University of Wisconsin-Madison

Madison, Wisconsin, United States

On this Page:



The extremely varied concentrations in Bioscience provided by the University of Wisconsin–Madison makes it a world leader in biotechnology, life science, and medical research. UW-Madison ranks fourth in research expenditure among U.S. public universities, second in non-federally financed studies and fourth in federally financed studies. The Master of Science in Biotechnology Program (MS-Biotechnology Program) at the University of Wisconsin is specifically intended for practitioners who want to advance their careers in biotechnology.  It is an interdisciplinary curriculum focusing on biotechnology science, law, and business. The department conducts laboratory classes with the intention to equip learners with the fundamental science of biotechnology before plunging into the more sophisticated scientific fields. The scientific content is thus combined with practical laboratory operations to ensure that all the learners in the laboratory setting become skilled in the field. The University of Wisconsin-Madison's Biotechnology Training Program (BTP) provides doctoral students the chance to gain training and experience in biotechnology with targeted training, an industry internship, and up to two years of financing. BTP is a multidisciplinary training program financed by the National Institute of General Medical Sciences (NIH).

Areas of Expertise: Process control, optimization & scheduling; Materials & Nanotechnology; Colloids; Bioengineering; Systems Engineering; Polymer Science & Engr.; Catalysis; Fluid Mechanics; Reaction Engineering



The Chemical and Biological Engineering Department provides a bachelor's degree (B.S.) and a graduate program leading to a Ph.D. degree in chemical engineering. The Department does not consider applications for a terminal M.S. degree; only the Ph.D. applicants are admitted into the department. The M.S. degree can be awarded post-admission for work completed leading to the Ph.D. degree.  The doctorate degree emphasizes extensive and original approaches to problem-solving. The department's research is extremely interdisciplinary, capitalizing on nationally prominent programs such as the NSF Materials Research Science and Engineering Center (MRSEC), the nation's biggest biotechnology training program funded by the NIH, and the Computing and Informatics training program in biology and medicine. The B.S. pupils in Chemical engineering program are urged to take part in global study experiences, industry internships, and business operations. The students enrolled in the program take chemistry classes along with physics, mathematics, and biology courses. Chemical engineers have opportunities in the fields of energy resources, equipment, pulp, and paper production, pharmaceuticals, plastics, personal care products, synthetic fibers, food processing, waste treatment, pollution reduction, public health, and biotechnology.
Areas of Expertise: Process control, optimization & scheduling; Materials & Nanotechnology; Colloids; Bioengineering; Systems Engineering; Polymer Science & Engr.; Catalysis; Fluid Mechanics; Reaction Engineering

List of Labs: Materials Research Science & Engineering Center (MRSEC)



The Department of Civil and Environmental Engineering is responsible for the sustainable design of facilities that protect the health and well-being of communities and the environment while also ensuring the financial health of the society. The department offers a Bachelor of Science degree in Civil Engineering, a Master of Science degree in civil and environmental engineering, and a Ph.D. in Civil and Environmental Engineering. The department’s Bachelor of Science offers students with a strong foundation leading to a multitude of career opportunities and professional achievements. The MS program includes study methods and emphasizes the improvement of professional understanding and abilities. The Ph.D. program emphasizes wider and more original approaches to problem-solving. The Department of Civil & Environmental Engineering also provides six accelerated masters programs - Construction Engineering and Management M.S., Environmental Science and Engineering M.S., Geological Engineering M.S., Structural Engineering M.S., Transportation Engineering M.S., and Water Resources Engineering M.S. - that can be finished in one year.

Areas of Expertise: Transportation; Water Resources; Building Systems; Environmental; Geoenvironmental Engineering; Mineral Extraction & Byproducts Management; Conventional & Renewable Energy

List of Labs: Modified Asphalt Research Center (MARC); Wisconsin Structures & Materials Testing Lab; Wisconsin Transportation Center; Water Science & Engineering Lab; Wisconsin Consortium for Applied Water Quality Research


Computer Science

The UW–Madison Computer Science Department is a top-ranking department in the U.S. in terms of federal research funds and is also listed among the top educational institutions overall since the early 1900s. The department provides bachelor's degrees (BA, BS), traditional MS /Ph.D., and professional MS degree. The department also provides project-oriented classes in artificial intelligence, computer architecture, computer graphics, computer networks, computer safety, databases, the interaction between people and computers, operating systems, programming languages and compilers, software engineering, and wireless systems. Traditional MS /Ph.D. programs accept undergraduate learners from various areas like computer science, mathematics, engineering, psychology, linguistics, economics, physics, philosophy, and business. The Professional Master's Program is designed for working experts in the U.S. or overseas who want to pursue an MS degree in computer science in the university. The program is intended to enable working experts to finish the program within two years and receive an MS degree.
Areas of Expertise:  Artificial Intelligence; Computer Graphics; Scientific computing and applied math; Computer Music; Social Robotics Lab; Algorithms and complexity theory; Distributed computing; Security and cryptography; Computer Systems and Networking; Computing and the arts; Technical Reports; Programming languages and compilers; Machine learning 


