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| Information |
| Theoretical |
 Lists and describes the functions of health organizations, explains how national and international health organizations are organized, and explains how to manage clinics.
owns some of the features of the human biological sciences (anatomy, physiology, pathology, cellular and biomolecular structure, radiologic anatomy, and so on.) related to Medical Physics applications
explains and discusses the ethical and legal issues in the field of health care profession (eg, research ethics, data protection, privacy, reputation, ethics management).
explains the neccessary technical substructure for the qualified service in the future of Medical Physics.
explains the national legislative frameworks, regulations, guidelines and codes of practice of the European Community on the subject of medical Phyics
In order to explain the structure, function, the characteristics and the limitations, he/she uses the physical concepts, principles and theories in a detailed and quantitative way by covering the areas of medical physics. Also explains the use of medical devices in the field of medical physics.
describes the properties of ionizing radiation (electromagnetic, electrons, ions, neutrons), and other physical agents (electrical energy, static electricity / magnetic fields, non-ionizing electromagnetic radiation, vibration, sound and ultrasound, laser) in a detailed and quantitive way.
describes the useful and reverse effects of onizing radiation and different physical agents that have a link with medical devices by means of biological models in a numerical way and explains the factors affecting the magnitude of the biological effect. Explains the ways of manipulation to improve clinical outcomes.
explains deterministic / stochastic, early / late, teratogenic / genetic effects related to each physical agent
In order to review something in a systematic manner in the field of Medical Physics, he/she makes up a list of related literature in the fields of the General Physics, Medical Physics and Health physics.
uses the general concepts, principles and theories of physics to sort out clinical problems of safety / risk management related to the clinical use of medical devices, and on ionization radiation.
uses the general concepts,principles and theories of physics to transfer new devices and related techniques to the clinical environment.
designs digital clinical and biomedical studies based on meticulous and rigorous statistical base.
Uses statistical packages for the analysis of clinical and biomedical data.
tells the use of dosimetries used in medical physics based on physical concepts, principles and theories.
identifies the dosimetric quantities of patients in each clinical process, and describes the methods for the measurement of these features.
describes and explains different dosimetric quantities that are used and explains the relationship between dosimetric quantities (energy flux, kerma, absorbed dose).
explains the principles of biological monitoring and dosimetry.
Understands the nature of the anatomical medical images.
During the administration of ionizing radiation to the patient, he/she determines the method and designs different applications to improve this method.
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| Applied |
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| Skills |
| Conceptual/Cognitive |
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| Applied |
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| Personal and Professional Qualifications |
| Competence to Work Independently and Take Responsibility |
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| Learning Competency |
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| Communication and Social Competence |
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| Field-Specific and Professional Competence |
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