Academics

MS Agricultural Engineering

MS Agricultural Engineering

The MS in Agricultural Engineering is oriented toward executing engineering solutions for feed, fiber and food production problems and/or postharvest processing problems. Problems addressed by this degree are generally at or beyond the field scale; however, solution approaches frequently begin at the bench scale level.

The MS in Agricultural Engineering degree provides an opportunity for learning advanced data analyses skills and original research presentation skills. Problem definition skills are also stressed. The MS in Agricultural Engineering will preserve and continue the enduring legacy of Agricultural Engineering research at the University of Georgia.

Program Description

Faculty are engaged in research advancing mainly the areas of Sustainable Food Systems and Natural Resources Engineering. 

Admission

M.S. requirements

Program of Study

General guidelines for selecting courses for the program of study consistent with the College of Engineering requirements for the M.S. are for the student to have approximately 1/3 quantitative courses (e.g., math, finite element, and statistics), 1/3 supporting sciences courses available in many departments across campus, and 1/3 engineering courses. Typical choices for engineering and supporting science courses in each area are shown below. Students work with their graduate advisor and their committee to provide guidance in formulating the final plan of study so that it complements the chosen research area.

Sustainable Food Systems

  • ENGR 8103 Computational Engineering
  • ENGR 6140 Systems modeling
  • FDST 6011 Food Processing I
  • FDST 6012 Food Processing II
  • FDST 6013 Food Processing III
  • ENGR 6490 Renewable Energy Engineering
  • ENGR 8103 Computational Engineering
  • ENVE 6230 Energy in Nature, Civilization and Engineering
  • ENVE 6530 Energy and Environmental Policy Analysis
  • ENVE 6250 Energy Systems and the Environment
  • ENGR 6350 Finite Element Analysis
  • ENGR 6210 Linear Systems
  • ENGR 6220 Feedback Control Systems
  • ENGR 6230 Sensors and Transducers

Natural Resource Management

  • ENGR 8103 Computational Engineering
  • ENVE 6410 Open Channel Hydraulics
  • ENVE 6430 Advanced Open Channel Design
  • ENVE 6440 Computer Modeling in Water Resources
  • ENVE 6450 Engineering Hydrology and Hydraulics
  • ENVE 6460 Groundwater Hydrology for Engineers
  • ENVE 6430 Natural Resources Engineering