Design sustainable real-life projects together with local stakeholders or explore creative design processes in an urban setting in one of our prominent Architecture programmes.
Contribute to a future where functions for sensing, monitoring and control integrate with a range of mechatronic and robotic products, systems and services.
Bioscience and chemical engineering have never been as exciting as they are today. Much of the development in emerging fields within life science and material science is based on these disciplines and in particular the key to a sustainable society. International companies need well-trained chemists as well as chemical and biological engineers. Fields such as pharmaceuticals, new sustainable products and processes, catalysis and pulp and paper are focus areas for Chalmers' education and research.
The construction sector is one of the largest in the Swedish economy and plays a highly visible role in all aspects of society, including the day-to-day existence of individuals and businesses. At Chalmers we cover the whole area, from planning to implementation, while paying careful attention to environmental issues, societal questions, energy use and financial concerns.
Amazingly rapid development has placed computers and transmission of information in the centre of almost every area of science, engineering and society. In this field you will learn how to process, store and analyse the information in a fast and secure way. Research at the department is at the forefront internationally in several areas.
Electronics and electro-mechanical based devices can change the way in which electric energy is produced, transported and used in order to move towards a more sustainable future. In this field you can improve healthcare delivery or design sustainable electric power systems You can also be a part of building the communication systems of tomorrow by developing the internet of things, 5G, space technology and satellites.
Chalmers occupies a prominent international position in research and education in engineering for sustainable development. This means playing a key role in finding solutions to some of today's urgent and complex global environmental and resource problems. Within all programmes, sustainable development is an urgent issue and in these programmes it's the main profile.
Chalmers relies on a solid scientific base in natural sciences and mathematics. From this base we are able to conduct applied research and to educate across a wide spectrum of Engineering Sciences. Physics and Mathematics are therefore at the very heart of Chalmers. Through investigations of the history of the universe and the Earth's changing environment, we search for a greater understanding of the origin of stars and galaxies, the future of the Earth and the prerequisites for life on other planets.
Investment in research and development alone is not sufficient to ensure long-term development and growth. Promising new knowledge needs to be transformed into economic value through new growth companies or through the licensing and transfer of technology to established companies. Logistics is the science of planning, organising and controlling the material flow from raw material to end-consumption and phase-out. Quality management must strive continuously to meet or exceed the expectations of customers in all processes.
An explosion of artificial intelligence (AI) technology is now sweeping over the world and will have huge impacts on our society. The new technologies also bring new challenges. There will be a constant need for improved algorithms and new applications. In this field you will develop artificial intelligence, create the latest interactive technology or deliver high-quality software.
With 70 per cent of Scandinavia's total industrial capacity located within a 500-kilometre radius of Gothenburg, it is natural for Chalmers to be at the forefront in product design, product development, and production systems development. Research at Chalmers focuses largely on shortening the lead time from needs to finished products while at the same time achieving added value for the customer. The requirements for products and the elements from which they are composed are increasing all the time. One example is the need to reduce exhaust emissions from internal combustion engines or the need for vehicles to be lighter, emit less noise, and be safer for both passengers and the environment.
Train to become a competent leader, both onboard ships and in onshore organisations in a field that will prepare you to guide your shipping industry into a new era.
Lärande och ledarskap (Learning and Leadership) is a unique Master's programme that combines your knowledge in mathematics, natural sciences and technology with skills in communication and collaboration.
Published: Tue 20 Oct 2020.
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