Benchmark Classes

For Fall 2020 and forward degree plans: Earned a B+ in at least six of the following eight courses:

• BMEN 3302 Bioengineering Signals and Systems
• BMEN 3315 Thermodynamics and Physical Chemistry in Biomedical Engineering
• BMEN 3320 Electrical and Electronic Circuits in Biomedical Engineering
• BMEN 3331 Cell and Molecular Engineering
• BMEN 3332 Quantitative Physiology for Engineers
• BMEN 3341 Probability Theory and Statistics for Biomedical Engineers
• BMEN 3399 Introductory Biomechanics
• BMEN 4v97 or 4v98 (must be three SCH) Independent Study in Biomedical Engineering; Engineering Practicum

For Fall 2019 and prior degree plans: at least six of the following eight courses:

• BMEN 3402 Signals and Systems for Biomedical Engineering
• BMEN 3315 Thermodynamics and Physical Chemistry in Biomedical Engineering
• BMEN 3320 Electrical and Electronic Circuits in Biomedical Engineering
• BMEN 3330 Engineering Physiology of the Human Body
• BMEN 3350 Biomedical Component and System Design
• BMEN 3341 Probability Theory and Statistics for Biomedical Engineers
• BMEN 3399 Introductory Biomechanics
• BMEN 4v97 or 4v98 (must be three SCH) Independent Study in Biomedical Engineering; Engineering Practicum

Fast Track Courses

• BMEN 6342: Biomaterials
• BMEN 6351: Biomedical Microdevices
• BMEN 6355 (MSEN 6355): Nanotechnology and Sensors
• BMEN 6372: Eng. Systems: Modeling and Simulation
• BMEN 6302: Dynamics of Complex Networks and Systems
• BMEN 6321: Polymers for Biomedical Applications
• BMEN 6365: Biomedical Image Processing
• BMEN 6371: Bioelectric Systems
• BMEN 6379: Mechanics of Soft Tissue
• BMEN 6388: Non-Linear Systems
• BMEN 6393: Neural Engineering Methods and Applications
• BMEN 6394: Med Image Tech and Image Process
• BMEN 6V87: Mech Properties of Materials
• BMEN 6V87: CRISPR and Genome Editing
• BMEN 6V87: Constitutive Modeling Bio Tiss
• BMEN 6V87: Finite Element Analysis
• BMEN 6V87: Dynamics of Biomechanical Sys
• BMEN 6V87: Const. Mod. Bio. Tiss