CH321. : Inorganic chemistry 3

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

03

Prerequisite

CH222.

Overview

This course is concerned with the study of:

- General properties of transition elements.

- Hard and soft acids and bases.

- Parity bond theory. Molecular astronomy theory.

- Crystal field theory.

- The laws of the effect of atomic number and consistency numbers.

- Types of connections, their structure and isomerism.

- The chelated effect of the connections and the magnetic properties of the complexes.

- Labeling and calculation of oxidation numbers.

Intended learning outcomes

1. Know the general properties of transition elements.

2. Be able to distinguish between hard and soft acids and bases.

3. Identify the theories of valence bond, molecular orbit and crystal field.

4. Be able to use the laws of the effect of atomic number and consistency numbers. 5. Acquire the skill of identifying the types of connections and their structure and isomerism (morphology).

6. Develop students' ability to distinguish the chelated effect of the connections and the magnetic properties of complexes.

7. Ability to determine the label and calculate oxidation numbers.

8. Recognize the general properties of transition elements.

9. Distinguish hard and soft acids and bases.

10. Explains the theories of valence bond, molecular orbit and crystal field.

11. Enumerates the laws of the effect of atomic number and consistency numbers. 12. Compare the types of connections and their structure with isomerism.

13. Demonstrates the chelated effect of the connections and the magnetic properties of complexes.

14. Specifies the label and calculation of oxidation numbers.

15. Analyzes the general properties of transition elements.

16. Interprets hard and soft acids and bases.

17. Discusses equivalence bond theories, molecular orbital and crystal field.

18. Deduces the laws of the effect of atomic number and numbers of consistency. 19. Connects the types of connections and their structure and isomerism (morphology).

20. Interprets and analyzes the chelated effect of the connections and magnetic properties of complexes.

21. Evaluates the label and calculation of oxidation numbers.

22. Employ with an in-depth understanding his knowledge of the general properties of transition elements.

23. Uses and evaluates its information about hard and soft acids and bases.

24. Demonstrates the theories of valence bond, molecular orbit and crystal field. 25. Applies the laws of the effect of atomic number and consistency numbers.

26. Links the types of connections and their structure to isomerism (morphology). 27. Evaluates his knowledge of the claw of the connectors and the magnetic properties of complexes.

28. Calculates oxidation numbers.

29. Ability to make a presentation and communicate orally and in writing in the vocabulary of the course.

30. The ability to self-learning and continuous learning.

31. Respects the opinions of his colleagues and has professional ethics.

32. Ability to work in a team.

Teaching and learning methods

Lectures.

2. Submit reports and working papers.

3. Discussion and dialogue.

Methods of assessments

Notes

Percentage

Evaluation weight

Evaluation duration

Evaluation methods

No.

20%

20

Fifth week

First written test (multiple choice style and essay questions)

1

20%

20

Tenth week

First written test (multiple choice style and essay questions)

2

50%

50

Last week

Final Exam

3

10%

10

Duty and reports

Activity during the term

4

Course Content

Week

Scientific topic

Teaching hours

Lectures

Exercises

Discussion

1-2

General properties of transition elements

6

3-4

Hard and soft acids and bases

6

5

First med term exam

6-7

Valence bond theory

6

8

Molecular orbital theory

3

9

Crystal field theory

3

10

Second med term exam

11

Laws of Atomic Number Effect and Consistency Numbers

33

12

Types of bonds, their structure and isomerism.

13

Chelated effect of connections and magnetic properties of complexes.

3

14

Namingand calculation of oxidation numbers

3

15

Final exam

Total

36

References

Reference Title

Publisher

Version

The author

Reference location

Fundamentals of Inorganic Chemistry (Arabic edition)

Advanced Inorganic Chemistry, A comprehensive Text

John Wiley & Sons

4th edition

Cotton & Wilkinson

Faculty libraray

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)