CH221. : Inorganic Chemistry I

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

03

Prerequisite

CH102.

Overview

This course aims to study the atomic structure, periodic table, Schrödinger wave equation, general properties of ionic and covalent bonds in compounds, ionic compounds of the AX AX2 type, hybridization.

Intended learning outcomes

1. Introduce the student to the atomic structure and the use of the periodic table.

2. Enable the student to identify chemical bonds and how they are classified and draw formulas (Lewis shapes).

3. Develop students' skills in the use of covalent bonds and micro structure through theories and hybridization.

4. Developing students' abilities to interpret the bonds that affect the formation of ionic and crystalline compounds and their types.

5. Providing students with the skill of weighing oxidation equations and reduction. 6. Enable students to interpret the equivalence theory and the molecular orbital crystal field.

7. Provide students with information about the types of ionic and crystalline compounds and the factors that noble influence them.

8. Recognize the components of the atom, quantum preparation and concept.

9. Explains the electronic distribution, the division of the periodic table and the gradient in properties.

10. Compare symbols, formulas and chemical equations.

11. Distinguish the types of chemical bonds and write Lewis formulas.

12. Shows the differences between the oxidation preparation and the weight of the redox equations.

13. The theory of equivalence and molecular orbit characterizes the crystal field.

14. List the types of ionic and crystalline compounds and the factors that affect them. 15. Interprets and analyzes the components of the atom, quantum preparation and its concept.

16. Deduce electronic distribution, division of the periodic table and gradient in properties.

17. Connects symbols, formulas and chemical equations.

18. Deduce the types of chemical bonds and write Lewis formulas.

19. Discusses and analyzes the differences between oxidation numbers and the weight of redox equations.

20. The equivalence theory proves the molecular orbital crystal field.

21. Discusses the types of ionic and crystalline compounds and the factors that affect them.

22. Employ his knowledge of the components of the atom and the preparation and concept of quantum.

23. Applied by understanding the electronic configuration, the division of the periodic table and the gradient in properties.

24. Uses symbols, formulas and chemical equations.

25. Apply how to identify the types of chemical bonds and write Lewis formulas. 26. Employs the differences between the differences between the oxidation number and the weight of the redox equations.

27. Applies the theory of equivalence and molecular orbital crystal field.

28. Employs and evaluates his knowledge of the types of ionic and crystalline compounds and the factors affecting them noble.

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

30. Uses technology to search for information related to the course vocabulary.

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

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

Teaching and learning methods

1. 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	During the term	Activity	4

Course Content

Week	Scientific topic	Teaching hours	Lectures	Exercises	Discussion
1-2	Components of the atom and quantum preparation and its concept.	6
3-4	Electronic configuration, periodic table division and gradient in properties	6
5	First med term exam
6-7	Symbols, formulas and chemical equations	6
8-9	Types of chemical bonds and writing Lewis formulas.	6
10	Second med term exam
11-12	Oxidation Preparation and Weight of Redox Equations	6
13	Valence theory and molecular orbital crystal field	3
14	Types of ionic and crystalline compounds and the factors that affect them	3
15	Final exam
	Total	36

References

Reference Title	Publisher	Version	The author	Reference location
Fundamentals of Inorganic Chemistry (Arabic edition)	Egyptian Lebanese House		Hassan Shehata

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)