Degrees & Programs

As a biomedical engineer, you can apply engineering tools to solve problems in biology and medicine.

As a chemical engineer, you can take advantage of advances in chemistry and biology to create new products, design chemical processes, develop energy resources, and protect the environment.

As a civil engineer, you can design sustainable facilities that protect the health and welfare of communities and our environment, while also ensuring society’s financial health.

As a computer engineering major, you can learn how to design, develop, analyze, research and manufacture hardware, software and systems that process, store and convey digital information. In addition, you can explore systems that include personal computers, workstations, mainframe computers and embedded digital systems. You can even focus on the mathematics, tools, and practices associated with machine learning and data science in engineering with our new MLDS Named Degree Option.

As an electrical engineering major, you can learn to design, develop, analyze, research and make systems for a wide variety of fields – from power generation and communication to healthcare and instrumentation. You’ll also learn about the devices that make up these systems, including transistors, integrated circuits, rotating machines, antennas and fusion plasma confinement devices, and the tools for analyzing and operating systems, including signal processing, controls, and machine learning. You can even focus on the mathematics, tools, and practices associated with machine learning and data science in engineering with our new MLDS Named Degree Option.

As an engineering mechanics major, you will design, measure and analyze complex structures of everything from networks of human cells and novel materials constructed at the nanoscale to roller coasters and spacecraft. Engineering mechanics is the home of aerospace engineering at UW-Madison.

As an engineering physics major, you’ll dive into research alongside professors who work at the frontier of translating emerging science into novel technologies. With a curriculum designed specifically to launch your research career and a tight-knit community of scholars, you’ll find a supportive environment to pursue a flexible math and physics-centered curriculum and publish an undergraduate thesis.

As an environmental engineer, you’ll directly influence areas that include lakes and rivers, clean drinking water, environmental pollution, alternative energy, climate change and more.

As a geological engineering major, you’ll find the best way to use the earth’s resources to solve technical problems while protecting the environment.

As an industrial engineering major, you’ll focus on improving goods and services, and making them more cost-effective and of greater value to people, industries and society.