| Faculty | Faculty of Chemical Technology (FCH) | ||||
|---|---|---|---|---|---|
| Study programme | Engineering of Energetic Materials (P0531D130053) | ||||
| Branch of study / Specialization | Engineering of Energetic Materials (P0531D3019/99 - 2025) | ||||
| Level of acquired qualification | Doctoral | ||||
| Form of study | Part-time | ||||
| Standard length of study | 4 years | ||||
| Number of ECTS credits | Studies are not credit-based. | ||||
| Qualification awarded | Doctor (Ph.D.) (8) | ||||
| Access to further studies | The doctoral degree is the highest possible level of education in Czech education system. | ||||
| Type of completion | State Doctoral Examination and dissertation defense. | ||||
| Study and Examination Code | URL | ||||
| Faculty coordinator for international students |
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| Key learning outcomes | Graduates from the Engineering of Energetic Materials programme are highly qualified experts in the field of energy materials, with a wide range of knowledge, skills and competence in line with the graduate framework profile pursuant to Government Regulation No. 275/2016 Coll. on Fields of Education in Higher Education (Part 13, Chemistry). This offers a wide range of opportunities in both academia and industry. Graduates are familiar with the different types of energy materials, explosion theory and safety in the chemical industry, and relevant experimental and practical aspects. In this way, graduates are qualified for work in the area of preparation, technological production, and processing of energy materials, description of sensitive and explosive parameters of these materials, and description of explosive events and their effect on the environment. Graduates are also capable of inventing creative solutions to problems associated with the prevention of loss in industry and development of business security documentation in accordance with legislation applicable in the Czech Republic and the European Union. Graduates will have job opportunities in chemical and explosive research institutes, businesses focusing on explosives, chemicals and defence, Czech armed forces, police, government (mining authorities, etc.), special services of the Czech Republic and NATO authorities. | ||||
| Specific admission requirements | unspecified | ||||
| Specific provisions for recognition of prior learning | unspecified | ||||
| Qualification requirements and regulations | unspecified | ||||
| Profile of the programme | unspecified | ||||
| Persistence requirements | unspecified | ||||
| Occupational profiles of graduates with examples | unspecified | ||||
| Branch of study / Specialization guarantor | unspecified |
| Status | Recommended year of study | Recommended semester | Course code | Course title (* Final State Examination) | Language of instruction | Number of ECTS credits | Course availability |
|---|---|---|---|---|---|---|---|
| Compulsory | - | - | JC/CDACW | English for Scientists - B2+ | English | 0 | |
| Compulsory option | - | - | UENM/CD126 | Infrared and Raman Spectroscopy of Energetic Materials | Czech | 0 | |
| Compulsory option | - | - | UOCHT/CD166 | Advanced Chemistry of Heterocyclic Compounds | Czech | 0 | |
| Compulsory option | - | - | KOANCH/CD147 | Modern Trends in Inorganic Chemistry | Czech | 0 | |
| Compulsory option | - | - | UENM/CD172 | Advanced Pyrotechnic and Propellants | Czech | 0 | |
| Compulsory option | - | - | KOANCH/CD195 | Advances in Organometallic and Coordination Chemistry | Czech | 0 | |
| Compulsory option | - | - | UENM/CD178 | Advanced Safety Engineering | Czech | 0 | |
| Compulsory option | - | - | UENM/CD175 | Advanced Theory of Explosion I | Czech | 0 | |
| Compulsory option | - | - | UENM/CD176 | Advanced Theory of Explosion II | Czech | 0 | |
| Compulsory option | - | - | KFCH/CD183 | Advanced Calorimetric and Thermal Analysis Methods | Czech | 0 | |
| Compulsory option | - | - | UENM/CD174 | Advanced Technology of Energetic Materials | Czech | 0 | |
| Compulsory option | - | - | UOCHT/CD171 | Advanced Organic Synthesis | Czech | 0 |