Engineering Physics

Bachelor of Science Degree

Program Overview

The engineering physics major is designed to provide the necessary tools for students to become a professional physicists who may choose to enter industry, professional school and/or graduate school. Application of physics concepts in engineering is emphasized in various courses where students acquire a sound foundation of the laws of physics as well as a solid mathematic background.

ORU Distinguishing Features

ORU's engineering program has a broad liberal arts base. This distinctive foundation equips students in the application of science and technology for the improvement of the world and enables graduates to enter the engineering and scientific communities and contribute to the healing of the human condition.

Engineering students at ORU have the opportunity to apply their learning and test theories in the real world. Students at all levels are involved with creative, cutting-edge projects. Past projects include:

  • a full-sized composite aircraft
  • a remote-controlled mine-sweeping robot
  • a shark-bite meter

Engineering graduates are in high demand and typically receive high starting salaries. Some ORU graduates choose to pursue graduate studies at major universities. Many also work for a wide range of industries including Baker Hughes, Danaher, Boeing, G.E., Cessna and Toyota and also put their engineering skills to use on the mission field.

With a degree in physics careers are available in:

  • Research
  • Government labs
  • Industry or non-profit organizations
  • Engineering
  • Medicine
  • Law
  • Business
  • Education
What do you have to look forward to?

A taste of hands-on experience from the start. Small class sizes that offer one-on-one assistance when needed. Professors who really care and want to see you succeed. Working with and getting to know classmates from all different walks of life and experiences. Learning cutting edge skills and techniques with real world application.

Course Offerings
  • Modern Physics Lecture/Lab
  • Heat and Thermodynamics
  • Mechanics I: Statics
  • Mechanics II: Dynamics
  • Electronics Lecture/Lab
  • Electromagnetic Theory
  • Advanced Physics Laboratory
  • Optics
  • Quantum Mechanics
  • Engineering Graphics
  • Network Analysis Lecture/Lab
  • Engineering Computational Methods
Degree Plan