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GENERAL CHEMISTRY I
Course Information

Course Information

Course Information

Course Title	Code	Semester	L+U Hour	Credits	ECTS
GENERAL CHEMISTRY I	PHM1003	1. Semester	3 + 0	3.0	4.0

Prerequisites

None

Language of Instruction	English
Course Level	Bachelor's Degree
Course Type	Compulsory
Mode of delivery	Theoretical lessons, discussion, homework, question-answer
Course Coordinator
Instructors	Erdal DİNÇ
Assistants	Özgür ÜSTÜNDAĞ Nevin ERK
Goals	The aim of the General Chemistry I, is to give informations to the students , about atomic structure , periodic system, structure of compounds and chemical bonds , stochiometry , states of the matters.
Course Content	Atomic structure, theories, Electron energy levels, wave characteristics of electrons, electron spin, Quantum numbers, atomic radius, ionization potential, electron affinity, Chemical bonds: molecular geometry, hybridization, molecule orbitals, Stoichiometry: gram atom, equivalent gram concepts, empirical formula calculations, Chemical reactions; oxidation numbers, Redox: equilibration of chemical systems, chemical equations and calculations about this, Gases: gas laws (Boyle, Charles, Dalton laws), Avogadro's principle, Graham Law, equations of state, kinetic theory, real and ideal gases, liquefaction of gases, solubility of gases in liquids, Henry Law, problems, Mass spectrometry and Nuclear Magnetic Resonance (NMR) spectroscopy, spectrum sample analysis, Instrumental analysis methods and spectrum sample analysis of these methods, Liquids: general properties, equilibrium vapor pressure, boiling points, heating and coding curves, phase diagrams, problems, Solutions, concentration units, vapor pressure (Raoult Law), boiling and freezing points, electrolyte solutions, Percentage of resolution, affinity between ions, solubility, problems; solids: general properties, geometry and problems
Learning Outcomes	1) Learning about base fields such as organic chemistry, analytical chemistry and biochemistry 2) Increase and protection conscious about environment 3) Getting ability for application his/her knowledge 4) Getting knowledge and ability for using chemistry in daily life

Weekly Topics (Content)

Week	Topics	Teaching and Learning Methods and Techniques	Study Materials
1. Week	Atomic structure, theories (discovery of electrons, nucleus, properties, periodic system, general properties)	Lecture; Discussion Brainstorming Problem Based Learning	Homework
2. Week	Electron energy levels, wave characteristics of electrons, electron spin	Lecture; Discussion Brainstorming Problem Based Learning	Homework
3. Week	Quantum numbers, atomic radius, ionization potential, electron affinity	Lecture; Question Answer; Discussion Brainstorming Problem Based Learning	Homework
4. Week	Chemical bonds: molecular geometry, hybridization, molecule orbitals	Lecture; Question Answer; Discussion Brainstorming Problem Based Learning	Homework
5. Week	Stoichiometry: gram atom, equivalent gram concepts, empirical formula calculations	Lecture; Discussion Brainstorming Problem Based Learning	Homework
6. Week	Chemical reactions; oxidation numbers	Lecture; Discussion Brainstorming Problem Based Learning	Homework
7. Week	Midterm Exam	Question Answer	Practice (Teaching Practice, Music/Musical Instrument Practice, Statistics, Laboratory, Field Work, Clinic and Polyclinic Practice)
8. Week	Gases: gas laws (Boyle, Charles, Dalton laws)	Lecture; Discussion Brainstorming Problem Based Learning	Homework
9. Week	Avogadro's principle, Graham Law, equations of state, kinetic theory, real and ideal gases, liquefaction of gases, solubility of gases in liquids, Henry Law, problems	Lecture; Discussion Brainstorming Problem Based Learning	Homework
10. Week	Mass spectrometry and Nuclear Magnetic Resonance (NMR) spectroscopy, spectrum sample analysis	Lecture; Discussion Brainstorming Problem Based Learning	Homework
11. Week	Instrumental analysis methods and spectrum sample analysis of these methods	Lecture; Discussion Brainstorming Problem Based Learning	Homework
12. Week	Liquids: general properties, equilibrium vapor pressure, boiling points, heating and coding curves, phase diagrams, problems	Lecture; Discussion Brainstorming Problem Based Learning	Homework
13. Week	Solutions, concentration units, vapor pressure (Raoult Law), boiling and freezing points, electrolyte solutions	Lecture; Discussion Brainstorming Problem Based Learning	Homework
14. Week	Percentage of resolution, affinity between ions, solubility, problems; solids: general properties, geometry and problems	Lecture; Discussion Brainstorming Problem Based Learning	Homework
15. Week	Redox: equilibration of chemical systems, chemical equations and calculations about this	Lecture; Discussion Brainstorming Problem Based Learning	Homework

Sources Used in This Course

Recommended Sources

Chemistry A Conceptual Approach, Mortimer

Temel Kimya, Sienko and Plane

Relations with Education Attainment Program Course Competencies

Program Requirements	Contribution Level	DK1	DK2	DK3	DK4
PY1	5	0	0	0	0
PY2	5	0	0	0	0
PY3	5	0	0	0	0
PY4	5	0	0	0	0
PY5	5	0	0	0	0

*DK = Course's Contrubution.

	0	1	2	3	4	5
Level of contribution	None	Very Low	Low	Fair	High	Very High

.

ECTS credits and course workload

Event	Quantity	Duration (Hour)	Total Workload (Hour)
Course Duration (Total weeks*Hours per week)	14	3	42
Work Hour outside Classroom (Preparation, strengthening)	14	1	14
Activity (Web Search, Library Work, Trip, Observation, Interview etc.)	14	2	28
Midterm Exam	1	1	1
Time to prepare for Midterm Exam	1	20	20
Final Exam	1	1	1
Time to prepare for Final Exam	1	20	20
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course			30

Quick Access

Pharmacy (English)
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Course Information

Course Information
Weekly Topics (Content)
Sources Used in This Course
Relations with Education Attainment Program Course Competencies
ECTS credits and course workload