CH311. : Analytical chemistry 3

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

02

Prerequisite

CH212.

Overview

This course examines the following topics:

Separation methods:

- Segregation by sedimentation.

- Separation by column (column types).

- Solvent separation (distributive law, examples of extraction equilibriums, applications).

Chromatography:

- Definition of chromatography methods and types.

- Foundations of ion exchange and its applications, separation by ion exchange. Paper chromatography and thin layer chromatography. Column chromatography.

- GC gas chromatography of machine components, column efficiency and theoretical slides, solvent efficiency.

- High Performance Liquid Chromatography HPLC components, properties and uses.

Electrolysis methods:

- Introduction to electrochemical cells.

- Types of electrodes (standard hydrogen electrode, calomel electrode, silver electrode, other electrodes.

- pH measurement (glass membrane electrode).

- Nernst equation and its applications. - Calculate half-cell voltage and cell voltage. - Finding the constants of equilibrium (Ka, Kb, Ksp, ... etc) .

Electrolysis:

- Electrodeposition.

- Coulometric methods

- Voltammetry and Polarography.

Intended learning outcomes

1. Introduce the student to the concepts of solvent separation (distributive law, examples of extraction equilibriums, applications).

2. Provide students with information on chromatography methods and types.

3. Enable students to distinguish different electrolysis methods.

4. Developing students' skills in comparing the types of electrodes (standard hydrogen electrode, calumel electrode, silver electrode, other electrodes).

5. Enable students to know the Nernst equation and its applications.

6. Introduce students to how to find the different equilibrium constants Ka, Kb, Ksp, ... etc)).

7. Introduce students to the concepts and methods of electrodeposition.

8. Illustrates the concepts of solvent separation (distributive law, examples of extraction equilibriums, applications).

9. Identify the methods and types of chromatography.

10. Enumerates the different electrolysis methods.

11. Compare the types of electrodes (standard hydrogen electrode, calomel electrode, silver electrode, other electrodes.

12. Explains the Nernst equation and its applications.

13. Determine how to find the different equilibrium constants (Ka, Kb, Ksp, ... etc) 14. List the methods of electrodeposition.

15. Analyzes the concepts of solvent separation (distributive law, examples of extraction equilibriums, applications).

16. Discusses chromatography methods and types.

17. Explains various electrolysis methods.

18. Connects the types of electrodes (standard hydrogen electrode, calomel electrode, silver electrode, other electrodes.

19. Deduces the Nernst equation and its applications.

20. Discover how to find different equilibrium constants (Ka, Kb, Ksp, ... etc)

21. Deduces electrodeposition methods.

22. Apply with an in-depth understanding his knowledge of solvent separation concepts.

23. It uses chromatography methods and types.

24. Apply various electrolysis methods.

25. Employs his knowledge of different types of electrodes.

26. Uses the Nernst equation and its applications.

27. There are different equilibrium constants. (Ka, Kb, Ksp, ... etc)

28. Apply electrodeposition methods.

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

30. The student should be able to deliver and present.

31. The student should be able to solve problems.

32. The student must be a teamwork.

33. The student should be able to manage time.

Teaching and learning methods

1- Lectures.

2- Presenting scientific research.

3- Discussion.

Methods of assessments

Notes

Percentage

Evaluation weight

Evaluation duration

Evaluation methods

No.

20%

25

Fifth week

First written test (multiple choice style and essay questions)

1

20%

25

Tenth week

First written test (multiple choice style and essay questions)

2

50%

50

Last week

Final Exam

3

10%

10

Duties and reports

Activity during the term

4

Course Content

Week

Scientific topic

Teaching hours

Lectures

Exercises

Discussion

1

Separation methods:

- Precipitation separation.

- Separation by column (column types)

2

2

- Solvent separation (distributive law, examples of extraction equilibriums, applications).

- Chromatography:

Definition of chromatography methods and types

4

3

- Foundations of ion exchange and its applications, separation by ion exchange.

