submission assigns 20 points) and scores of final examinations (full score assigns 20 points) are totally evaluated.
Person who gains over 90 points gets AA score.
Physical Chemistry – a molecular approach by D. A. McQuarrie and J.D. Simon
Physical Chemistry – a molecular approach by D. A. McQuarrie and J.D. Simon
Students who joins in this class is expected to keep prep.
Students who joins in this class is expected to keep prep.
This class will be conducted in English.
An in-person class
Classcode : 7pl3ydx
This class will be conducted in English.
An in-person class
Classcode : 7pl3ydx