CEEMMS - Civil Engineering & Engineering Mechanics
Download as PDF
Minimum Credit Units
30
Core Coursework Requirements
See elective coursework below
Elective Coursework
Construction Management
course: Construction Project Planning, Scheduling, and Control (3)
course: Construction Cost Estimating (3)
course: Construction Equipment and Methods (3)
Engineering Mechanics
course: Elasticity Theory and Application (3)
course: Fracture Mechanics (3)
course: Mechanical Behavior of Materials II - Special Topics (3)
course: Wave Propagation in Solids (3)
Geotechnical
course: Foundation Engineering (3)
course: Earth Structures in Geotechnical Engineering (3)
course: Ground Improvement (3)
course: Special Topics in Geomechanics (3)
course: Geoenvironmental Engineering (3)
course: Geotechnical Earthquake Engineering (3)
course: Numerical Methods in Geotechnical Engineering (3)
Courses outside of department:
course: Geophysical Exploration and Engineering (3)
course: Rock Excavation
course: Geomechanics (3)
course: Underground Construction Geomechanics (3)
course: The Mechanics of Fracture in Rock and Other Brittle Materials (3)
Hydraulics
course: Open-Channel Flow (3)
course: Hydrology (3)
course: Sedimentation Engineering (3)
course: Computer Applications in Hydraulics (3)
course: Special Topics in Hydraulics and Water Resources Engineering (3)
course: Statistical Hydrology (3)
course: Stochastic Methods in Surface Hydrology (3)
Structures
course: Probability in Civil Engineering (3)
course: Advanced Structural Design in Steel (3)
course: Design of Wood and Masonry Structures (3)
course: Prestressed Concrete Structures (3)
course: Advanced Structural Design in Concrete (3)
course: Behavior and Design of Structural Systems (3)
course: Infrastructure Rehabilitation (3)
course: Reinforced Concrete (3)
course: Advance Structural Stability (3)
course: 633 Structural Dynamics and Earthquake Engineering (3)
course: 634 Advanced Structural Dynamics (3)
Transportation
course: Special Topics in Transportation Engineering (3)
course: Traffic Engineering and Operations (3)
course: Traffic Flow and Capacity Analysis (3)
course: Transportation Data Management and Analysis (3)
course: Highway Geometric Design (3)
course: Traffic Safety (3)
course: Travel Demand Modeling (3)
course: Urban Transportation Planning (3)
Multi-disciplinary Courses
course: Integrated Highway Bridge Design Using LRFD Method (3)
Additional Requirements
Must be a Civil Engineering Undergraduate student to be able to apply to this program.
Have applied to the CE Undergraduate AMP program in their senior year before applying to this graduate program.
30
Minimum Credit Hours - 30
Minimum GPA - 3.00
Construction Management
course: Construction Project Planning, Scheduling, and Control (3)
course: Construction Cost Estimating (3)
course: Construction Equipment and Methods (3)
Engineering Mechanics
course: Elasticity Theory and Application (3)
course: Fracture Mechanics (3)
course: Mechanical Behavior of Materials II - Special Topics (3)
course: Wave Propagation in Solids (3)
Courses outside of department:
course: Advanced Engineering Analysis (3)
course: Advanced Engineering Analysis (3)
course: Mechanics of Deformable Solids (3)
course: Mechanics of Deformable Solids (3)
course: Artificial Intelligence (3)
course: Neural Networks (3)
course: Engineering Statistics (3)
course: Nonlinear Optimization (3)
Geotechnical
course: Foundation Engineering (3)
course: Earth Structures in Geotechnical Engineering (3)
course: Ground Improvement (3)
course: Special Topics in Geomechanics (3)
course: Geoenvironmental Engineering (3)
course: Geotechnical Earthquake Engineering (3)
course: Numerical Methods in Geotechnical Engineering (3)
Courses outside of department:
course: Geophysical Exploration and Engineering (3)
course: Rock Excavation
course: Geomechanics (3)
course: Underground Construction Geomechanics (3)
course: The Mechanics of Fracture in Rock and Other Brittle Materials (3)
Hydraulics
course: Open-Channel Flow (3)
course: Hydrology (3)
course: Sedimentation Engineering (3)
course: Computer Applications in Hydraulics (3)
course: Special Topics in Hydraulics and Water Resources Engineering (3)
Courses outside of department
course: Watershed Engineering (3)
course: Soil and Water Resources Engineering (3)
course: Irrigation Systems Design (3)
course: Wastewater Treatments Operations and Reuse (3)
