Information Of Programmes

INSTITUTE OF SCIENCE / KİM905 - TEKLİF EDİLEN KIMYA (DOKTORA)

Code: KİM905

Course Title: THESIS

Theoretical+Practice: 0+1

ECTS: 24

Year/Semester of Study

4 / Fall Semester

Level of Course

3rd Cycle Degree Programme

Type of Course

Compulsory

Department

TEKLİF EDİLEN KIMYA (DOKTORA)

Pre-requisities and Co-requisites

None

Mode of Delivery

Face to Face

Teaching Period

14 Weeks

Name of Lecturer

FATMA KARİPCİN (fkaripcin@nevsehir.edu.tr)

Name of Lecturer(s)

FATMA KARİPCİN,

Language of Instruction

Turkish

Work Placement(s)

None

Objectives of the Course

The aim of this course is to design and conduct a study by using the knowledge and skills acquired in undergraduate, graduate, and doctoral courses by setting up experimental setups, solving the problems that arise, and using the necessary devices and computer programs. In addition, it is to gain the knowledge and skills to write a thesis report by interpreting the results of the study and to prepare or present the results of their studies as national or international articles and publications.

Learning Outcomes		PO	MME
The students who succeeded in this course:
LO-1	Can search for sources related to the study subject, examine these sources systematically, and design a new study subject/project/experiment/method using their previous knowledge.	PO-1 Develop advanced theoretical and applied knowledge in the field, depending on undergraduate and graduate qualifications. PO-3 Can closely follow national and international developments in the field of chemistry. PO-4 Can systematically follow up-to-date information in the field. PO-5 Can have the ability to search literature, make presentations, design and prepare experimental setups, and interpret the relevant results.	Presentation
LO-2	Can prepare the experimental setups to be used in their studies, carry out the studies in a planned way, offer solutions when problems arise, and work as a team.	PO-1 Develop advanced theoretical and applied knowledge in the field, depending on undergraduate and graduate qualifications. PO-5 Can have the ability to search literature, make presentations, design and prepare experimental setups, and interpret the relevant results. PO-7 Can develop new ideas and methods with different perspectives by using high-level competencies such as suggesting solutions to problems that arise in the field and making decisions. PO-9 Can produce solutions to social, scientific, and ethical issues by combining their own knowledge and perspective with up-to-date information about their field.	Practice Exam
LO-3	Can use necessary devices and computer programs in their studies, interpret the results obtained, and establish interdisciplinary connections when necessary.	PO-1 Develop advanced theoretical and applied knowledge in the field, depending on undergraduate and graduate qualifications. PO-2 Can make connections between different disciplines and sub-fields that their field is related to by using their expert knowledge and skills, work in harmony in research groups. PO-5 Can have the ability to search literature, make presentations, design and prepare experimental setups, and interpret the relevant results. PO-10 Can propose solutions to the problems that arise in her field and in different disciplines, take initiative in decision-making processes, and lead research groups. PO-15 Have adequate knowledge of computer software used in chemistry and use information and communication technologies at an advanced level.	Practice Exam
LO-4	Can prepare and present a final report/presentation or national/international publication/statement by evaluating the results obtained. Can defend the results before experts in the field.	PO-3 Can closely follow national and international developments in the field of chemistry. PO-11 Can contributes to the progress in the field by transforming the studies in her field into scientific articles and publishing them in national and/or international refereed journals. PO-13 can defend their original views with experts in the discussion of issues in their field at international platforms and can communicate effectively, showing their competence in the field PO-14 Able to communicate at an advanced level in written and oral communication in at least one foreign language. PO-15 Have adequate knowledge of computer software used in chemistry and use information and communication technologies at an advanced level.
LO-5	Can prepare new interdisciplinary projects that will contribute to social problems by making use of the results they have obtained, and can create teamwork and team leadership in these projects. Can adopt and defend professional and scientific ethics in all their work.	PO-6 Can has a scientific and professional ethical understanding and can defend this understanding in any environment. PO-9 Can produce solutions to social, scientific, and ethical issues by combining their own knowledge and perspective with up-to-date information about their field. PO-10 Can propose solutions to the problems that arise in her field and in different disciplines, take initiative in decision-making processes, and lead research groups. PO-12 Can contribute to the scientific, technological, and social progress of society by following and transferring the developments in their field.	Presentation
PO: Programme Outcomes MME:Method of measurement & Evaluation

Course Contents
Within the scope of this course, experience is gained in the literature review and evaluation of resources, the preparation of a work plan and program, the procurement of necessary materials, the establishment of an experimental setup, and the use of necessary devices or computer programs. In addition, the evaluation and interpretation of the results obtained and making and defending the final report, thesis, or publication are also within the scope of the course.
Weekly Course Content
Week	Subject	Learning Activities and Teaching Methods
1	Literature review related to the study subject	Literature Search
2	Literature review related to the study subject	Literature Search
3	Systematic grouping and evaluation of collected resources	Self Study Method
4	Systematic grouping and evaluation of collected resources	Self Study Method
5	Preparation of work plan and experimental setups	Dual Study
6	Preparation of work plan and experimental setups	Dual Study
7	Experimental study and Presentation	Experimentation
8	mid-term exam
9	Experimental study and Presentation	Experimentation
10	Experimental study and Presentation	Experimentation
11	Analysis and interpretation of the obtained compounds	Team Work
12	Analysis and interpretation of the obtained compounds	Team Work
13	Experimental study and Presentation	Experimentation
14	Experimental study and Presentation	Experimentation
15	Analysis and interpretation of the obtained compounds	Team Work
16	final exam
Recommend Course Book / Supplementary Book/Reading
1	Konu ile ilgili kitaplar ve Süreli Yayınlar
Required Course instruments and materials
Chemical substances, various consumables necessary for setting up experimental setups and performing experiments, various devices, computer programs to be used in experiments and analysis, computer, projection for preparing and making presentations. Books and periodicals.

Assessment Methods
Type of Assessment	Week	Hours	Weight(%)
mid-term exam
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation	14	1	30
5.Report	7	1	40
6.Workshop
7.Performance Project
8.Term Paper	4	1	30
9.Project
final exam

Student Work Load
Type of Work	Weekly Hours	Number of Weeks	Work Load
Weekly Course Hours (Theoretical+Practice)	1	14	14
Outside Class
a) Reading	10	14	140
b) Search in internet/Library	11	14	154
c) Performance Project	10	14	140
d) Prepare a workshop/Presentation/Report	12	14	168
e) Term paper/Project	12	4	48
Oral Examination	2	14	28
Quiz			0
Laboratory exam	2	14	28
Own study for mid-term exam			0
mid-term exam			0
Own study for final exam			0
final exam			0
			0
			0
Total work load;			720