Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits
1	ÇEV 173	General Chemistry	2+2+0	3	5

Course Details

Language of Instruction	English
Level of Course Unit	Bachelor's Degree
Department / Program	Environmental Engineering
Mode of Delivery	Face to Face
Type of Course Unit	Elective
Objectives of the Course	The aim of this lecture to give systematic and comprehensive theoretical knowledge on chemistry and to improve students's ability to think about basic concepts of chemistry
Course Content	Properties and meassurements of matter, atoms and atom theories, electron configuration of atom, chemical compounds and reactions, theory of chemical bond, gasses, liquids and solids
Course Methods and Techniques
Prerequisites and co-requisities	None
Course Coordinator	Associate Prof.Dr. Aslı Seyhan ÇIĞGIN
Name of Lecturers	Associate Prof.Dr. Aslı Seyhan ÇIĞGIN
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources	Petrucci, Ralph H.; Harwood, William S.; Herring, F.Geoffrey, General Chemistry: Principles and Modern Applications, 10. Edition, Pearson Canada Inc., Toronto, Ontario.

Course Category

Mathematics and Basic Sciences	%25
Engineering	%25
Engineering Design	%0
Social Sciences	%0
Education	%0
Science	%50
Health	%0
Field	%0

Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

In-Term Studies	Quantity	Percentage
Mid-terms	1	% 40
Final examination	1	% 60
Total	2	% 100

ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Course Duration	15	4	60
Hours for off-the-c.r.stud	15	2	30
Assignments	6	4	24
Mid-terms	1	20	20
Final examination	1	20	20
Total Work Load			Number of ECTS Credits 5 154

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Defines the aim of chemistry and properties of matter.
2	Describes the periodic properties of elements, types of chemical compounds, chemical reactions and equations.
3	Lists the gas laws.
4	Describes and compares the properties of liquids and solids.
5	Distinguish the crystal structures of solids.
6	Prepares solution.
7	Tests the basic chemistry laws in the laboratory.
8	Develops experimental study skills with various chemicals and laboratory materials.
9	Develops individual and group working skills in laboratory.
10	Discuss and report experimental results.

Weekly Detailed Course Contents

Week	Topics	Study Materials
1	The purpose of chemistry, properties and classification of matter, scientific uncertainty in measurements and significant figures	Reading the related chapter of lecture notes
2	Structure of atoms, atom, electron, proton, neutron, isotops, atomic mass	Reading the related chapter of lecture notes
3	Chemical bonds, atomic radius, ionization energy, electron interest, ionic bond, types of ion	Reading the related chapter of lecture notes
4	Covalent bonds, formal load, Lewis theory, electronegativity, oxidation state, inorganic compunds	Reading the related chapter of lecture notes
5	Chemical reactions and quantitative equations, mol, percent composition, chemical equations, problems on chemical equations	Reading the related chapter of lecture notes
6	Calorimetry, thermochemical equations, Hess’s law, Standard Enthalpies of Formation	Reading the related chapter of lecture notes
7	Gases, pressure, Boyle’s law, Charles’s law, Amontons’s law, ideal gas law, Gay-Lussac s law of combining volumes, Avogadro’s law	Reading the related chapter of lecture notes
8	Midterm Exam
9	Atomic and molecular mass, Avogadro’s law, Stochiometry, gas volumes, Dalton s law of partial pressures, molecular rates, Graham’s effusion law, condensation of gases	Reading the related chapter of lecture notes
10	Liquids and solids, liquid state, vaporization, vapor pressure, boiling point, heat of vaporization	Reading the related chapter of lecture notes
11	Freezing point, vapor pressure of a solid, sublimation, phase diagrams, crystals	Reading the related chapter of lecture notes
12	X-ray diffraction of crystals, crystal structure of metals, ionic crystals, lattice energies of crystals	Reading the related chapter of lecture notes
13	Solutions, properties of solutions, hydrated ions, enthalpy of solution, effect of pressure and temperature on solubility	Reading the related chapter of lecture notes
14	Solution concentration, vapor pressures of solutions, freezing-point and boiling-point of solutions	Reading the related chapter of lecture notes
15	Osmosis, distillation, solutions of electrolytes, interionic attractions	Reading the related chapter of lecture notes

Contribution of Learning Outcomes to Programme Outcomes

	P1	P2	P6	P7
All	5	3	4	3
C1	5	3	4	3
C2	5	3	4	3
C3	5	3	4	3
C4	5	3	4	3
C5	5	3	4	3
C6	5	3	4	3
C7	5	3	4	3
C8	5	3	4	3
C9	5	3	4	3
C10	5	3	4	3

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https://obs.akdeniz.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=2235683&curProgID=36&lang=en

	P1	P2	P6	P7
All	5	3	4	3
C1	5	3	4	3
C2	5	3	4	3
C3	5	3	4	3
C4	5	3	4	3
C5	5	3	4	3
C6	5	3	4	3
C7	5	3	4	3
C8	5	3	4	3
C9	5	3	4	3
C10	5	3	4	3

	P1	P2	P6	P7
All	5	3	4	3
C1	5	3	4	3
C2	5	3	4	3
C3	5	3	4	3
C4	5	3	4	3
C5	5	3	4	3
C6	5	3	4	3
C7	5	3	4	3
C8	5	3	4	3
C9	5	3	4	3
C10	5	3	4	3

	P1	P2	P6	P7
All	5	3	4	3
C1	5	3	4	3
C2	5	3	4	3
C3	5	3	4	3
C4	5	3	4	3
C5	5	3	4	3
C6	5	3	4	3
C7	5	3	4	3
C8	5	3	4	3
C9	5	3	4	3
C10	5	3	4	3