BS in Nuclear Engineering, Purdue University

West Lafayette, Indiana

48 Months

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About this course

Nuclear Engineering at Purdue University offers students insight into the vast potential of nuclear technology across multiple sectors, including power generation, medicine, industrial processes, space technology, and national defense. The program prepares students to contribute to advancements such as fission and fusion power, nuclear medicine, and space propulsion systems. It emphasizes the importance of nuclear engineers in creating innovative industries and supporting economic growth. The curriculum begins with the First-Year Engineering Program, providing a strong foundation in math, chemistry, physics, programming, and communication, guiding students toward their specialization within the college of engineering.

Why this course is highly recommended

This course is highly recommended because it positions students at the forefront of a rapidly evolving field with broad career opportunities in energy, healthcare, research, and national security. Graduates can work on innovative projects such as advanced reactors, nuclear propulsion for space missions, medical radiation therapies, and environmental safety, making them vital contributors to technological progress and societal well-being.

Specialisation

The program focuses exclusively on Nuclear Engineering, enabling students to develop expertise in nuclear reactor systems, radiation science, nuclear fuel cycles, and applications in medicine, industry, and space exploration.

Course fees

Application fees

1st year tuition fees

17.56L

Living cost

Degree requirements

Students must complete the First-Year Engineering Program, which includes courses in math, chemistry, physics, and programming, before specializing in Nuclear Engineering. Transfer students require a minimum GPA of 3.0 and must meet additional course-specific transfer criteria as outlined by Purdue University’s engineering transfer guidelines.

English language test

IELTS

6.5

TOEFL

DUOLINGO

110

PTE

Career prospects

Graduates can find opportunities working in electric utilities, regulatory agencies, research laboratories, and private vendors. Potential roles include supervising reactor operations, designing plant modifications, advancing nuclear medicine, developing space propulsion systems, and contributing to nuclear safety and non-proliferation initiatives. Careers also extend to research positions at national laboratories involved in energy studies, radiation science, and complex modeling of nuclear phenomena.

FAQs

What are the entrance requirements for the program?

Students must complete the First-Year Engineering Program and meet transfer criteria, including a minimum GPA of 3.0 for transfer applicants.

What kind of careers can I pursue with this degree?

Graduates work in utilities, regulations, research labs, and industry, contributing to energy systems, space exploration, medical applications, and national security initiatives.