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Master Thesis Engineering Physics and Electrical Engineering - Computational Methods and Physics 30 credits

Examensarbete Teknisk fysik och elektroteknik, inriktning Beräkningsteknik och Fysik, civilingenjör
Second cycle, E7019T
Course syllabus valid: Autumn 2021 Sp 1 - Present
The version indicates the term and period for which this course syllabus is valid. The most recent version of the course syllabus is shown first.

Education level
Second cycle
Grade scale
U G#
Subject group (SCB)

Entry requirements

At least 240 credits completed courses as required for the degree. A maximum of two 7.5 credits courses (or one 15 credits course) may be unfinished from base and core courses. Of the completed courses at least 30 credits shall be of advanced level. In addition to the above, the examiner decides whether the proposed degree project is within the subject area and student has the depth of knowledge required.

More information about English language requirements


The selection is based on 20-285 credits

Course Aim
The overall goal of the course is that the student practices, develops and is able to apply theory and methods to solve unstructured problems relevant to a profession as Master Programme in Engineering Physics and Electrical Engineering within the field Engineering Physics.

This means that on completion of the course the student is able to:
–    Formulate a relevant problem for investigation from a chosen subject within the subject area xxxxx.  
–    Apply knowledge and proficiency that has been acquired during the period of study to a complex development project or a smaller research project in an independent and systematic manner.  
–    Choose and justify the study method for an investigation.
–    Analyse and defend the problem formulated in a correct manner with respect to science and engineering, without complete information.
–    Locate and critically review information and summarise this in a scientific manner.
–    Plan, structure and execute a project within research, development or investigation.
–    Judge the scientific and practical relevance of the results obtained.
–    Work to a timetable.
–    Express themselves well in writing in a verbally and scientifically correct manner.
–    Create and execute a presentation of the results of the project, defending the conclusions.
–    Critically review the work of others in a constructive and scientific manner.

The content of the degree project is designed in collaboration with the supervisor.  The degree project always contains a theoretical foundation in the form of a literature survey that highlights the area of technology and the methodology, summarised in a scientific manner.

Each course occasion´s language and form is stated and appear on the course page on Luleå University of Technology's website.
The student independently plans and executes the degree project; the supervisor is available for assistance. A timetable for the entire project is included in the degree project, which is continuously reviewed.

If there is a decision on special educational support, in accordance with the Guideline Student's rights and obligations at Luleå University of Technology, an adapted or alternative form of examination can be provided.
–    Written presentation of individual work.  
In the report the student shows the ability to:
o    Justify the chosen problem of study
o    Select and justify the study methods
o    Collect information relevant to the problem formulation with an explicit connection to the chosen theory/method
o    Present in writing the information collected in a relevant manner
o    Analyse and defend the formulated problem from the chosen theory and methods
o    Critically review the relevance of the results obtained from a scientific and engineering point of view
o    Express themselves in writing in a correct linguistic and scientific manner.
–    Oral presentation of own work
–    Public discussion of the work of others
–    Attendance at presentations of the degree project work of others.

The department provides active supervision for a period of two terms from the start of the project.
The degree project is performed individually; only in exceptional cases may at most two students carry out the degree project together.
In cases in which the degree project is carried out by two students, this shall be clearly visible in the scope and depth of the report.

Cannot be included in the degree together with E7016T Degree project in Master Programme in Engineering Physics and Electrical Engineering with spec. in Engineering Physics.

Transition terms
The course is equal to E7016T and E7002T

Individual examiner appointed

Transition terms
The course E7019T is equal to E7016T

Literature. Valid from Autumn 2018 Sp 1 (May change until 10 weeks before course start)
Instruction document

Course offered by
Department of Engineering Sciences and Mathematics

CodeDescriptionGrade scaleCrStatusFrom periodTitle
0001Start of degree projectU G#0.00MandatoryS19
0002Public discussion of others' degree projectU G#0.00MandatoryS19
0003Oral presentationU G#0.00MandatoryS19
0004Accepted reportU G#30.00MandatoryS19

Guidelines for degree project » 
Syllabus established
by Mats Näsström 15 Feb 2018

Last revised
by Head Faculty Programme Director Niklas Lehto 17 Feb 2021