A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.
A Master in Electrical Engineering is a degree with the purpose of providing students a thorough education in mathematics, physics and engineering techniques. Graduates will be able to provide solutions to current real-world problems that are related to engineering.
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Top Master Programs in Electrical Engineering in South Africa 2018
A qualifying student will be able to conduct independent research, with minimum guidance, in a chosen field of Electrical Engineering, and contribute to knowledge production in that field. [+]
A qualifying student will be able to conduct independent research, with minimum guidance, in a chosen field of Electrical Engineering, and contribute to knowledge production in that field.Qualification outcomes Demonstrate knowledge and understanding of the field/area of investigation. Apply research methods and techniques appropriately and correctly. Admission requirements and selection criteria
A Baccalaureus Technologiae: Engineering: Electrical, or an equivalent qualification of an equivalent standard.Conferment of the degree
The MTech: Engineering: Electrical will be conferred on students who have completed the dissertation successfully.[-]
The purpose of the qualification is to develop an engineer with advanced abilities in applying fundamental engineering sciences and/design and synthesis, and related principles to specific problems of society at large. [+]
The purpose of the qualification is to develop an engineer with advanced abilities in applying fundamental engineering sciences and/design and synthesis, and related principles to specific problems of society at large. One of the main objectives of this process is to develop an advanced capability to conduct fundamental engineering research independently. It also promotes a lifelong learning approach.Qualification outcomes
Exit level outcomes:
The qualified student will be able to:Identify, assess, formulate, interpret, analyse and solve engineering research/development problems creatively and innovatively by applying relevant fundamental knowledge of i.e. Mathematics, Basic Science and Engineering Sciences in the chosen field of research. Plan and manage engineering research projects, demonstrating fundamental knowledge, understanding and insight into the principles, methodologies and concepts that constitute socially responsible (to local and other communities) research/development in the chosen field of research practice. Work effectively, individually or with others, as a member of a team, group, organisation and the community or in multi-disciplinary environments in the chosen field of research. Organise and manage him/herself and his/her activities responsibly, effectively, professionally and ethically, accept responsibility within his/her limits of competence, and exercise judgement based on knowledge and expertise, pertaining to the field of research. Plan and conduct applicable levels of investigation, research and/or experiments by applying appropriate theories and methodologies, and perform appropriate data analysis and interpretation. Communicate effectively, both orally and in writing, with engineering and specifically research audiences and the community at large, in so far as they... [-]