Electrical / Electronics

To foster the next generation of technicians and technology leaders, the Department of Electrical and Computer Engineering follows an extensive strategy. The department has research and instructional expertise in six major impact areas: energy, health and bioengineering, computing and information, nanotechnology, and security. Its research activities within such areas concentrate on four subdisciplines: computer engineering, applied physics, systems, and power engineering. It provides Bachelor / Masters and Ph.D. programs. The Electrical Engineering Research Master's program is designed for learners seeking research training and sophisticated concept development and wanting to undertake an in-depth project with a member of the faculty. The Ph.D. program applies to students who desire the greatest level of research training. Preparing a thesis or a project report on a research problem is a distinctive characteristic of the Research MS option. The research advisor and the student can decide between themselves if the student should submit a thesis or complete a project report. The Professional Master of Science in Electrical Engineering is intended to deepen the technical understanding of the student and to improve his/her professional abilities for a well-prepared entry into the sector. Through a course-only curriculum, an accelerated and predictable completion time of 16 months, and a summer professional development session, the program offers practical focus. The Professional program's focus differs from the traditional research-based MS program as it replaces independent research that leads to a written thesis with an accelerated coursework plan and summer professional development.
Areas of Expertise: Signal Processing, Control & Communications; Microelectronics; Photonics; Nanostructures; Computer Engineering

List of Labs: Yale Institute of Network Science (YINS)



UW-Madison's Environmental Engineering and Science Group is globally acknowledged for its strengths in wastewater treatment, water therapy, microbial ecology, microbial interaction modeling, and air pollutant detection. The University of Wisconsin-Madison College of Engineering provides graduate programs leading to the Master of Science degree (MS) and Ph.D. in Civil and Environmental Engineering. The MS program, including study methods, emphasizes the improvement of professional understanding and abilities. The Ph.D. program emphasizes wider approaches to problem-solving.  The department also provides an MS Degree in Environmental Chemistry and Technology, another thesis-based program.
Areas of Expertise: Transportation; Water Resources; Building Systems; Environmental; Geoenvironmental Engineering; Mineral Extraction & Byproducts Management; Conventional & Renewable Energy  


Industrial Engineering

The Department of Industrial Systems and Engineering has a long track record of excellence in the sector of industrial and systems engineering. The department consistently ranked in the top 10 nationwide, provides the greatest quality instructional experience, world-class research possibilities, and state-of-the-art equipment for job and study. The department provides a bachelor’s, master's, and a Ph.D. degree. The bachelor's degree is intended to provide the technical expertise and abilities required in a multitude of sectors. Master of Science in Industrial Engineering Research Option is a flexible curriculum that allows learners to customize their degree program to accommodate their specific requirements and career goals. The Systems Engineering and Analytics (SEA) MS offers students the opportunity to pursue graduate training, under the guidance of the foremost experts in their field. The Master of Human Factors and Health Systems Engineering (HFHSE) program provides content from physical ergonomics, cognitive ergonomics, macroeconomics, and major issues in health care, including long-term care, prevention, quality improvement, health care financing, and system evaluation. The department provides state-of-the-art equipment for professors, employees, and scholars of the Ph.D. program. Industrial and systems engineering concentration fields include operations research, manufacturing, engineering of health systems, and human factors and ergonomics.

Areas of Expertise: Operations Research; Mfg & Production Systems; Human Factors & Ergonomics; Health Systems Engineering 

List of Labs: Center for Quick Response Manufacturing; Center for Health Enhancement Systems Studies (CHESS); Industrial Hand Tool and Ergonomics Research Consortium; Center for Human Performance & Risk Analysis; UW E-Business Institute; Center for Quality & Productivity Improvement; Center for Health Systems Research & Analysis


Materials Science

The Department of Materials Science and Engineering provides a Ph.D. degree in materials science and engineering. Here, the learners conduct independent research with the assistance of their consultants and members of the thesis committee. During the advancement towards the Ph.D., a Master's degree is also provided to learners registered in the Ph.D. program.  Direct admission to the degree program of the terminal Master is uncommon.