course: Design of Onsite Wastewater Treatment and Dispersal Systems (3)
course: Water Chemistry for Engineers (3)
course: Fate and Transport Processes in Environmental Engineering (3)
course: Water Treatment System Design (3)
course: Microbiology for Engineers (3)
course: Introduction to Hazardous Waste Management (3)
course: Advanced Water and Wastewater Treatment (3)
course: Subsurface Fluid Dynamics(3)
course: Water Resources Systems Planning and Management (3)
course: Fundamentals: Systems Approach to Hydrologic Modeling (3)
course: Risk Assessment for Environmental Systems (3)
course: Statistical Hydrology (3)
course: Economics of Water & Environmental Markets & Incentive-based Policies (3)
course: Advanced Topics in Water Resource Economics and Policy (3)
course: Analysis of Hydrologic Systems (3)
course: Stochastic Methods in Surface Hydrology (3)
course: Advanced Geographic Information Systems (3)
course: Spatial Analysis and Modeling(3)
course: Law for Engineers/Scientists (3)
course: Engineering Decision Making Under Uncertainty (3)
course: Fundamentals of Data Science for Engineers (3)
course: Survey of Optimization Methods (3)
course: Project Management (3)
course: Model-Based Systems Engineering (3)
Structures
course: Probability in Civil Engineering (3)
course: Advanced Structural Design in Steel (3)
course: Design of Wood and Masonry Structures (3)
course: Prestressed Concrete Structures (3)
course: Advanced Structural Design in Concrete (3)
course: Behavior and Design of Structural Systems (3)
course: Infrastructure Rehabilitation (3)
course: Reinforced Concrete (3)
course: Advance Structural Stability (3)
course: 633 Structural Dynamics and Earthquake Engineering (3)
course: 634 Advanced Structural Dynamics (3)
Courses outside of department:
course: Advanced Engineering Analysis (3)
course: Advanced Engineering Analysis (3)
course: Computational Multibody Dynamics (3)
course: Introduction to Advanced Control Theory (3)
course: Advanced Vibration (3)
course: Finite Element Methods (3)
course: Mechanics of Deformable Solids (3)
course: Mechanics of Deformable Solids (3)
course: Design Optimization (3)
course: Intro to Machine Learning (3)
course: Advanced Linear Systems Theory (3)
course: Engineering Applications of Machine Learning and Data Analytics (3)
course: Digital Signal Processing (3)
course: Probability and Random Processes for Engineering Applications (3)
course: Engineering Materials: Properties and Selection (3)
Transportation
course: Special Topics in Transportation Engineering (3)
course: Traffic Engineering and Operations (3)
course: Traffic Flow and Capacity Analysis (3)
course: Transportation Data Management and Analysis (3)
course: Highway Geometric Design (3)
course: Traffic Safety (3)
course: Travel Demand Modeling (3)
course: Urban Transportation Planning (3)
Courses outside of department:
course: Big Data Technologies (3)
course: Topics in Data and Web Mining (3)
course: Engineering Statistics (3)
course: Simulation and Analysis (3)
course: Survey Optimization Methods (3)
course: Theory of Statistics (3)
course: Theory of Probability (3)
course: Advanced Statistical Regression Analysis (3)
course: Design of Experiments (3)
Multi-disciplinary Courses
course: Integrated Highway Bridge Design Using LRFD Method (3)
Transfer units: Up to six (6) units for a master’s degree may be transferred from other accredited institutions. To transfer, the coursework must have been taken for graduate credit, and an A or B grade must have been earned. These grades will not be included in the student’s GPA
Thesis option: 24 units of coursework, all are 500 or 600 level courses, and 6 units of course / course: Thesis.
Technical report option: 27 units coursework all 500 or 600 level courses and 3 units for a written engineering report (course / course).
All coursework must be in courses graded A, B or C except for one independent study course. To complete degree requirements, the cumulative GPA in graduate level courses must be greater than 3.0. A student whose GPA falls below 3.0 will not be permitted to register for additional courses (see Graduate College Policies online at https://grad.arizona.edu/catalog/).
Final exam. Scheduling of the final oral examination and the satisfaction of all requirements relating to this examination are the sole responsibility of the student.
Please refer to the Graduate Student Handbook for students who are pursuing this program of study.