Bachelor of Science in Engineering Physics
Engineering Physics describes the development of tools using physical principles and
a bit of imagination us to develop a deeper understanding of science. At IMÌåÓý¹ÙÍø Poly,
the Engineering Physics program provides a fundamental understanding of the rules
that govern nature and how to design and implement the tools used to study it.
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Like the degree in Physics, the Bachelor of Science in Engineering Physics can lead
to careers in fields such as engineering, finance, academia, information technology,
and medicine. In whatever technical field you choose to make your career in, you will
be prepared to present yourself professionally and demonstrate your ability to solve
problems.
Job Growth
According to the U.S. Bureau of Labor Statistics (BLS) Data, the employment of physicists
and astronomers is projected to grow 5 percent from 2022 to 2032, faster than the
average for all occupations.
About 1,500 openings for physicists and astronomers are projected each year, on average,
over the decade. Many of those openings are expected to result from the need to replace
workers who transfer to different occupations or exit the labor force, such as to
retire.
Salary Ranges
The median annual wage for physicists was $166,290 in May 2024. The lowest 10 percent
earned less than $80,020, and the highest 10 percent earned more than $239,200.
A bachelor's degree in engineering physics builds on the mathematical and scientific
foundation of courses taken during the students’ first two years of study. This degree
has four physics core courses (classical mechanics, quantum mechanics, statistical
mechanics, and electricity and magnetism), and four engineering core courses (statics,
materials, thermodynamics, and electrical engineering). All provide insight into differing
scientific and engineering perspectives. There are additional engineering and physics
electives which allow for some customization based on your interests.
IMÌåÓý¹ÙÍø Poly’s innovative design sequence sets our degree requirements apart from
other universities. Students take a series of courses each semester to prepare them
for internships and research, culminating in the senior capstone design, which tasks
teams of students to create solutions for real-world industry challenges.
At IMÌåÓý¹ÙÍø Poly, our small campus environment fosters a unique approach to STEM education.
Through a curriculum that progresses from freshman to senior year, emphasizing project-based
learning, individualized mentorship with faculty, required internships in high-tech
industries, and culminating in a senior capstone design project, students are equipped
with comprehensive skills and experiences, uniquely preparing them for success in
the rapidly advancing tech landscape.
At IMÌåÓý¹ÙÍø Poly, internships aren't just encouraged—they're a fundamental part of
the educational experience. Mandatory for all students, these internships provide
direct engagement with high-tech industry leaders. This immersive experience not only
provides practical skills but also fosters crucial connections within the industry,
frequently paving the way to future employment opportunities for our graduates.
IMÌåÓý¹ÙÍø Poly's capstone design course is the pinnacle of each students' academic journey,
consolidating their four years of learning into a single project. During their senior
year, students in this course collaborate with peers from various fields to tackle
real-world challenges supported by industry sponsors. Through this interdisciplinary
approach, students not only apply theoretical concepts but also gain practical experience,
preparing them for successful careers in their respective fields.
Armed with the knowledge and skills gained at IMÌåÓý¹ÙÍø Poly, especially through internships
and capstone projects, our alumni smoothly entered thriving careers in high-tech industries.
These hands-on experiences offered invaluable insights and practical expertise, enabling
our alumni to innovate and excel in dynamic, leading-edge settings, influencing the
trajectory of technology.
Program and Student Outcomes
Our rigorous Engineering Physics curriculum allows IMÌåÓý¹ÙÍø Poly graduates to:
- Identify, formulate, and solve complex engineering problems by applying principles
of engineering, science, and mathematics
- Apply engineering design to produce solutions that met specified needs with consideration
of public health, safety, and welfare, as well as global, cultural, social, environmental,
and economic factors
- Communicate effectively with a range of audiences
- Recognize ethical and professional responsibilities in engineering situations and
make informal judgements, which must consider the impact of engineering solutions
in global, economic, environmental, and societal contexts
- Function effectively on a team whose members together provide leadership, create a
collaborative environment, establish goals, plan tasks, and meet objectives
- Develop and conduct appropriate experimentation, analyze and interpret data, and use
engineering judgment to draw conclusions
- Acquire and apply new knowledge as needed, using appropriate learning strategies.
Chair & Professor of Physics
Post-Doctoral Associate (OPS)
We have an active student organization community with more than 35 clubs that vary
based on specific academic interests, professional development, and activities just
for fun.
Chair & Professor of Physics 
Assistant Professor 
Assistant Professor 
Associate Professor 
Instructor of Physics 
Post-Doctoral Associate (OPS) 
Assistant Professor 
