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DEGREE Engineering Physics, BS

Major in engineering physics

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.

The engineering physics major is ideal for students who are already thinking about graduate school and want the flexibility to design their undergraduate experience to support that goal—but it also prepares students to join high-tech startup companies developing new technologies.

At a glance

Nuclear engineering and engineering physics department

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of the nation’s few remaining research and teaching nuclear reactors
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undergraduate ranking among public universities in nuclear engineering
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graduate ranking among public universities in nuclear engineering

Program and degree information

View the Undergraduate Guide for information on requirements, four-year plans and more.

Determine what kind of student you will be and learn more about what information you need to apply.

Freshman A freshman includes anyone who is currently a student in high school or who has not taken college coursework since graduating from high school.
Transfer Student A transfer student is anyone who has attended another college or university after graduating from high school and wishes to enroll in an undergraduate degree program at UW–Madison.
Cross-campus Student Cross-campus transfer students are students who are currently enrolled in another school or college at UW-Madison who wish to transfer into the College of Engineering.
Reentry Student Students who previously attended the University of Wisconsin–Madison as an undergraduate and would like to complete their first undergraduate degree will need to apply for reentry admission. Reentry students are those who have not been enrolled in courses for a semester or more.

Tuition and segregated fee rates are always listed per semester (not for Fall and Spring combined).

 

The College of Engineering is committed to recognizing the potential and accomplishments of incoming and enrolled students by supporting their education through a variety of scholarships at the college and departmental level.

 

Educational Objectives

We recognize that our graduates will choose to use the knowledge and skills that they have acquired during their undergraduate years to pursue a wide variety of career and life goals, and we encourage this diversity of paths. Whatever path our graduates may choose, we expect them to be meeting the following objectives at least three to five years after graduation.

  • Educate students to think and participate deeply, creatively, and analytically in emerging areas of engineering technology.
  • Educate students in the basics of instrumentation, design of laboratory techniques, measurement, data acquisition, interpretation, and analysis.
  • Educate students in the methodology of research.
  • Provide and facilitate teamwork and multidisciplinary experiences throughout the curriculum.
  • Foster the development of effective oral and written communication skills.
    Expose students to environmental, ethical and contemporary issues.

Learning Outcomes

  1. an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  2. an ability to apply engineering research practices to produce results that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
  3. an ability to communicate effectively with a range of audiences
  4. an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
  5. an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  6. an ability to apply experimental, theoretical, and computational methods to address scientific and engineering objectives
  7. an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

View the UW-Madison Guide for information on all nuclear engineering and engineering physics courses.

 

Research opportunities

You’re an undergrad at a university known for its world-changing research. As an undergrad, you can be part of that—whether in a lab in our department, elsewhere in engineering, or even in other schools or colleges across UW-Madison! And if you discover a passion for research, want to further specialize in your field, or simply enjoy the process of learning in an academic setting, you can get any of those through our advanced master’s and PhD degree programs, too!

Research experience

As an undergrad, you can help pioneer new knowledge or technologies on your own or as a researcher in a professor’s lab.  It’s a great opportunity to apply what you’re learning in class, explore a field or topic that interests you, and gain insight into what it’s like to be a graduate student.

Nuclear Engineering and Engineering Physics, MS

As a master’s student in nuclear engineering and engineering physics, you’ll learn the principles of how radiation intersects with matter, as well as its applications in several areas of engineering physics.

Nuclear engineering and engineering physics news

In our department, our research spans areas that include aerospace, materials, fusion energy, nuclear systems and more—and we are a community that brings them all together for the benefit of our world.

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