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Updated in [February 21st, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
Differences between Kinetics and Thermodynamics.
Description of the Reaction Coordinate.
Gibbs Phase Rule: Reacting Systems.
Catalytic Selectivity and Equilibrium.
The Equilibrium Constant.
Equilibrium Constant Introduction.
Chemical Equilibrium and LeChatelier's Principle.
LeChatelier's Principle Does Not Always Work (Example).
Protein Stability (BIO).
Unfolded Protein Equilibrium (BIO).
Gas-Phase Reaction Equilibrium.
Heterogeneous Chemical Equilibrium.
Inert Effect on Chemical Equilibrium.
Diluent Effect on Equilibrium Conversion.
Chemical Equilibrium: Effect of an Inert.
Gas Phase Chemical Equilibrium.
Inert Effect on Equilibrium.
Equilibrium Protein Binding (BIO).
Gas-Phase Equilibrium Conversion Part 1.
Gas-Phase Equilibrium Conversion Part 2.
Adiabatic Reactor Temperature.
Solid-Liquid Chemical Equilibrium.
Chemical and Phase Equilibrium.
Boiling Point Elevation/Raoult's Law.
Freezing Point Depression Derivation.
Calculate Freezing Point Depression.
The Standard State in Chemical Equilibrium.
Temperature Dependence of Equilibrium Constant.
Introduction to Heterogeneous Chemical Equilibrium.
Introduction to Equilibrium for Partially-Miscible Liquids.
Adiabatic Flame Temperature Spreadsheet.
Calculate Gibbs Free Energy Change for a Reaction at Elevated Temperature.
Gibbs Free Energy of Reaction Spreadsheet.
Chemical Equilibrium Using Gibbs Minimization: Example.
Gibbs Free Energy of a Chemical Reaction as a Function of Temperature.
Calculate Chemical Equilibrium Using Gibbs Minimization.
Multi Reaction Chemical Equilibrium Using Gibbs Minimization Example.
Multi Reaction Chemical Equilibrium Using Gibbs Minimization Spreadsheet.
Equilibrium Constants for Water as a Liquid or Gaseous Reactant.
Compare Equilibrium Constants for Water as Liquid or Gaseous Product.
Equilibrium Composition for a Heterogeneous Reaction.
We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
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What skills and knowledge will you acquire during this course?
Here is an overview of what you'll learn:
Differences between Kinetics and Thermodynamics: Understand the distinctions between the rates of reactions and the conditions of equilibrium.
Reaction Coordinate Description: Learn about the concept of a reaction coordinate, which describes the progress of a reaction.
Gibbs Phase Rule: Explore reacting systems and the Gibbs phase rule, which provides insights into the relationships between variables in equilibrium systems.
Catalytic Selectivity and Equilibrium: Study how catalysts influence selectivity and equilibrium in chemical reactions.
Equilibrium Constant: Grasp the concept of equilibrium constants and their significance in quantifying equilibrium positions.
LeChatelier's Principle and Chemical Equilibrium: Understand LeChatelier's principle and how it applies to chemical equilibrium.
Protein Stability and Unfolded Protein Equilibrium (BIO): Explore the stability of proteins and the equilibrium involving unfolded proteins in biological contexts.
Gas-Phase Reaction Equilibrium: Learn about equilibrium involving reactions in the gas phase.
How does this course contribute to professional growth?
This course provides a comprehensive overview of thermodynamics and reaction equilibria, which are essential concepts for professional growth in the field of chemistry. It covers topics such as kinetics and thermodynamics, reaction coordinate, Gibbs phase rule, catalytic selectivity and equilibrium, equilibrium constant, LeChatelier's principle, protein stability, gas-phase reaction equilibrium, heterogeneous chemical equilibrium, inert effect on chemical equilibrium, diluent effect on equilibrium conversion, gas-phase equilibrium conversion, equilibrium protein binding, adiabatic reactor temperature, solid-liquid chemical equilibrium, chemical and phase equilibrium, boiling point elevation/Raoult's law, freezing point depression, standard state in chemical equilibrium, temperature dependence of equilibrium constant, and Gibbs free energy of reaction. By understanding these concepts, professionals in the field of chemistry can gain a better understanding of the underlying principles of thermodynamics and reaction equilibria, which can help them to make more informed decisions in their work.
Is this course suitable for preparing further education?
This course is applicable to diverse fields such as chemistry, biology, engineering, and environmental sciences, enhancing the potential for further specialization.
Complex Problem Solving: The course involves complex problem-solving tasks, which promote critical thinking and analytical skills, important for higher-level academic pursuits.
Real-World Relevance: Equilibrium concepts are widely applicable in real-world scenarios, making the course's content directly relevant to various research and application areas.