Bachelor of Science
Biosystems engineers design solutions to technical problems that involve a critical biological component. They apply quantitative skills to create products, processes, and systems that improve human existence. Working at the interface of engineering and biology, biosystems engineers are engaged in the most important challenges of our time.
Biosystems engineers may, for example, design pathogen control processes to protect the safety of our food supply, constructed wetlands to improve water quality and quantity, biomass conversion processes to sustainably supply renewable energy and products, and/or diagnostic and risk modeling systems to protect and enhance human and animal health. Biosystems engineers are sought after by a wide variety of employers that need creative individuals to integrate principles of engineering and biology, including food manufacturers, environmental consulting firms, health industries, and government agencies.
The Bachelor of Science Degree program in Biosystems Engineering is accredited by the Engineering Accreditation Commission of ABET, www.abet.org.
Requirements for the Bachelor of Science Degree in Biosystems Engineering
- The University requirements for bachelor's degrees as described in the Undergraduate Education section of this catalog; 128 credits, including general elective credits, are required for the Bachelor of Science degree in Biosystems Engineering.
The University's Tier II writing requirement for the Biosystems Engineering major is met by completing Biosystems Engineering 334 or 485. These courses are referenced in item 3. a below.
Students who are enrolled in the College of Engineering may complete the alternative track to Integrative Studies in Biological and Physical Sciences that is described in item 1. under the heading Graduation Requirements for All Majors in the College statement. Certain courses referenced in requirement 3. below may be used to satisfy the alternative track.
- The requirements of the College of Engineering for the Bachelor of Science degree.
The credits earned in certain courses referenced in requirement 3. below may be counted toward College requirements as appropriate.
- The following requirements for the major:
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| a. |
All of the following courses (47 credits): |
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BE |
101 |
Introduction to Biosystems Engineering |
1 |
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BE |
201 |
Drafting in Biosystems Engineering |
1 |
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BE |
230 |
Engineering Analysis of Biological Systems |
3 |
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BE |
332 |
Engineering Properties of Biological Materials |
3 |
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BE |
334 |
Biosystems Engineering Laboratory Practice (W) |
3 |
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BE |
350 |
Heat and Mass Transfer in Biosystems |
3 |
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BE |
351 |
Thermodynamics for Biological Engineering |
3 |
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BE |
360 |
Microbial Systems Engineering |
3 |
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BE |
385 |
Engineering Design and Optimization for Biological Systems |
3 |
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BE |
485 |
Biosystems Design Techniques (W) |
3 |
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BE |
487 |
Biosystems Design Project (W) |
3 |
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BS |
161 |
Cell and Molecular Biology |
3 |
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BS |
162 |
Organismal and Population Biology |
3 |
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CE |
221 |
Statics |
3 |
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CE |
321 |
Introduction to Fluid Mechanics |
4 |
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CEM |
143 |
Survey of Organic Chemistry |
4 |
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CEM |
151 |
General and Descriptive Chemistry |
4 |
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CEM |
161 |
Chemistry Laboratory I |
1 |
| b. |
One of the following courses (2 credits): |
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BS |
171 |
Cell and Molecular Biology Laboratory |
2 |
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BS |
172 |
Organismal and Population Biology Laboratory |
2 |
| c. |
One of the following courses (3 or 4 credits): |
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IBIO |
341 |
Fundamental Genetics |
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4 |
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IBIO |
355 |
Ecology |
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3 |
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MMG |
301 |
Introductory Microbiology |
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3 |
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PLB |
301 |
Introductory Plant Physiology |
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3 |
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PSL |
250 |
Introductory Physiology |
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4 |
| d. |
One of the following courses (3 or 4 credits): |
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CSS |
442 |
Agricultural Ecology |
3 |
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CSS |
451 |
Biotechnology Applications for Plant Breeding and Genetics |
3 |
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FOR |
406 |
Applied Forest Ecology: Silviculture |
3 |
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FSC |
440 |
Food Microbiology |
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3 |
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MMG |
365 |
Medical Microbiology |
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3 |
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MMG |
404 |
Human Genetics |
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3 |
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MMG |
425 |
Microbial Ecology |
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3 |
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MMG |
445 |
Microbial Biotechnology (W) |
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3 |
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PLB |
402 |
Biology of Fungi |
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4 |
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PSL |
425 |
Physiological Biophysics |
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3 |
| e. |
Four of the following courses (12 credits): |
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BE |
444 |
Biosensors for Medical Diagnostics |
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3 |
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BE |
449 |
Human Health Risk Analysis for Engineering Controls |
3 |
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BE |
456 |
Electric Power and Control |
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3 |
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BE |
469 |
Sustainable Bioenergy Systems |
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3 |
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BE |
477 |
Food Engineering: Fluids |
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3 |
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BE |
478 |
Food Engineering: Solids |
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3 |
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BE |
481 |
Water Resources Systems Analysis and Modeling |
3 |
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BE |
482 |
Engineering Ecological Treatment Systems |
3 |
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BE |
484 |
Water Resource Recovery Engineering |
3 |
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CHE |
468 |
Biomass Conversion Engineering |
3 |
Concentrations in Biosystems Engineering
The department offers concentrations for students who wish to focus on a specific application area in the discipline. The concentrations are available to, but not required of, any student enrolled in the Bachelor of Science degree program in Biosystems Engineering. Courses completed to satisfy requirement 3. above may also be used to satisfy the requirements of a concentration. The concentration will be noted on the students transcript.