Areas of Expertise: Electron Microscopy; Thin Film Deposition; Mechanics & Materials; Computational Materials
List of Labs:  Materials Science Center



The University of Wisconsin-Madison’s Department of Mechanical Engineering is one of the nation's top mechanical engineering departments. The curriculum involves important hands-on operations and generates some of the field's most skilled and respected technicians. The science and engineering principles applicable to Mechanical Engineering systems are taught in a bachelor's degree program. The Department of Mechanical Engineering offers a Master of Science degree in Mechanical Engineering with a thesis option. It takes approximately two years to complete the course. The thesis option includes a research component as well. The Automotive Engineering MS program helps in preparing students for a career in the automation industry. It has a strong emphasis on in-cylinder energy conversion processes. The graduates in Automotive Engineering participate in engine development programs in the automotive, heavy-duty, or recreational engine sectors. The Modeling and Simulation in Mechanical Engineering MS program are designed for a career in the industry with a focus on simulation and analysis. Major emphasis is on modeling and simulation in which graduates participate in analysis-driven design in application areas related to thermodynamics, fluid mechanics, heat transfer,  solid mechanics, biomechanics, and manufacturing. The Department of Mechanical Engineering also offers an Accelerated Mechanical Engineering MS program for an advanced career within the field of Mechanical Engineering. Automotive Engineering, Modeling, and Simulation in Mechanical Engineering, Accelerated Mechanical Engineering are for a duration of 12 months. The department's Ph.D. program prepares learners to conduct autonomous studies in the department's fields of faculty knowledge. The department’s broad study fields include biomechanics, computer engineering, power, production, and mechanics and controls (study fields, faculty directory). 

Areas of Expertise: Polymer Engineering; Computational Methods & Optimization; Computational Mechanics; Robotics/Electromechanical System Control; Thermal-Fluid Systems; Biomechanics; Adv Mfg & Prototype Processes; Engine & Vehicle Systems

List of Labs: Engine Research Center; Wisconsin Applied Computing Center; HVAC & R Center; Solar Energy Laboratory; Polymer Engineering Center

Pure Sciences

The Department of Physics integrates basic principles of physics, mathematics, and engineering to solve societal issues while educating a fresh generation of technical leaders. Together with the Ph.D. degree, the department also offers bachelor’s and master’s degrees. The University of Wisconsin's Department of Chemistry offers a sound understanding of chemical principles along with important possibilities to participate in scientific inquiries in a creative environment. The department offers bachelor, master, and Ph.D. degrees. The Mathematics Department provides both undergraduate and graduate degrees in Mathematics.

Areas of Expertise: Fusion Plasma Physics; Astronautics; Mechanics of Materials; Radiation Sciences; Generation IV Reactors; Fusion Science & Technology; Thermal Hydraulics; Fission Reactor Engr.; Bio/Micro/Nano-mechanics

List of Labs: Center for Plasma Theory & Computation; Fusion Technology Institute; Wisconsin Institute of Nuclear Systems

Is UW-Madison hard to get into ?

    University of Wisconsin - Madison has a 51.7% acceptance rate that shows 52 out of every 100 applications are accepted. This demonstrates the school's medium level of selection. The school is more lenient than other colleges, but they still expect you to satisfy their ACT/SAT and GPA criteria.
Is University of Wisconsin - Madison prestigious ?

The University of Wisconsin-Madison is ranked fourth overall and first among all national public universities in Washington Monthly's 2021 College Guide and Rankings. Three factors—excellence in research, social mobility, and community and national service—are used to determine the ranking.
What GPA do you need to get into Madison ? 

University of Wisconsin - Madison demands a GPA of 3.86, which means you must be at or near the top of your class and significantly above average. Your transcript should primarily reflect As. You should have ideally taken a number of AP or IB classes to show that you can handle college-level academics.
What is Madison Wisconsin University known for ?

The campus provides more than 9,000 courses ranging from accountancy to zoology and everything in between, along with about 600 undergraduate and graduate majors. As a public land-grant university and significant research organisation, its instructors, staff, and students receive a top-notch education while tackling pressing issues in the real world.
Is Wisconsin Madison a public ivy ?

UW is the recognised state university of Wisconsin and one of the Public Ivy League universities in the United States. It has 20 colleges and offers 120 doctorate programmes, 148 master's programmes, and 136 undergraduate degrees. It is renowned for its College of Agriculture and Life Sciences in particular.
Is University of Wisconsin worth the money ?

The University of Wisconsin-Madison has been recognised by Princeton Review as a best value university. In the 2019 edition of "The Best Value Colleges: 200 Schools with Exceptional ROI for Your Tuition Investment," the institution is one of 200. Only 7% of the four-year colleges in the country were included in this book.
What SAT score is required for Wisconsin ?

Because of this school's moderate selection criteria, admission is almost certainly guaranteed if you have strong academic credentials. Your chances of admission are already quite good if your SAT score is 1390 or higher. Given that your GPA is about the average 3.86, scoring a 1480 will very certainly result in acceptance.