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.
For more information on NQF's and their relation to the EQF click on the buttons below:
Legal documents, Studies, Documents agreed by the EQF Advisory Group and
European Qualifications Framework Series
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
The graduates:Knowledge: - Have very specialized knowledge on the following sectors: Teaching and learning mathematics, Using technology for teaching mathematics, Research Methodology in Mathematical Teaching, History and Epistemology of Mathematics and Mathematical Teaching of Mathematics. - Are critically aware of the issues of knowledge for mathematics, of teaching and learning them, and of the interconnection between the teaching and learning of mathematics with the fields of Mathematics, Psychology, History, and Epistemology of Mathematics and Technology. - Have heightened critical awareness of the evolutionary dynamics and of the latest issues of Teaching and Learning Mathematics. Skills:- Hold specialized skills for resolving problems, which are required for the research and/or innovation of Mathematics Didactics, with the purpose of developing new knowledge and procedures, and integrating knowledge from different fields of Mathematics, Psychology, History, Epistemology, and Technology. - Apply with originality the acquired knowledge in the research of Mathematics Didactics, the analysis and development of innovative solutions to complex, interdisciplinary and innovative issues regarding the teaching and learning of Mathematics. - Are capable of evaluating, interpreting, and advancing modern scientific research and studies in the field of Mathematics Didactics. - Articulate inductively in a scientifically documented way, solutions to complex and new issues and make valid judgements taking into account ...
Awarding bodyUniversity of Western Macedonia
- Have knowledge of the cognitive fields of Statistics, Actuarial Science, and Financial Mathematics. - Know how to use composite mathematical methods in order to resolve statistical, actuarial and financial mathematical problems. - Acquire a noteworthy mathematical background, along with the acquisition of sufficient knowledge about Information Technology, Accounting, and Economics. - Combine the advanced competences of a positive science and business executive. - Are capable of acquiring professional experience (through Practical Training) in Public Agencies and Insurance or Financial Businesses and Organisations. - Know and assess business risks. - Know and decide about the pricing of goods and services. - Know and prepare insurance, financing, or pension plans and investment programmes. - Know how to study the method of allocating limited resources in time. - Know how to prepare (plan and implement) statistical studies and research in every market field. ...
Awarding bodyUniversity of the Aegean