Study Plan
The Master in prepares students to qualify for Master in . The student studies several subjects which have been carefully chosen in this major to cover its different aspects.
It comprises 5 Semesters of study, in which the student will study a total of 31 units, which include 3 units of general subjects, and 13 major units
Study plan for this program is shown below:
1st Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| GE 609 | Numerical Methods in Engineering | 03 | General | + |
| NE612 | Advanced Reactor Theory | 03 | Compulsory | + |
Neutron transport equation and its solution by spherical harmonics and Fourier transforms and SN methods, Adjoint function, Numerical solution of multi-group equations The Monte Carlo Method, Computer codes for reactor calculations.
2nd Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| NE621 | Advanced Nuclear Reactor Thermal-hydraulics | 03 | Compulsory | + |
| NE651 | Nuclear Reactor Core Design and Analysis I | 03 | Compulsory | + |
3rd Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| NE652 | Nuclear Reactor Core Design And analysis II | 03 | Elective | + |
| NE671 | Nuclear Reactor Dynamics and Control | 03 | Compulsory | + |
4th Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| NE623 | Two Phase Flow | 03 | Elective | + |
| NE653 | Nuclear Fuel Management | 03 | Elective | + |
5th Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| NE698 | Graduate Seminar | 01 | Compulsory | + |
| NE699 | M. Sc. Thesis | 06 | Compulsory | + |