COURSE INTRODUCTION AND APPLICATION INFORMATION

Course Name

Restoration Chemistry

Code	Semester	Theory (hour/week)	Application/Lab (hour/week)	Local Credits	ECTS
MMIR 211	Fall	3	0	3	4

Prerequisites	None
Course Language	Turkish
Course Type	Required
Course Level	Short Cycle
Mode of Delivery	-
Teaching Methods and Techniques of the Course
Course Coordinator	Öğr. Gör. Serkan BOLAT
Course Lecturer(s)	-
Assistant(s)	-

Course Objectives	This course will provide the students with basic information about general chemistry, teaching the properties of the chemicals used in the conservation and restoration of historical buildings, and acquiring the relevant qualifications to get the information gap between chemistry and conservation application.
Learning Outcomes	The students who succeeded in this course; will be able to explain the concept of organic chemistry. will be able to describe the chemical properties of inorganic / organic materials used in architectural conservation and restoration. will be able to describe the physical and chemical properties of traditional building materials. will be able to prepare acid base solutions will be able to classify substances and properties.
Course Description	General information about matter and properties, atomic structure and periodic table, elements, ions and compounds, chemical bonds, chemical reactions, equilibrium of solubilisers, chemical calculations, acids and bases and application of this knowledge to architectural restoration will be transferred to the students.
Related Sustainable Development Goals

Course Category	Core Courses
	Major Area Courses	X
	Supportive Courses
	Media and Managment Skills Courses
	Transferable Skill Courses

WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES

Week	Subjects	Required Materials
1	Introduction and general information
2	Introduction to chemistry, general concepts	Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 1 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 1
3	Matter: Its Properties and Measurement	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 1 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 1
4	Atomic Concept	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 2 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 2
5	Metals, nonmetals	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 3 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 3
6	Chemical bonds	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 4 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 4
7	Chemical bonds	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 4 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 4
8	Mid-term exam
9	Periodic table	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 5 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 5
10	Organic chemistry	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 6 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 6
11	Organic chemistry	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Bölüm 7 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 7
12	Preparation of acid base solutions	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Bölüm 8 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 8
13	Chemicals for building materials and preservation chemicals	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 9 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 9
14	Chemicals for building materials and preservation chemicals	• Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. Chapter 10 Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi. Chapter 10
15	Review of the term
16	Final Examination

Course Notes/Textbooks	Chang, Raymond. 2000. Kimya (6. bas.), A. Bahattin Soydan, Ayşe Zehra Akoğuz (çev.). İstanbul: Beta Yayıncılık. • Mortimer, C.E. 2004. Modern Üniversite Kimyası. Turhan Altınata (çev.). İstanbul: Çağlayan Basımevi.
Suggested Readings/Materials

EVALUATION SYSTEM

Semester Activities	Number	Weigthing
Participation	1	10
Laboratory / Application
Field Work
Quizzes / Studio Critiques	1	20
Portfolio
Homework / Assignments	1	30
Presentation / Jury
Project
Seminar / Workshop
Oral Exam
Midterm
Final Exam	1	40
Total

Weighting of Semester Activities on the Final Grade	5	60
Weighting of End-of-Semester Activities on the Final Grade	1	40
Total

ECTS / WORKLOAD TABLE

Semester Activities	Number	Duration (Hours)	Workload
Course Hours (Including exam week: 16 x total hours)	16	3	48
Laboratory / Application Hours (Including exam week: 16 x total hours)	16
Study Hours Out of Class	16	2	32
Field Work
Quizzes / Studio Critiques	1	5
Portfolio
Homework / Assignments	1	10
Presentation / Jury
Project
Seminar / Workshop
Oral Exam
Midterms		5
Final Exams	1	10
		Total	105

COURSE LEARNING OUTCOMES AND PROGRAM QUALIFICATIONS RELATIONSHIP

#	Program Competencies/Outcomes	* Contribution Level
#	Program Competencies/Outcomes	1	2	3	4	5
1	Will be able to have knowledge about the basic technical information of the architectural restoration, methods and tools.			X
2	Will be able to transfer basic knowledge and skills about the field to the practice, will be able to interpret and transfer comments through written and oral communication.
3	Will be described as a restorer who is sensitive to the protection of cultural heritage, respects professional ethics and ethical values, and has knowledge of basic values of conservation.			X
4	Will be able to handle individual works in the architectural restoration filed.
5	Will be able to transmit educational knowledge into an advanced level of education or professional practice.
6	Will be acquainted with the importance of occupational health and safety, will fulfill their requirements.
7	As a required intermediate technical staff in the sector; will be able to relate collection, interpretation and announcement of the data on the architectural restoration field in the framework of ethical principles.			X
8	Will be able to communicate with colleagues and follow the knowledge in the architectural restoration field by using English at A2 General Level of European Language Portfolio.
9	Will be able to use informatics and communication technologies with computer programs in a level that required by the architectural restoration field.
10	Will be able to adopt a lifelong learning approach, and will be able to do studies for renewing and improving their knowledge continuously.			X

*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest