ENGP 1005: Introduction to Electronics with Lab (TSSP) (3)
ENGP 1010: Introduction to Maker Space (TSSP) (3)
ENGP 1015: Introduction to Engineering Design with Lab (TSSP) (3)
ENGP 1410: Statics (3)
ENGP 2010: Electric Circuits (3)
ENGP 2011: Electric Circuits Lab (1)
ENGP 2020: Computational Concepts and Applications (4)
ENGP 2120: Thermodynamics (3)
ENGP 2310: Product and Experimental Design (3)
ENGP 2420: Engineering Dynamics (3)
ENGP 2430: Mechanics of Materials (3)
ENGP 2730/2731: Electronics+Lab (4)
ENGP 3120: Materials Science and Engineering (3) with optional service learning
ENGP 3130: Intro to Power Systems (3)
ENGP 3140: Digital Logic Systems (3)
ENGP 3160: Probabilistic Systems and Signal Processing (3)
ENGP 3170: Computational Physics and Engineering (3)
ENGP 3180: Introduction to Feedback Control and Control Theory (3)
ENGP 3230: Quantum Information Science and Engineering (3)
ENGP 3290: Computational Materials Science and Engineering (3)
ENGP 3350: Kinetics of Material Systems (3)
ENGP 3360: Structure of Materials (3)
ENGP 3370: Processing of Biomaterials (3)
ENGP 3380: Materials for Energy (3)
ENGP 3390: Synthesis of Nanomaterials (3)
ENGP 3430: Professional Development for Engineers I (2)
ENGP 3440: Professional Development for Engineers II (1)
ENGP 3530: Advanced Laboratory (3)
ENGP 3560: Photonic Materials and Devices (3)
ENGP 3570: Semiconductor Devices (3)
ENGP 3600: Nanoscience and Technology (3)
ENGP 3620: Microfabrication and Nanotechnology (3)
ENGP 3700: Electronic Properties of Materials (3)
ENGP 3720: Mechanical Behavior of Materials (3)
ENGP 3730: Signals and Systems (3)
ENGP 3760: Thermodynamics of Materials (3)
ENGP 3950: Service Learning: ENGP 3120 (1)
ENGP 4310: Team Design Project & Professional Practice I (3)
ENGP 4320: Team Design Project & Professional Practice II (3) with optional service learning
ENGP 4890: Service Learning: ENGP 4320 (0)
ENGP 4910: Independent Studies (3)
ENGP 4920: Independent Studies (3)
ENGP 4990: Honors Thesis (3)
ENGP 5000: Honors Thesis (4)
Sample Schedules for Prospective Majors
Important Note: These sample schedules show one of many ways to fulfill all requirements for graduation with an Engineering Physics degree. See the course catalog or the department website for more information about the major, including a list of courses that may be used to satisfy the engineering electives requirement, the classical elective requirement, and the contemporary elective requirement. The sequence of courses taken will differ among students depending on interests, future goals, advanced placement status, desired minor in engineering or another field, and other factors.
You will need to consult regularly with your Engineering Physics faculty advisor to maintain a program that fits your needs. For students pursuing an ENGP certificate or a minor in Electrical, Mechanical, or Materials Engineering, your certificate or minor advisor is your primary ENGP advisor. Otherwise, please contact Prof. Lev Kaplan with any questions about the Engineering Physics program.
Newcom-Tulane Core Courses: The writing course, TIDES course, service learning courses, and distributional electives satisfy Newcomb-Tulane core requirements for graduation. Engineering Physics students are exempt from the NTC Foreign Language requirement. Please talk regularly with your Newcomb-Tulane College advisor to ensure that you are meeting the requirements of the core curriculum.