糖果派对

Mastering the basics of physics

Are you interested in using physics to tackle global challenges? Do you want to explore physical phenomena and turn ideas into innovative technological solutions? If so, a degree in Physics and Technology Engineering might be the right choice for you.

This programme combines physics, mathematics, and engineering disciplines such as optics, quantum technology, micro- and nanotechnology, electronics, programming, and data analysis. It equips you to work with cutting-edge technology in fields like sensor technology, medical technology, materials technology, and aerospace engineering. You'll learn to analyse and solve technical problems using your knowledge of physical laws.

The degree is project- and problem-based from start to finish, meaning you will continuously apply your knowledge to practical purposes by solving specific, real-world tasks. Many projects are carried out in groups, helping you develop strong collaboration and communication skills.

Engineers with expertise in physics, technology, and interdisciplinary teamwork are in high demand to shape the technology of the future.

What will I learn?

With a bachelor's degree in Physics and Technology, you will combine engineering with knowledge of physics and technology, which will give you competencies that will enable you to solve technically complex development tasks and problems, apply physical laws and mathematical and numerical methods, select, and evaluate measurement techniques, apply programming techniques, collaborate on professional and interdisciplinary projects and much more.

In the programme, you will learn about, among other things, mechanics, thermodynamics, electromagnetism, optics, vibrations, quantum mechanics, nanophysics, differential equations, vector fields, statistics, numerical methods, programming, signal processing, sensors, and data analysis.

You will gain an insight into the latest technologies, which will give you the best conditions for working with development and research. You will, for example, work on projects within the development of sensors, development of new measuring principles for determining water or impurities in oil, design and optimisation of optical methods for quality sorting of potatoes or the production of nano-structured materials with completely new properties.

How is the programme structured?

The teaching consists of academically coherent semesters, where theory is translated into practice in semester projects. Approximately one third of each semester is spent on project work.
In your first year of the programme, you will gain basic knowledge of physics, mathematics, electronics, and programming.
In the second year of the programme, you will build on your basic knowledge from the first year of studying with courses in, for example digital electronics, optics, semiconductor optics, statistical physics, and applied quantum mechanics.
In the third year of the programme, you will work with mechanical vibrations and the math behind it as well as regulation technique, statistics and data analysis. In your final semester, you will carry out your bachelor project, based on all your knowledge from the previous semesters.

Master's Degree

The bachelor's programme lasts three years, after which you take the two-year master's programme to achieve a MSc in Engineering.
Read more about the master's programme in Physics and Technology.

What can I become?

This programme provides you with several career opportunities - both in Denmark and abroad. With a degree in Physics and Technology, you can, for example, work with development, technological aspects of business development, consulting and consulting, project management or research. You will be qualified for jobs in companies that, for example, work with nano-optics, aerospace technology, optical communication and optical systems, medical technology, sensor technology, measurement techniques and signal processing. You can also continue your studies with a 3-year research programme, which leads to a PhD degree.