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The European Qualifications Framework (EQF) is a translation tool that helps communication and comparison between qualifications systems in Europe. Its eight common European reference levels are described in terms of learning outcomes: knowledge, skills and competences. This allows any national qualifications systems, national qualifications frameworks (NQFs) and qualifications in Europe to relate to the EQF levels. Learners, graduates, providers and employers can use these levels to understand and compare qualifications awarded in different countries and by different education and training systems.

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Qualifications that are part of national qualifications framework are listed on this page. You can scroll down to find all information. Filter by Subject Field, EQF level and Location and you will find more detailed information on qualifications, and a link to the national database. The qualifications are part of national qualifications frameworks that have formally referenced to the EQF

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Search found 16 items
  1. Master's degree in medical physics (no legal status)

    Students will be able to: demonstrate coherent mastery of basic knowledge in the field of medical physics, integrate this knowledge with other broad fields important for the diagnosis and treatment of diseases, such as anatomy, physiology, radiobiology, etc., address specific work-related problems such as planning radiotherapy, calibration of measuring instruments, quality assurance with regard to the functioning of medical devices, demonstrate understanding of the general structure of medical physics and connections with its subdisciplines, in particular radiotherapy physics, diagnostic radiology physics, nuclear medicine physics and healthcare physics, demonstrate familiarity with the information and communication technologies and systems used in medical diagnostics and treatment. ...

    Category: Qualifications Location: Slovenia
  2. Academic bachelor's degree in physics for education and … (no legal status)

    Students will be able to: (general competences) think analytically and demonstrate understanding of complex systems that enable participation in various interdisciplinary teams, communicate, cooperate and work as part of a team, demonstrate familiarity with basic subject-specific, general pedagogical and ICT fields and apply knowledge to other professional and educational fields, critically assess developments in subject-specific professional and educational fields, resolve technical and work-related problems by searching for sources of knowledge and using technical/applied and scientific methods, demonstrate computer and information literacy, demonstrate proficient laboratory skills, use and develop systems of traditional educational technology, presentation technology, media technology and ICT in subject-specific professional and educational fields, demonstrate autonomy in professional work, demonstrate understanding of individual values and value systems and master questions of professional ethics, demonstrate knowledge and understanding of the institutional frameworks of work (legislation, documentation, legal aspects of subject-specific and educational work, etc.), (subject-specific competences) think scientifically and demonstrate knowledge of the fundamental facts and laws of nature, demonstrate familiarity with and understanding of fundamental physical concepts and apply them in the interpretation of natural phenomena and events in the environment, demonstrate knowledge of the connections of physical sy ...

    Category: Qualifications Location: Slovenia
  3. Master's degree in physics (no legal status)

    Students 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), 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 understanding of the physical laws of nature, make connections between the basic laws of nature and observable characteristics of the world, pose physical problems in a creative manner and analyse them, formulate physical problems mathematically, deduce the physical bases of practical problems, model problems, demonstrate mastery of advanced experimental skills in physics, 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), impart knowledge about physics. ...

    Category: Qualifications Location: Slovenia
  4. Master's degree in physics (no legal status)

    Students will be able to: (general competences) work autonomously on a project, demonstrate familiarity with the properties of various materials, demonstrate familiarity with work in research teams, (subject-specific competences) demonstrate mastery of the theoretical bases of solid-state physics, demonstrate mastery of the theoretical bases of high-energy physics, work in vacuum laboratories, demonstrate familiarity with the functioning of colliders, demonstrate familiarity with network cosmic ray detectors, demonstrate mastery of processes on surfaces. ...

    Category: Qualifications Location: Slovenia
  5. Master's degree in physics (no legal status)

    Students will be able to: (general competences) think systemically, which enables them to take part in and lead interdisciplinary groups for dealing with complex systems in various fields of the natural sciences, banking, insurance and the addressing of environmental problems, analyse complex systems, which is the basis for understanding the functioning of systems in nature, the environment and society, give a qualitative and quantitative description of the structure and dynamics of a complex system in order to predict its further development, which enables prediction of the consequences of various impacts on the system and thus the addressing of real problems in nature, the environment and society, demonstrate familiarity with the structure and functioning of physical systems and apply knowledge to other fields, apply knowledge in practice, resolve technical and work-related problems by searching for sources of knowledge and applying scientific methods, demonstrate familiarity with experimental and other methods for testing scientific theories, show critical judgement, responsibility, initiative and autonomy in decision-making and in managing more complex work, demonstrate cooperativeness and work in a group (including in an international environment), (subject-specific competences) demonstrate in-depth knowledge and understanding of physical systems, demonstrate familiarity with and understanding of fundamental physical concepts and apply them in the interpretation of natural phenomena and events in the envir ...

    Category: Qualifications Location: Slovenia
  6. Professional Master Degree in Medical Physics (RTU)

    Graduates of the study program are able: - to obtain knowledge and skills that conform to standards of the seventh level professional qualification “Engineer of physical technologies in medicine” and master degree in medical physics.   The student will be competitive in the changeable social and economic conditions and competitive in international labour market.   The program will provide alumni with the knowledge specific to the sphere of medical engineering and physics that provides possibility to produce original and improve existent systems, products and technologies and create scientific and educational work in the field of medical engineering and physics.   The program consists of the series of lectures, practical and laboratory studies, and practice. While elaborating master thesis students master theoretical, technical, economical, humanitarian and social subjects that correspond to the field of the medical engineering and physics.   During their studies students develop:   1. theoretical knowledge in structure, physical and technical operation of medical equipment, machines and instruments, their manufacturing technology, utilization conditions and safety;   2. practical skills for work in medical institutions and companies – acquisition, installation, utilizing, regulation and quality control of medical engineering equipment;   3. ability to use theoretical knowledge and skills in practical work, development of technologies in medical engineering and physics;   4. knowledge to perform publ ...

