ECTS - Nuclear Reactor Materials
Nuclear Reactor Materials (MATE576) Course Detail
Course Name | Course Code | Season | Lecture Hours | Application Hours | Lab Hours | Credit | ECTS |
---|---|---|---|---|---|---|---|
Nuclear Reactor Materials | MATE576 | Area Elective | 3 | 0 | 0 | 3 | 5 |
Pre-requisite Course(s) |
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N/A |
Course Language | English |
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Course Type | Elective Courses |
Course Level | Natural & Applied Sciences Master's Degree |
Mode of Delivery | |
Learning and Teaching Strategies | . |
Course Lecturer(s) |
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Course Objectives | |
Course Learning Outcomes |
The students who succeeded in this course; |
Course Content | Review of crystal structures, point defects and dislocations. Diffusion of point defects in solids. Thermal diffusion in uranium dioxide. Stress and Strain Energies near Dislocation Cores from Elastic Continuum Predictions. Radiation Damage in Solids, Kinematics of Elastic Collisions, Energy Dependent Hard Sphere Ion-Ion Scattering Approximation, |
Weekly Subjects and Releated Preparation Studies
Week | Subjects | Preparation |
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Sources
Evaluation System
Requirements | Number | Percentage of Grade |
---|---|---|
Attendance/Participation | - | - |
Laboratory | - | - |
Application | - | - |
Field Work | - | - |
Special Course Internship | - | - |
Quizzes/Studio Critics | - | - |
Homework Assignments | - | - |
Presentation | - | - |
Project | - | - |
Report | - | - |
Seminar | - | - |
Midterms Exams/Midterms Jury | - | - |
Final Exam/Final Jury | - | - |
Toplam | 0 | 0 |
Percentage of Semester Work | |
---|---|
Percentage of Final Work | 100 |
Total | 100 |
Course Category
Core Courses | X |
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Major Area Courses | |
Supportive Courses | |
Media and Managment Skills Courses | |
Transferable Skill Courses |
The Relation Between Course Learning Competencies and Program Qualifications
# | Program Qualifications / Competencies | Level of Contribution | ||||
---|---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | ||
1 | An ability to apply knowledge of mathematics, science, and engineering. | |||||
2 | An ability to design and conduct experiments, as well as to analyze and interpret data. | |||||
3 | An ability to design a system, component, or process to meet desired needs. | |||||
4 | An ability to function on multi-disciplinary teams. | |||||
5 | An ability to identify, formulate and solve engineering problems. | |||||
6 | An understanding of professional and ethical responsibility. | |||||
7 | An ability to communicate effectively. | |||||
8 | An understanding the impact of engineering solutions in a global and societal context and recognition of the responsibilities for social problems. | |||||
9 | Recognition of the need for, and an ability to engage in life-long learning. | |||||
10 | Knowledge of contemporary engineering issues. | |||||
11 | An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice. | |||||
12 | Skills in project management and recognition of international standards and methodologies | |||||
13 | An ability to make methodological scientific research. | |||||
14 | An ability to produce, report and present an original or known scientific body of knowledge. | |||||
15 | An ability to defend an originally produced idea. |
ECTS/Workload Table
Activities | Number | Duration (Hours) | Total Workload |
---|---|---|---|
Course Hours (Including Exam Week: 16 x Total Hours) | |||
Laboratory | |||
Application | |||
Special Course Internship | |||
Field Work | |||
Study Hours Out of Class | |||
Presentation/Seminar Prepration | |||
Project | |||
Report | |||
Homework Assignments | |||
Quizzes/Studio Critics | |||
Prepration of Midterm Exams/Midterm Jury | |||
Prepration of Final Exams/Final Jury | |||
Total Workload | 0 |