The project can cover the same topic as the 3rd semester project and should be approved by the Board of Studies.
• Knowledge of the subject-specific methods as well as tools
applied for the design, fabrication, characterization, and modeling
of the biological and organic nanostructures described in the
thesis
• Knowledge of the biological, physical, and (bio)chemical
principles behind the subject of the thesis
• Ability to approach, describe, and solve a specific problem
using the tools available
• Ability to explore and achieve sufficient understanding of the
state-of-the-art within the area of the thesis subject
• Ability to define the limits of the project
• Ability to demonstrate scientific and professional project work
• Ability to reflect over the obtained results
• Applying the knowledge and skills obtained during the master
program to solve the subject specific problem of the thesis with
the support of the supervisor
• Evaluate the approach, methods, and materials used for the
project to fulfill the goal of the project
• Be able to relate the problem to the relevant field/area and the
obtained results
• Be able to make and justify decisions on the relevant theories
and methods
Project work.
This is a 30 ECTS project module and the work load is expected
to be 900 hours for the student.
Name of exam | Master’s Thesis (30 ECTS) |
Type of exam | Oral exam based on a project |
ECTS | 30 |
Assessment | 7-point grading scale |
Type of grading | External examination |
Criteria of assessment | The criteria of assessment are stated in the Examination Policies and Procedures |
Danish title | Kandidatspeciale (30 ECTS) |
Module code | F-NB-K4-1 |
Module type | Project |
Duration | 1 semester |
Semester | Spring
|
ECTS | 30 |
Language of instruction | English |
Location of the lecture | Campus Aalborg |
Responsible for the module |
Study Board | Study Board of Mechanical Engineering and Physics |
Department | Department of Materials and Production |
Faculty | Faculty of Engineering and Science |