Technology
Technology is a major and wide-ranging subject. Technology holds new and old, popular and less popular subtopics such as electronics, biotechnology, micromechanics, environmental engineering, structural engineering, mechanical engineering, materials engineering with more. Technology is dynamic and interdisciplinary, and new applications are constantly developed in a never-ending cycle.
To understand technology topics, you must have prior knowledge of mathematics, physics and/or chemistry. In order to master new technology subjects often requires a solid background in related disciplines as well as state-of-the-art developments. Development and application go hand in hand in the art. It was not so long ago technology was restricted to applications in chemistry, mechanics and electromagnetism. But the emergence of modern physics, electronics, computer technology and the revolutionary discoveries in biology have changed our view of what can be called technology. Today, technology represents virtually all sciences that come into practical use.
In Uppsala, you can get education and training in most areas of technology. The opportunities for in-depth education or research are particularly important in materials science, computer science, electronics, engineering physics, electrical engineering, chemical engineering, biotechnology, energy technology, environmental technology and industrial management.
Courses
Bachelor's level, basic courses
Batteries for Electromobility, 7.5 credits
Computer Programming I, 5 credits
Design of an Electric Vehicle, 10 credits
Human-Computer Interaction, 5 credits
Information Technology: Possibilities and Challenges, 10 credits
Introduction to Electric Vehicles, 5 credits
Mathematics I, 30 credits
Principles and Operation of Electric Vehicles, 30 credits
The Electric Power System and the Electromechanical Propulsion System in Electric Vehicles, 7.5 credits
Bachelor's level, continuing courses
Algorithms and Data Structures I, 5 credits
Applied Plasma, 7.5 credits
Automatic Control I, 5 credits
Compiler Design I, 5 credits
Computer Architecture I, 5 credits
Computer Networks I, 5 credits
Computer Programming II, 5 credits
Database Design I, 5 credits
Digital Water for Sustainable Cities, 5 credits
Electric Circuit Analysis, 5 credits
Electromagnetism I, 5 credits
Energy Conversion Systems, 3 credits
Energy Physics I, 5 credits
Environmental Techniques, 5 credits
Filtration in Biopharmaceutical Industry I, 3 credits
Filtration in Biopharmaceutical Industry II, 3 credits
Fluid Mechanics, 5 credits
Fluid Mechanics for Energy-Related Applications, 10 credits
Internet of Things, 5 credits
Introduction to Nuclear Engineering, 5 credits
Introduction to Scientific Computing, 5 credits
Leadership - Quality Management - Improvement B, 30 credits
Measuring Techniques, 5 credits
Mechanics, 5 credits
Mechanics Basic Course, 10 credits
Mechanics II, 5 credits
Mechanics III, 5 credits
Medical Physics and Engineering, 5 credits
Meteorology, Hydrology and Environmental Measurement Techniques, 15 credits
Nuclear Thermal Hydraulics and Steam Turbine Technology, 5 credits
Pharmacokinetics, 7.5 credits
Scientific Computing for Data Analysis, 5 credits
Sustainable Energy Conversion Systems, 3 credits
Master's level courses
Accelerating Systems with Programmable Logic Components, 10 credits
Accelerators and Detectors, 5 credits
Advanced Battery Materials, 5 credits
Advanced Computer Architecture, 10 credits
Advanced Interaction Design, 5 credits
Advanced Numerical Methods, 10 credits
Advanced Software Design, 5 credits
Air Quality and Applied Meteorology, 15 credits
Antenna Engineering, 5 credits
Applied Deep Learning in Physics and Engineering, 5 credits
Applied Finite Element Methods, 5 credits
Applied Reactor Physics, 5 credits
Artificial Intelligence, 5 credits
Automatic Control II, 5 credits
