What's best to study biotechnology or physics


The bio-engineer is the expert when it comes to the technical implementation of bio-processes in the laboratory. How do microorganisms behave and in what ways can I use them in a particularly beneficial way? That's a typical question for a graduate. In addition to a high level of technical know-how, resourcefulness is also required from them.

A very simple example of the application of a biotechnological process is the production of yoghurt or wine. With the help of lactic acid or alcoholic fermentation, a new food is produced. Bioengineering is a science that aims to technically implement findings from the life sciences.

This extensive know-how about cell cultures, enzymes and microorganisms and their mode of action makes a bio-engineer a specialist when it comes to the development of completely new products. In recent times, however, it is not only the food and food industries that have benefited from the discoveries of biochemistry and molecular biology.

An interdisciplinary training for a wide range of activities

Biotechnical knowledge is required in a wide variety of industries: in the chemical and pharmaceutical industry (medicines), in environmental technology (renewable energies) and in agriculture and forestry. Many areas of application for interdisciplinary training.

In addition to biology, important fundamentals for the work of a bioengineer are chemistry, math and physics. He finds the technical basics of his work in engineering (process engineering, mechanics, construction of systems and apparatus)

There are lectures on a wide variety of topics: At the University of Dortmund, for example, the necessary basics of mathematics, physics, inorganic, organic and bio-chemistry, mechanics, materials science, thermodynamics, fluid mechanics and microbiology are taught in the basic course. In the main course there are courses in bioengineering-specific subjects (technical chemistry, process engineering, bioreaction technology, bioprocess engineering, biophysics / molecular biology, apparatus for biotechnological processes and the option to choose between the specialization bioprocess engineering and biotechnology

Also in demand: ingenuity

So if you are interested in a degree that has a lot to do with technology and science and yet requires ingenuity and a certain amount of creativity to find new solutions, this is the right place for you. The study of bioengineering combines two so-called key technologies of the 21st century: biotechnology and bioprocess engineering. Graduates in these future-oriented areas are predicted to have good career prospects.

Where can you study bioengineering? >