Biological and Agricultural Engineering (B.S.B.A.E.)
Required course work includes the university requirements (see regulation J-3) and:
Engineering for Living Systems (2 cr) |
|
Engineering Analysis and Design (2 cr) |
|
Instrumentation and Measurements (3 cr) |
|
Engineering Design I (3 cr) |
|
Engineering Design II (3 cr) |
|
Senior Seminar (1 cr) |
|
Cells and the Evolution of Life (4 cr) |
|
Principles of Chemistry I (4 cr) |
|
Principles of Chemistry II (5 cr) |
|
Engineering Graphics (2 cr) |
|
Engineering Statics (3 cr) |
|
Introduction to Electrical Circuits (3 cr) |
|
Engineering Thermodynamics and Heat Transfer (3 cr) |
|
Engineering Fluid Mechanics (3 cr) |
|
Engineering Mechanics of Material (3 cr) |
|
Engineering Economy (2 cr) |
|
Analytic Geometry and Calculus I (4 cr) |
|
Analytic Geometry and Calculus II (4 cr) |
|
Analytic Geometry and Calculus III (3 cr) |
|
Ordinary Differential Equations (3 cr) |
|
Phys 211, Phys 211L |
Engineering Physics I and Lab (4 cr) |
Engineering Physics II (3 cr) |
|
Probability and Statistics (3 cr) |
And one of the following options:
A. Agricultural Engineering Option
Fundamentals of Hydrologic Engineering (3 cr) |
|
Irrigation System Design (3 cr) |
|
Bioprocess Engineering (3 cr) |
|
Electric Power and Controls (3 cr) |
|
Engineering Surveying (3 cr) |
|
Hydraulics (3 cr) |
|
Theory of Structures (3 cr) |
|
Engineering Dynamics (3 cr) |
|
The Soil Ecosystem (3 cr) |
Technical Electives (9 cr)
Courses to total 128 credits for this degree
B. Biological Systems Engineering Option
Bioprocess Engineering (3 cr) |
|
Electric Power and Controls (3 cr) |
|
General Microbiology and Lab (5 cr) |
|
Biochemistry I (4 cr) |
|
Organic Chemistry I (3 cr) |
|
Organic Chemistry I: Lab (1 cr) |
Biological Science Electives (3 cr)
Technical Electives (15 cr)
Courses to total 128 credits for this degree
C. Environmental Engineering Option
Fundamentals of Hydrologic Engineering (3 cr) |
|
Bioprocess Engineering (3 cr) |
|
Electric Power and Controls (3 cr) |
|
General Microbiology and Lab (5 cr) |
|
Biochemistry I (4 cr) |
|
Organic Chemistry I (3 cr) |
|
Organic Chemistry I: Lab (1 cr) |
|
Fundamentals of Environmental Engineering (3 cr) |
|
The Soil Ecosystem (3 cr) |
Technical Electives (9 cr)
Courses to total 128 credits for this degree
D. Bioenergy Engineering Option
Bioprocess Engineering (3 cr) |
|
Electric Power and Controls (3 cr) |
|
Fundamentals of Bioenergy and Bioproducts (3 cr) |
|
Biofuels (3 cr) |
|
Thermochemical Technologies for Biomass Conversion (3 cr) |
|
General Microbiology and Lab (5 cr) |
|
Biochemistry I (4 cr) |
|
Organic Chemistry I (3 cr) |
|
Organic Chemistry I: Lab (1 cr) |
Science Elective (3 cr)
Technical Electives (6 cr)
Courses to total 128 credits for this degree
E. Eco-Hydrological Engineering Option
Fundamentals of Hydrologic Engineering (3 cr) |
|
Engineering Hydrology (3 cr) |
|
Environmental Water Quality (3 cr) |
|
Open Channel Hydraulics (3 cr) |
|
Engineering Surveying (3 cr) |
|
Hydraulics (3 cr) |
|
Engineering Dynamics (3 cr) |
|
The Soil Ecosystem (3 cr) |
Technical Electives (11 cr)
One of the following (3 cr):
Introduction to Problem Solving and Programming (3 cr) |
|
Programming with Visual Basic (3 cr) |
Courses to total 128 credits for this degree
A grade of C or better is required in each of the following courses before registration is permitted in upper-division engineering courses: BAE 242, Chem 111, Engr 210, Math 275, and Phys 211.
To graduate in this program, a grade of C or better is required in each of the following courses: BAE 242, Chem 111, Engr 210, Math 275, and Phys 211.
Students are required to submit a course plan and a statement of how the humanistic and social course requirements complement the technical content of the curriculum and are consistent with the program and institution objectives.