Bioenergy and Bioproduct Engineering
To earn a Bachelor of Science degree in Biosystems Engineering with a bioenergy and bioproduct engineering concentration, students must complete degree requirements 1., 2., and 3. above and the following:
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| 1. |
All of the following courses (9 credits): |
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BE |
469 |
Sustainable Bioenergy Systems |
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3 |
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CHE |
468 |
Biomass Conversion Engineering |
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3 |
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CSS |
467 |
Bioenergy Feedstock Production |
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3 |
| 2. |
Two of the following courses (6 to 8 credits): |
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CHE |
481 |
Biochemical Engineering |
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3 |
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CSS |
442 |
Agricultural Ecology |
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3 |
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CSS |
451 |
Biotechnology Applications for Plant Breeding and Genetics |
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3 |
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FOR |
406 |
Applied Forest Ecology: Silviculture |
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3 |
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FOR |
427 |
Biomass and Bioproducts Chemistry |
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3 |
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FOR |
466 |
Natural Resource Policy |
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3 |
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FW |
444 |
Conservation Biology |
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3 |
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GLG |
435 |
Geomicrobiology |
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4 |
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MC |
450 |
International Environmental Law and Policy |
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3 |
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ME |
417 |
Design of Alternative Energy Systems |
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3 |
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ME |
422 |
Introduction to Combustion |
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3 |
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MMG |
425 |
Microbial Ecology |
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3 |
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MMG |
445 |
Microbial Biotechnology (W) |
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3 |
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PLB |
402 |
Biology of Fungi |
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4 |
Biomedical Engineering
To earn a Bachelor of Science degree in Biosystems Engineering with a biomedical engineering concentration, students must complete degree requirements 1., 2., and 3. above and the following:
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| 1. |
Both of the following courses (6 credits): |
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BE |
444 |
Biosensors for Medical Diagnostics |
3 |
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BE |
449 |
Human Health Risk Analysis for Engineering Controls |
3 |
| 2. |
One of the following courses (3 credits): |
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MMG |
365 |
Medical Microbiology |
3 |
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MMG |
404 |
Human Genetics |
3 |
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PSL |
425 |
Physiological Biophysics |
3 |
| 3. |
Two of the following courses (5 or 6 credits): |
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BE |
440 |
Entrepreneurial Engineering for Innovation in Health and Safety |
3 |
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BLD |
204 |
Mechanisms of Disease |
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3 |
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BLD |
313 |
Quality in Clinical Laboratory Practice |
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BLD |
430 |
Molecular Diagnostics |
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2 |
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BLD |
434 |
Clinical Immunology |
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3 |
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ECE |
445 |
Biomedical Instrumentation |
3 |
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ME |
494 |
Biofluid Mechanics and Heat Transfer |
3 |
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MMG |
365 |
Medical Microbiology |
3 |
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MMG |
404 |
Human Genetics |
3 |
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MSE |
425 |
Biomaterials and Biocompatability |
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3 |
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PLB |
400 |
Introduction to Bioinformatics |
3 |
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PSL |
425 |
Physiological Biophysics |
3 |
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Courses used to fulfill requirement 2. in this concentration may not be used to fulfill this requirement. |
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Ecosystems Engineering
To earn a Bachelor of Science degree in Biosystems Engineering with a ecosystems engineering concentration, students must complete degree requirements 1., 2., and 3. above and the following:
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| 1. |
All of the following courses (9 credits): |
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BE |
481 |
Water Resources Systems Analysis and Modeling |
3 |
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BE |
482 |
Engineering Ecological Treatment Systems |
3 |
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BE |
484 |
Water Resource Recovery Engineering |
3 |
| 2. |
One of the following courses (3 credits): |
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CSS |
442 |
Agricultural Ecology |
3 |
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MMG |
425 |
Microbial Ecology |
3 |
| 3. |
Two of the following courses (5 or 6 credits): |
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CSS |
210 |
Fundamentals of Soil Science |
3 |
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CSS |
330 |
Soil Chemistry |
2 |
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CSS |
360 |
Soil Biology |
3 |
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CSS |
442 |
Agricultural Ecology |
3 |
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CSS |
455 |
Environmental Pollutants in Soil and Water |
3 |
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ENE |
422 |
Applied Hydraulics |
3 |
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FOR |
340 |
Forest Ecology |
3 |
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FW |
417 |
Wetland Ecology and Management |
3 |
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FW |
420 |
Stream Ecology |
3 |
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FW |
444 |
Conservation Biology |
3 |
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GEO |
402 |
Agricultural Climatology |
3 |
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MC |
450 |
International Environmental Law and Policy |
3 |
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PLB |
418 |
Plant Systematics |
3 |
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PLB |
443 |
Restoration Ecology |
3 |
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Courses used to fulfill requirement 2. in this concentration may not be used to fulfill this requirement. |
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Food Engineering
To earn a Bachelor of Science degree in Biosystems Engineering with a food engineering concentration, students must complete degree requirements 1., 2., and 3. above and the following:
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| 1. |
All of the following courses (9 credits): |
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BE |
477 |
Food Engineering: Fluids |
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3 |
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BE |
478 |
Food Engineering: Solids |
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3 |
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FSC |
440 |
Food Microbiology |
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3 |
| 2. |
Two of the following courses, one of which must be at the 400-level (6 or 7 credits): |
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BMB |
200 |
Introduction to Biochemistry |
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4 |
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FSC |
211 |
Principles of Food Science |
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3 |
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FSC |
401 |
Food Chemistry |
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3 |
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FSC |
430 |
Food Processing: Fruits and Vegetables |
3 |
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FSC |
431 |
Food Processing: Cereals |
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3 |
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FSC |
432 |
Food Processing: Dairy Foods |
3 |
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FSC |
433 |
Food Processing: Muscle Foods |
3 |