    Awarding body- Riga Technical University

    Category: Qualifications Location: Latvia
  7. Master of Natural Sciences in Physics (LU)

    - to master methods of experimental research, theoretical research and basics of computer modelling of physical processes in the selected study field: physics of the hard matter and science of materials, laser physics, technology and spectroscopy, mechanics of the hard matter, theoretical physics, chemical physics, continuous environment physics, physical oceanography and coastal research, biomedical optics, astronomy and astrophysics, didactics of physics; - to develop the Master's thesis (20 credit points) - an independent research in the selected study field. The goal of the Physics Master’s study programme is to provide the students with the knowledge about the following aspects: - physics as a science direction (also about a particular physics’ sub-sector related to the chosen more narrow specialisation provided for by optional courses): - content, methodology, development directions and facilities for application. The optional (specialisation) courses ensure specialised theoretical and empirical knowledge in the corresponding sub-sector of physics. The level of students’ knowledge is raised gradually by mastering the study courses according to a particular sequence. The Physics Master’s study programme encompasses mastering both general and specialised themes of modern physics, developing the research, experimental, modelling as well as other general skills and proficiencies. The tasks are formulated according to the goal and requirements of the Master’s programme: - to provide the students with ...

    Awarding body- University of Latvia

    Category: Qualifications Location: Latvia
  8. Master of Natural Sciences in Physics (DU)

    The aim of the programme is to provide deeper knowledge and skills in theoretical physics, solid state physics, optics, experimental physics and in other study programme courses in respective sub-branch, providing students with opportunity to prepare for further education in doctoral study programmes and for labour market. The following skills have been acquired and developed within the programme: - ability to orientate oneself in the modern physics and technical achievements; - to perform independent scientific research activity in the chosen physics sub-branch, making of physical measurements and data processing, required for independent scientific research work, performance of creative and innovative activity. ...

    Awarding body- University of Daugavpils

    Category: Qualifications Location: Latvia
  9. Master's Degree in "Plasma Physics and Applications" with three directions (1) Inertial Fusion, (2) Laser Physics, (3) Plasma Science". Department of Electronic Engineering. School of Applied Sciences. Technological Educational Institute of Crete

    Knowledge: The Postgraduate Studies Programme "Plasma Physics and Applications" is an international Postgraduate Studies Programme developed and certified with financing by Erasmus Life Long Programme (LLP)-Curriculum Development (Project Number: 510587-LLP-1-2010-1-GR-ERASMUS-ECDSP). It offers students specialised knowledge on physics and on the technology of laser-generated plasma. These knowledge refer to the cognitive (experimental and theoretical) fields of plasma physics, laser physics, laser pulse interactions with materials, optoelectronic technology, and clean energy production from laser-fused hydrogen. Skills: Ability to produce new knowledge and apply it through logical, combinational interdisciplinary thinking. Ability for the experimental and theoretical production of knowledge and results, using the laws of physics, mathematics, electronics, and computer simulations. Competences: Upon graduating, the graduate shall be able to use this specialised knowledge and apply methodological thinking in order to produce new knowledge, core and/or applied in the field of the Postgraduate Programme, i.e. the experimental and theoretical plasma physics, laser physics, laser pulse interaction with materials, optoelectronic technology, and clean energy production from laser-fused hydrogen. The graduate shall be able to successfully and professionally tackle either the academic field (high level research) or private bodies / companies dealing with high technology, production, and innovation, in the field of th ...

    Awarding bodyTechnological Educational Institute of Crete

    Category: Qualifications Location: Greece
  10. mesterszintű operációkutatási szakember

    A képzés célja olyan szakemberek képzése, akik saját szakterületükön (közgazdaságtan, műszaki tudományok, informatika stb.) magas szinten képesek széleskörű operációkutatási feladatok megoldására. A széleskörűség két értelemben is megvalósul: egyrészt a képzés az operációkutatás mindhárom fő területére hangsúlyt fektet (folytonos, diszkrét és sztochasztikus optimalizálás). Másrészt cél, hogy a végzettek először is felismerjék azokat a gyakorlatban előforduló helyzeteket, amikor érdemes optimalizálási módszereket alkalmazni. Képesek legyenek felírni a gyakorlati probléma operációkutatási modelljét és ismerjék azok megoldási módszereit, végül a megoldási módszerek számítógépes implementációjában is jártasak legyenek.        A képzés során megszerezhető tudáselemek, ismeretek:  A cél olyan szakemberek képzése, akik magas színvonalú operációkutatási feladatok megoldására és kutatás-fejlesztési munka elvégzésére alkalmasak. A szükséges tudáselemek, ismeretek a következők:   * matematikai alapismeretek (operációkutatás matematikai alapjai, valószínűségszámítás és matematikai statisztika),   * optimalizálás (lineáris programozás, nemlineáris programozás, kombinatorikus optimalizálás, globális optimalizálás, sztochasztikus programozás),   * alkalmazási lehetőségek (játékelmélet, ökonometria, irányítási rendszerek),   * programozási ismeretek (programozási ismeretek, operációkutatási programrendszerek).      Személyes adottságok, készségek:   * modellezési készség,   * problémamegoldó készség,   * ügyfelekkel való tárg ...

    Awarding bodyBudapesti Műszaki és Gazdaságtudományi Egyetem

    Category: Qualifications Location: Hungary