Bioinformatic Analyses I, 5 credits
Biomaterials I, 5 credits
Biomaterials II, 5 credits
Biomedical Imaging Techniques, 5 credits
Building Renovation for Energy Efficiency, 7.5 credits
Chemical Energy Storage, 5 credits
Cleaning up Energy Production, 7.5 credits
Clinical Applications of Nanotechnology, 2 credits
Combinatorial Optimisation and Constraint Programming, 10 credits
Complex IT Systems in Large Organisations, 5 credits
Computational Reactor Physics with Python, 5 credits
Computer Networks II, 10 credits
Computer-Assisted Image Analysis I, 5 credits
Data Mining I, 5 credits
Data Mining II, 5 credits
Data Security and Privacy, 5 credits
Database Design II, 5 credits
Decarbonisation and Sustainable Energy Transitions, 5 credits
District Heating Systems, 5 credits
Electrical Energy Systems, 10 credits
Electromagnetic Field Theory, 5 credits
Electronic and Atomistic Simulation Methods for Materials, 5 credits
Energy Security in Local and Global Energy Systems, 5 credits
Functional Genomics, 15 credits
Future Nuclear Energy Systems - Analyses and Simulations, 5 credits
Global Software Product Development, 10 credits
High Performance Programming, 10 credits
Human-Robot Interaction, 5 credits
Human-Robot Interaction with Research Project, 10 credits
Information Technology and Energy Storage, 5 credits
Intelligent Interactive Systems, 5 credits
Introduction to Building Information Modelling (BIM), 4 credits
Introduction to Parallel Programming, 5 credits
Introduction to Process Control, 4 credits
Ionising Radiation: Principles and Measurement, 4 credits
IT and Society, 15 credits
IT, Sustainability and Social Responsibility, 5 credits
Life Cycle Analysis for Energy and Materials, 5 credits
Low-Level Parallel Programming, 5 credits
Maintenance Programming, 5 credits
Manufacturing of Metal Powders, 5 credits
Measurement Techniques for Energy Systems, 5 credits
MEMS for Applications in Life Science, 5 credits
Micro- and Nanotechnology I, 5 credits
Micro- and Nanotechnology II, 5 credits
Model-Based Design of Embedded Software, 10 credits
Nanomaterials in Energy and Environmental Applications, 5 credits
Nanoscience, 10 credits
Nanotechnology for Industrial Applications in Life Science, 5 credits
Non-Excluding Design and Evaluation, 15 credits
Nuclear Power: Technology and Systems, 10 credits
Optimisation, 5 credits
Parallel and Distributed Programming, 5 credits
Parallel Programming for Efficiency, 5 credits
Photonics and Quantum Optics I, 5 credits
Photonics and Quantum Optics II, 5 credits
Platform-Spanning Systems, 5 credits
Programming Embedded Systems, 5 credits
Programming Embedded Systems, Project, 5 credits
Project Course in Solid State Physics, 10 credits
Project CS, 30 credits
Protein Engineering, 15 credits
Radio Frequency Solid-State Amplifiers, 5 credits
Real Time Systems, 10 credits
Real Time Systems I, 5 credits
Rechargeable Batteries, 10 credits
Requirements in Agile Development, 5 credits
Robotics, 10 credits
Safety Analyses in the Energy Sector, 5 credits
Safety and Security in Control Systems, 5 credits
Scientific Computing for Partial Differential Equations, 5 credits
Scientific Visualisation, 5 credits
Second Generation Quantum Technology, 5 credits
Secure Computer Systems I, 5 credits
Security and Privacy, 7.5 credits
Soft Materials and Colloidal Systems, 5 credits
Software Engineering and Project Management, 5 credits
Software Testing, 5 credits
Solar Energy Technologies for Electricity Production, 5 credits
Space Physics, 5 credits
Spectroscopy, 10 credits
Spin-Based Technology I, 5 credits
Spin-Based Technology II, 5 credits
Statistical Machine Learning, 5 credits
User Interface Programming I, 5 credits
User Interface Programming II, 5 credits
Wireless Communication and Networked Embedded Systems, 5 credits
Wireless Communication and Networked Embedded Systems, Project, 5 credits