List of Technical Electives
(Standard Option)
Updated 04/02/12
Course Title
Course No.
Course Title
Course No.
Statics
Deformable Bodies
Intro. to the Microelectronics & Nanotech.Revol.
Low Speed Aerodynamics
Introduction to Mechanics
Jet & Rocket Propulsion
Intro. to Combustion
Micro-renewable Energy Syst.
Intro. Bioengr. Stats.
Intro. To Biomechanics
Biomed Systems & Modeling
Bio Networks & Genomics
Intro. to Biomaterials
Engr. Electrophysiology
Chem. Eng. in Nanoscale Sys.
Bioprocess Engineering
Product Design
Biocatalysis and Metabolic Engineering
Pulping & Chemical Recovery
Bleaching & Paper-making
Biofluid Mechanics
Integrated Circuit Fabrication
Drug Design, Development & Delivery
Nuclear Chemical Engr.
Polymer Science & Engineering I
Polymer Science & Engineering II
Mechanical Behavior of Composites
Composite Materials & Processes
Composite Materials & Manufacturing
Microfluidics/BioMEMS
Colloid and Surfaces
Data-Driven Modeling & Anal. For Chem. & Bio.
Protein Engineering
Lignocellulosic Biorefinery Processes
Biomolecular Engineering of the Cell
Molecular Modeling
Tissue Engineering
Dynamics
Environ. Engr. Principles
Environ. Engr. Systems
Air Pollution Engr.
Environ. Impact Assessment
CoE 2001
CoE 3001
CoE 3002
AE 2020
AE 2120
AE 4451
AE 4461
AE 4883
BMED 2400
BMED 3400
BMED 3510
BMED 4477
BMED 4751
BMED 4784
ChBE 4020
ChBE 4310
ChBE 4535
ChBE 4760
ChBE 4763
ChBE 4764
ChBE 4757
ChBE 4752
ChBE 4765
ChBE 4770
ChBE 4775
ChBE 4776
ChBE 4791
ChBE 4793
ChBE 4794
ChBE 4710
ChBE 4803
ChBE 4803
ChBE 4803
ChBE 4803
ChBE 4803
ChBE 6120
ChBE 6794
CEE 2040
CEE 2300
CEE 4300
CEE 4330
CEE 4620
Intro. to Signal processing
Intro. to Computer Engr.
Circuit Analysis
Electromagnetics
Microelectronic Circuits
Electromagnetic Applications
Semiconductor Devices
Circuits & Electronics
Instrum & Electronic Lab
Modern Electric Energy Systems
Probability w/Applications
Basic Statistical Methods
Engineering Economy
Methods of Quality Improvement
Engineering Optimization
Stochastic Manufact & Svc.
EDA Supply Chain Econom.
Regression/ Forecasting
Characterization of Materials
Structural Trans. in Metallic, Ceramic & Polymeric
Mech. Behavior of Materials
Introduction to Biomaterials
Fund. of Nanomater.& Struct.
Biologically Inspired Design
Dynamics of Rigid Bodies
Experimental Methodology
IC Engines
Mfg Processes & Engr.
Radiation Physics
Nuclear Reactor Physics
Radiation Sources & Applic.
Plasma Phys. & Fusion Engr.
Probabilistic Risk Assessment
Nuclear & Radiation Technol.
Nuclear Fuel Cycle
Str. & Prop. of Fibers & Poly.
Intro. To Fiber Enterprise
Chem. Proc. of Text. Mater.
Poly. Solns & Surfaces
Instr. Methods of Poly. Char.
ECE 2025
ECE 2030
ECE 2040
ECE 3025
ECE 3040
ECE 3065
ECE 3080
ECE 3710
ECE 3741
ECE 3071
ISyE 2027
ISyE 2028
ISyE 3025
ISyE 3039
ISyE 3133
ISyE 3232
ISyE 4803
ISyE 4803
MSE 2020
MSE 3002
MSE 3003
MSE 4751
MSE 4803
MSE 4803
ME 2202
ME 3057
ME 4011
ME 4210
NRE 3301
NRE 4204
NRE 4328
NRE 4610
NRE 4803
NRE 4803
NRE 6501
PTFE 2200
PTFE 3720
PTFE 4100
PTFE 4140
PTFE 4141
No two courses will be allowed towards satisfying the degree requirements if there is more
than 20% overlap in course content.
You are required to take 6 total hours of technical electives.
Up to 3 credit hours of technical electives may be taken at the 2000 level. At least 3 credit hours
must be taken at the 3000 level or higher.
Undergraduate research (for example ChBE 2699 and/or ChBE 4699) may be used as technical
electives, and research in other engineering programs (e.g. BME 2699 or 4699) may also be counted
as technical electives. Please see your academic advisor for additional rules governing research.