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Nuclear Engineering
The Bachelor of Science in Nuclear Engineering at the University of Wisconsin is a comprehensive and future-focused program that prepares students to design, analyze, and manage nuclear systems that impact energy, healthcare, security, and industry. This four-year, full-time degree provides a rigorous foundation in mathematics, physics, thermodynamics, and materials science while introducing students to specialized fields such as nuclear reactor design, radiation protection, nuclear fuel cycles, and thermal-hydraulics. The program emphasizes both theoretical knowledge and hands-on technical skills, empowering students to understand the physical principles that drive nuclear technology and to apply them in complex, real-world systems.
Students benefit from a robust curriculum supported by advanced research facilities, laboratory experience, and collaboration with faculty engaged in cutting-edge nuclear research. The program promotes innovation through opportunities in simulation, radiation measurement, and reactor operations. It also includes exposure to regulatory frameworks, environmental considerations, and ethical responsibilities related to nuclear energy and technology. With its focus on problem-solving, technical precision, and interdisciplinary collaboration, this degree equips students with the expertise and adaptability needed to lead in an evolving and critical global field.
Key information
Key Facts
- Program Title: Nuclear Engineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 15 January 2026
- Location: University of Wisconsin, United States
- Field of Study: Nuclear Engineering
- Language of Instruction: English
Program Structure
Year 1 – Engineering and Physical Science Fundamentals
• Calculus I & II
• General Chemistry
• Physics: Mechanics and Electromagnetism
• Introduction to Engineering Computing
Year 2 – Core Engineering Concepts
• Differential Equations
• Engineering Thermodynamics
• Materials Science for Engineers
• Electrical Circuits and Systems
Year 3 – Nuclear Principles and Systems
• Introduction to Nuclear Engineering
• Nuclear Reactor Theory
• Radiation Detection and Measurement
• Heat Transfer and Fluid Mechanics
Year 4 – Design, Safety, and Research
• Nuclear Reactor Design and Analysis
• Nuclear Safety and Regulatory Policy
• Capstone Design Project in Nuclear Engineering
• Ethics and Risk Assessment in Nuclear Technology
Career Opportunities
Graduates of this program pursue rewarding careers in nuclear energy utilities, national laboratories, defense and aerospace industries, and medical technology firms. Common roles include nuclear systems engineer, reactor operator, health physicist, radiation safety officer, fuel cycle analyst, and thermal systems designer. The technical rigor and specialization of the program also prepare students for competitive graduate programs in nuclear engineering, mechanical engineering, or applied physics. With global attention on clean energy solutions and advanced medical technologies, the demand for professionals with nuclear expertise continues to grow. This program equips students with the knowledge and practical ability to innovate in sectors where safety, efficiency, and scientific integrity are paramount.
Why Choose This Program
This program offers a powerful blend of scientific depth, engineering application, and ethical responsibility, making it an ideal path for students who want to make a tangible impact through advanced technology. The University of Wisconsin provides access to nationally recognized research labs, reactor simulation tools, and faculty involved in pioneering work on energy systems and radiation science. Students are not only trained in the technical aspects of nuclear engineering but are also encouraged to understand the societal, environmental, and policy dimensions of the field. The curriculum fosters a mindset of innovation, collaboration, and continuous improvement. Whether your interests lie in sustainable power generation, medical isotope production, or advanced reactor design, this degree gives you the foundation to contribute meaningfully to technological progress and global problem-solving.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 608-262-2433
Email: admissions@grad.wisc.edu
Address: 217 Bascom Hall, 500 Lincoln Drive, Madison, WI 53706, USA
