CH241. : Physical Chemistry I

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

02

Prerequisite

CH102.

Overview

In this course, the student is exposed to the study of:

- Gases.

- The first law of thermodynamics.

- Thermochemistry.

- Laws of thermochemistry.

- Energies of bonds.

- The second and third laws of thermodynamics.

- Entropy.

- Entropy for the ideal gas mixture.

- Conditions for automatic change and equilibrium operation.

Intended learning outcomes

1. Introduce the student to the laws of ideal and real gas.

2. Enable the student to interpret the kinetic theory of gases.

3. Develop students' skills to use the most important laws of labor and energy.

4. Develop students' ability to distinguish the relationship between energy, work and heat.

5. Introduce the student to the second and third laws of thermodynamics.

6. Anthropic knowledge of the ideal gas mixture.

7. Study the conditions of automatic change and the equilibrium process.

8. Recognize the laws of ideal and real gas.

9. Illustrates the kinetic theory of gases.

10. Mentions the most important laws of labor and energy,

11. Distinguish the relationship between energy, work and heat.

12. Recognize the second and third laws of thermodynamics.

13. Shows the anthropogenic of the ideal gas mixture.

14. Enumerates the conditions of automatic change and equilibrium operation.

15. Discusses the heat of the reaction and the heat of the formation.

16. Analyzes all matters related to thermochemistry and thermodynamics.

17. Interprets and analyzes the molecular kinetic theory of gases.

18. Explores the relationship between energy, work and heat.

19. Deduces and analyzes the entropy of the ideal gas mixture.

20. Connects the first, second and third laws of thermodynamics.

21. Discusses the conditions of spontaneous change and the equilibrium process.

22. The student should solve a number of exercises and problems with more than one idea about thermochemistry and thermodynamics.

23. There is a solution to all problems related to thermochemistry and thermodynamics.

24. To give the student solutions to new, different and multiple problems about thermochemistry.

25. It uses the relationship between energy, work and heat.

26. He uses his knowledge with an in-depth understanding of the entropy of the ideal gas mixture. 27. Applies the first, second and third laws of the thermodynamics.

28. Employs the conditions of automatic variation and equilibrium operation.

29. The student should be able to communicate and communicate in writing and orally.

30. The student should be able to use modern technology in searching for information.

31. The student should be able to work as a team through panel discussions.

32. The student should be able to deliver and make some presentations.

Teaching and learning methods

1- Lectures.

2- Solve the exercises.

3- Discussion and dialogue.

Methods of assessments

Notes

Percentage

Evaluation weight

Evaluation duration

Evaluation methods

No.

25%

25

Two hours

First written test (multiple choice style and essay questions)

1

25%

25

One hour and a half

First written test (multiple choice style and essay questions)

2

50%

50

Two hours

Final Exam

3

Course content

Week

Scientific topic

Teaching hours

Lectures

Exercises

Discussion

1-2

Gases

4

3-4

The first law of thermodynamics

4

5

First med term exam

6

Thermochemistry

4

7

Laws of Thermochemistry

2

8

Bonds Energies

2

10

Second med term exam

11

The Second and Third Law of Thermodynamics

2

12

Entropy

2

13

Entropy of the ideal gas mixture

2

14

Conditions for spontaneous change and equilibrium process

2

15

Final exam

Total

24

References:

Reference Title

Publisher

Version

The author

Reference location

Professor Summaries

The Collage

----

Essam Abd El , Hadi Abdullah

American University of Sharjah

Fundamentals of Physical Chemistry

Omar Bin Abd allah Alazzazi

Internet

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