Name of qualification | Magister jedrske tehnike/magistrica jedrske tehnikeAdd to comparison [1] |
---|---|
Translated title (no legal status) | Master of Science in nuclear engineering |
Type of qualification | Diploma druge stopnje |
Category of qualification | Izobrazba |
Type of education | Master's education |
Duration |
2 years
|
Credits | 120 credits |
Admission requirements |
Admission requirements Enrolment in the second-cycle Nuclear Engineering programme is open to candidates who have completed:
Conditions for enrolment are also met by candidates who have completed education equivalent to the qualifications listed in point 1 to 4 at a foreign university, and who enrol under the same conditions as those that apply to candidates who have completed their education in Slovenia. |
ISCED field |
Tehnika, proizvodne tehnologije in gradbeništvo
|
ISCED subfield | |
Qualification level |
SQF 8 |
The qualification holder will be able to:
(general competences)
- demonstrate a capacity for abstraction and analysis of problems,
- collect, critically assess and synthesise data, measurements and solutions,
- identify the necessary data for the formulation of new knowledge,
- formulate new knowledge on the basis of existing theories or available data,
- apply knowledge in practice (particularly knowledge of modern technologies),
- demonstrate mastery of processes in nuclear engineering and energy systems,
- make interdisciplinary connections between scientific findings,
- undertake autonomous professional work and work in an (international) group,
- communicate and impart technical information to the general public.
(subject-specific competences)
- demonstrate in-depth knowledge of nuclear engineering and energy,
- make connections between the basic laws of nature and observable characteristics of the world,
- formulate problems mathematically,
- deduce the physical bases of practical problems,
- model problems in the field of nuclear engineering and energy,
- demonstrate advanced experimental skills,
- critically evaluate the results of measurements and apply these in the building or upgrading of models,
- demonstrate understanding of the principles of operation of technological devices on the basis of basic laws,
- present physical methods and results in a manner adapted to a target audience (in Slovene and a foreign language),
- use high-performance computer systems and communication technologies,
- plan, introduce and manage large energy systems,
- communicate with the general public about topics relating to nuclear technology and nuclear safety.
Students' knowledge is assessed by means of practical exercises and seminar papers, and also via products, projects, performances, services, etc. and by examinations. Examination performance is scored as follows: 10 (excellent); 9 (very good: above-average knowledge but with some mistakes); 8 (very good: solid results); 7 (good); 6 (adequate: knowledge satisfies minimum criteria); 5–1 (inadequate). In order to pass an examination, a candidate must achieve a grade between adequate (6) and excellent (10).
In order to enrol in the second year, students must have completed a compulsory subject and completed a total of at least 52 ECTS credits.
Third-cycle doctoral study programmes (SQF level 10)
In order to complete their studies, students must complete all course units, consisting of 60 ECTS credits per year (a total of 120 ECTS credits). Students complete the programme when they obtain a passing grade for their master's thesis defence