GAZI UNIVERSITY INFORMATION PACKAGE - 2018 ACADEMIC YEAR

COURSE DESCRIPTION
PHYSICAL PRINCIPLES AND APPLICATIONS OF THERMAL ANALYSIS METHODS/6201302
Course Title: PHYSICAL PRINCIPLES AND APPLICATIONS OF THERMAL ANALYSIS METHODS
Credits 3 ECTS 7.5
Semester 1 Compulsory/Elective Elective
COURSE INFO
 -- LANGUAGE OF INSTRUCTION
  Turkish
 -- NAME OF LECTURER(S)
  Assoc. Prof. Dr. Haluk KORALAY
 -- WEB SITE(S) OF LECTURER(S)
  http://websitem.gazi.edu.tr/site/koralay
 -- EMAIL(S) OF LECTURER(S)
  koralay@gazi.edu.tr
 -- LEARNING OUTCOMES OF THE COURSE UNIT
Materials obtained by thermal analysis of data can interpret.








 -- MODE OF DELIVERY
  The mode of delivery of this course is Face to face
 -- PREREQUISITES AND CO-REQUISITES
  There is no prerequisite or co-requisite for this course.
 -- RECOMMENDED OPTIONAL PROGRAMME COMPONENTS
  There is no recommended optional programme component for this course.
 --COURSE CONTENT
1. Week  Basic Principles of Thermal Analysis and Thermal Analysis Instruments
2. Week  Thermogravimetric analysis (TGA) technique
3. Week  Thermogravimetric analysis (TGA) technique
4. Week  Differential Thermogravimetry (DTG) technique
5. Week  Differential Thermogravimetry (DTG) technique
6. Week  Differential Thermal Analysis (DTA) technique
7. Week  Differential Thermal Analysis (DTA) technique
8. Week  Differential Scanning Calorimeter (DSC) technique
9. Week  Differential Scanning Calorimeter (DSC) technique
10. Week  Thermal Analysis Methods for Quantitative Analysis of the Metal and Alloys
11. Week  Thermal Analysis Methods for Quantitative Analysis of the Metal and Alloys
12. Week  Applications of Thermal Analysis Methods for Composite Materials
13. Week  Applications of Thermal Analysis Methods for Composite Materials
14. Week  To determine the phase transformation temperature superconducting materials and their transformation to calculate the activation energy
15. Week  To determine the phase transformation temperature superconducting materials and their transformation to calculate the activation energy
16. Week  
 -- RECOMMENDED OR REQUIRED READING
  Charsley, E. L., Thermal analysis :techniques and applications, Royal Society of chemistry Cambridge 1991. Brown, Michael E. Introduction to thermal analysis :techniques and applications Chapman and Hall London 1988. Sorai, Michio. Comprehensive handbook of calorimetry and thermal analysis J. Wiley Chichester, Wes 2004. Robert F., Thermal Analysis of Materials, Speyer, Marcel Dekker, Inc., 1993 TA Instruments DSC, DTA, TG user manuals
 -- PLANNED LEARNING ACTIVITIES AND TEACHING METHODS
  Lecture, Question & Answer
 -- WORK PLACEMENT(S)
  -
 -- ASSESSMENT METHODS AND CRITERIA
 
Quantity
Percentage
 Mid-terms
1
30
 Assignment
0
0
 Exercises
1
20
 Projects
0
0
 Practice
0
0
 Quiz
0
0
 Contribution of In-term Studies to Overall Grade  
50
 Contribution of Final Examination to Overall Grade  
50
 -- WORKLOAD
 Efficiency  Total Week Count  Weekly Duration (in hour)  Total Workload in Semester
 Theoretical Study Hours of Course Per Week
16
3
48
 Practising Hours of Course Per Week
0
 Reading
5
10
50
 Searching in Internet and Library
2
4
8
 Designing and Applying Materials
3
5
15
 Preparing Reports
2
5
10
 Preparing Presentation
2
4
8
 Presentation
2
2
4
 Mid-Term and Studying for Mid-Term
2
7
14
 Final and Studying for Final
3
7
21
 Other
0
 TOTAL WORKLOAD: 
178
 TOTAL WORKLOAD / 25: 
7.12
 ECTS: 
7.5
 -- COURSE'S CONTRIBUTION TO PROGRAM
NO
PROGRAM LEARNING OUTCOMES
1
2
3
4
5
1Develop, enhance and deepen and obtain creative original definitions by combining current knowledge of the field and critical thinking and researchX
2comprehend interdisciplinary interactions and relations relevant to physics; analyze, compose, synthesize and evaluate new and complex ideas and to obtain original results by using expertise knowledge of the field,X
3obtain new scientific knowledge and gain higher level of skills in field of searchX
4develop a new scientific method in the field or apply a known method to a different problemX
5research, understand, design, adopt and apply an original subjectX
6question, compose, synthesize and evaluate new and complex ideasX
7publishtheir original works in refereed journalsX
8develop original ideas and methods in the field and also in interdisciplinary fields by using higher level skills such as creative and critical thinking, problem solving and judgmentsX
9present their works and original ideas effectively in a scientific environmentX
10communicate anddiscuss in advance level of writing, oral and visual in at least one foreign languageX
11introduce technological developmentsin anacademic and professional manner and contribute to theprogress of it societyX