CBE 451 Chemical and Biological Engineering Design I Credits: 3 (3-0-0)
Dual Degree Program: Biomedical Engineering combined with Chemical and Biological Engineering
Freshman AUCC Credits BIOM 100 Overview of Biomedical Engineering 1 CBE 160 MATLAB for Chemical and Biological Eng 1 CHEM 111 General Chemistry I (GT-SC2) 3A 4 CHEM 112 General Chemistry Lab I (GT-SC1) 3A 1 CHEM 113 General Chemistry II 3 LIFE 102 Attributes of Living Systems (GT-SC1) 3A 4 MATH 160 Calculus for Physical Scientists I (GT-MA1) 1B 4 MATH 161 Calculus for Physical Scientists II (GT-MA1) 1B 4 PH 141 Physics for Scientists and Engineers I (GT-SC1) 3A 5 Select one group from the following: 3 Group A: CBE 101 Introduction to Chemical and Biological Engr Group B: CBE 101A Introduction to Chemical and Biological Engr: Lecture CBE 101B Introduction to Chemical and Biological Engr: Laboratory Total Credits 30 Sophomore CBE 201 Material and Energy Balances 3 CBE 205 Fundamentals of Biological Engineering 3 CBE 210 Thermodynamic Process Analysis 3 CHEM 114 General Chemistry Lab II 1 CHEM 341 Modern Organic Chemistry I 3 CHEM 343 Modern Organic Chemistry II 3 CHEM 344 Modern Organic Chemistry Laboratory 2 CO 150 College Composition (GT-CO2) 1A 3 MATH 261 Calculus for Physical Scientists III 4 MATH 340 Intro to Ordinary Differential Equations 4 MECH 262 Engineering Mechanics 4 Total Credits 33 Junior BC 351 Principles of Biochemistry 4 BIOM 300 Problem-Based Learning Biomedical Engr Lab 4 BMS 300 Principles of Human Physiology 4 CBE 310 Molecular Concepts and Applications 3 CBE 320 Chemical and Biological Reactor Design 3 CBE 330 Process Simulation 3 CBE 331 Momentum Transfer and Mechanical Separations 3 CBE 332 Heat and Mass Transfer Fundamentals 3 CBE 393 Professional Development Seminar 1 Social and Behavioral Sciences 3C 3 Total Credits 31 Senior BIOM 421 Transport Phenomena in Biomedical Engineering 3 BIOM 422 Quantitative Systems and Synthetic Biology 3 CBE 333 Chemical and Biological Engineering Lab I 2 CBE 430 Process Control and Instrumentation 3 CBE 442 Separation Processes 4 CBE 443 Chemical and Biological Engineering Lab II 2 CBE 451 Chemical and Biological Engineering Design I 3 PH 142 Physics for Scientists and Engineers II (GT-SC1) 3A 5 STAT 315 Intro to Theory and Practice of Statistics 3 BME Broad Elective (see list below) 3 Arts and Humanities 3B 3 Total Credits 34 Fifth Year BIOM 486A Biomedical Design Practicum: Capstone Design I 4A,4B,4C 4 BIOM 486B Biomedical Design Practicum: Capstone Design II 4A,4B,4C 4 BME Technical Elective 1 5 CBE Technical Elective 5 Advanced Writing 2 3 Arts and Humanities 3B 3 Diversity, Equity, and Inclusion 1C 3 Historical Perspectives 3D 3 Total Credits 30 Program Total Credits: 158
Major in Chemical and Biological Engineering
Chemical and biological engineering is a powerful blend of basic sciences and the skills to quantitatively describe, predict, and control all changes of matter. This provides the foundation to create cutting-edge materials and products, to design new devices to improve health or the environment, and to design processes for the safe production of chemicals and biochemicals, the production of alternative energy sources, and prevention of hazardous waste.
Dual Degree Program: Biomedical Engineering combined with Electrical Engineering, Lasers and Optical Engineering Concentration
In order to maintain professional standards required of practicing engineers, the Department of Electrical and Computer Engineering requires a cumulative grade point average of at least 2.000 in ECE courses as a graduation requirement. It is the responsibility of any student who fails to maintain a 2.000 average to work with their advisor to correct grade point deficiencies. In addition, it is required that students retake any Electrical Engineering course at the 300-level or below in which they receive a grade below a C (2.000).