Complete all courses and requirements listed below unless otherwise indicated.

Core Requirements

CIVE 7330Advanced Structural Analysis4
CIVE 7331Structural Dynamics4

Options

Complete one of the following options:

Coursework Option

Complete 12 semester hours from the restricted electives below.12
Complete 12 semester hours from the other electives below.12

Project Option 

CIVE 7945Master’s Project4
Complete 12 semester hours from the restricted electives below.12
Complete 8 semester hours from the other electives below.8

Thesis Option 

CIVE 7945Master’s Project4
CIVE 7990Thesis4
Complete 12 semester hours from the restricted electives below.12
Complete 4 semester hours from the other electives below.4
In addition to completing the thesis course, students must successfully complete the thesis submission process, including securing Committee and Graduate School of Engineering signatures and submission of an electronic copy of their MS Thesis to ProQuest.

Course Lists

Restricted Electives List 

Structural Systems Modeling
Dynamics and Control of Infrastructure Systems
Advanced Foundation Engineering
Earthquake Engineering
Seismic Analysis and Design
Structural Reliability
System Identification
Behavior of Concrete Structures
Behavior of Steel Structures
Wind Engineering
Advanced Bridge Design
Advanced Structural Mechanics
Special Topics in Civil Engineering (Random Data and Processing)

Other Electives List 

Any restricted elective not used to meet the restricted elective requirement can be taken as another elective.

Life Cycle Assessment of Materials, Products, and Infrastructure
Structural Systems
Vibration-Based Structural Health Monitoring
Prestressed Concrete Design
Data-Driven Decision Support for Civil and Environmental Engineering
Urban Informatics and Processing
Advanced Soil Mechanics
Soil and Foundation Dynamics
Probability 1
Mathematical Statistics
Applied Statistics
Properties and Processing of Electronic Materials
Computer Aided Design and Manufacturing
Advanced Mechanics of Materials
Elasticity and Plasticity
Dynamics and Mechanical Vibration
Finite Element Method 1
Continuum Mechanics
Control Systems Engineering
Mathematical Methods for Mechanical Engineers 1
Finite Element Method 2
Sustainable Design and Technologies in Construction
Sustainable Engineering Systems for Buildings

Optional Co-op Experience 

Complete the following. Students must complete ENCP 6100 to qualify for co-op experience:
ENCP 6100Introduction to Cooperative Education1
ENCP 6964Co-op Work Experience0
or ENCP 6954 Co-op Work Experience - Half-Time
or ENCP 6965 Co-op Work Experience Abroad
or ENCP 6955 Co-op Work Experience Abroad - Half-Time

Program Credit/GPA Requirements

32 total semester hours required (33 with optional co-op)
Minimum 3.000 GPA required