- Paper chromatography and thin layer chromatography. Column chromatography

4

4

GC gas chromatography (device components, theoretical column and slide efficiency, solvent efficiency).

- pH measurement (glass membrane electrode).

- Nernst equation and its applications.

2

5

First med term exam

6

Electrolysis methods - Introduction to electrochemical cells. - Types of electrodes (standard hydrogen electrode, calomel electrode, silver electrode, other electrodes).

2

7

High Performance Liquid Chromatography HPLC Components, Properties and Uses

2

8-9

Electrolysis methods - Introduction to electrochemical cells. - Types of electrodes (standard hydrogen electrode, calomel electrode, silver electrode, other electrodes).

2

10

Second med term exam

11

Calculation of half-cell voltage and cell voltage.

2

12

Calculation of equilibrium constants (Ka, Kb, Ksp, … etc) .

2

13

- Electrolysis

- Electrodeposition

2

14

- Coulometric analysis methods

- Voltammetric and polarography

2

15

Final exam

Total

26

References

Reference Title

Publisher

Version

The author

Reference location

Analytical Chemistry

Any

Skog & West

Collage library

Analytical Chemistry

Abd El , Hakim Qandeel

Collage library

Nternet web sites

The Free Encyclopedia

Collection of books

Quranic Studies 1 (AR101)
Principles of statistics (ST100)
Fundamentals of Education (EPSY101)
General Psychology (EPSY 100)
General Chemistry I (.CH101)
Arabic language 1 (AR103)
Arabic language 2 (AR104)
computer 1 (CS100)
General English1 (EN100)
General Teaching Methods (EPSY 201)
Developmental Psychology (EPSY 203)
Quranic studies2 (AR102)
General Mathematics 1 (MM111)
General chemistry II practical (CH102P.)
General chemistry II (CH102.)
Basics Of Curriculums (EPSY 202)
Educational Psychology (EPSY 200)
Computer 2 (CS101)
Arabic language 3 (AR105)
Physical Chemistry I (CH241.)
Analytical Chemistry I (CH211.)
Organic chemistry 1 (CH231.)
Inorganic Chemistry I (CH221.)
Organic Chemistry 2 (CH232.)
Physical Chemistry 2 (CH242.)
Methods of teaching chemistry (CH201)
General Mathematics 2 (MM112)
Research Methods (EPSY301)
Measurements and Evaluation (EPSY 302)
Analytical Chemistry 2 (CH212.)
Inorganic Chemistry II (CH222.)
Organic chemistry 1 Practical (CH231P.)
Physical chemistry 1 Practical (CH241P.)
Inorganic chemistry I Practical (CH222P.)
Analytical chemistry 1 Practical (CH211P.)
Teaching learning Aids (EPSY 303)
Psychological Health (EPSY 401)
Analytical chemistry 3 (CH311.)
Inorganic chemistry 3 (CH321.)
Organic chemistry 3 (CH331.)
Physical chemistry 3 (CH341.)
(CH212P.)
Analytical chemistry 4 (CH312.)
Inorganic chemistry 2 practical (CH321P.)
Inorganic chemistry 4 (CH322.)
Organic chemistry 2 practical (CH331P)
Organic chemistry 4 (CH332.)
Organic chemistry 3 practical (CH332P)
Physical chemistry 2 practical (CH341P.)
Physical chemistry 4 (CH342.)
Physical Chemistry 3 practical (CH342P)
Physical chemistry 5 (CH343.)
Inorganic chemistry 3 practical (CH322P.)
Biochemistry (CH451)
Industrial chemistry (CH441E)
Teaching Application (CH202)
Nuclear chemistry (CH436.)
Analytical chemistry 3 practical (CH311P)
(CH403.)
Biochemistry Practical (CH451P)
Teaching Practice (EPSY 402)
Environmental Chemistry (CH411E)