Courses - Fall 2026
ENCE100
Introduction to Civil and Environmental Engineering
Credits:
1
Grad Meth:
Reg, P-F, Aud
An overview of the department of Civil and Environment Engineering. Students are introduced to the undergraduate curriculum and will be exposed to other undergraduate and graduate students at various points in their program. The course blends panel presentations by seniors and graduate students, faculty and practitioners with a project and book review to be performed by the students.
ENCE202
Engineering Drawings and Design for Civil and Environmental Engineers
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- in ENES100, ENES102, and MATH141.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Department.
Credit only granted for: ENCE202 or ENCE200.
Formerly: ENCE200.
Provides students with the knowledge and skills to read, interpret, and create civil engineering drawings using computer-aided drafting. Emphasis is placed on engineering calculations related to slopes, inverts, and contours. In addition, students will develop core skills in data visualization, basic programming logic, and professional communication. The course integrates teamwork exercises and real-world scenarios to enhance students' understanding of constructability and design communication. By the end of the course, students will create a complete engineering drawing package.
ENCE203
Data Models and Numerical Computing for Civil Engineers
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- or better in ENES220 and MATH241.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Departmen.
Credit only granted for: ENCE201 or ENCE203.
Formerly: ENCE201.
Introduces students to numerical methods and scientific computing with a focus on civil engineering applications. Through hands-on programming with Python, students will learn to model and analyze civil infrastructure systems. Topics include numerical solutions to linear and nonlinear equations, matrix operations, function approximation, numerical differentiation and integration, and the solution of ordinary differential equations. The course also explores the management and processing of real-world data for modern civil systems.
ENCE205
Biology for Civil and Environmental Engineers
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: MATH140 or equivalent.
Restriction: Must be in the Civil Engineering program; or permission of the Civil and Environmental Engineering Department.
Credit only granted for: BIOE120 or ENCE205.
Introduction to the functions and interactions of biological systems in civil and environmental engineering systems in the context of societal issues. The course includes an introduction to biotechnological principles from a quantitative perspective, modern experimental techniques in biotechnology and methods of data analysis. Roles for civil and environmental engineers in society seen from a biotechnological perspective, and the role of biotechnology in civil and environmental engineering will be elucidated. The role of biotechnology in other engineering disciplines will also be discussed.
ENCE215
Engineering for Sustainability
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: CHEM135; or students who have taken courses with comparable content may contact the department; and permission of ENGR-Civil & Environmental Engineering Department.
Engineers have a key role to play in planning, designing, building, and ensuring a sustainable future. In this class, a problem-based approach is used to examine fundamentally-based analyses and approaches for engineering as sustainable society, with a focus on sustainable use of energy and materials, sustainable infrastructure solutions, atmospheric sustainability and sustainable water supply, and human population growth and resource consumption and its implications for sustainability.
ENCE303
Probability and Statistics for Civil and Environmental Engineers
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- or better in ENCE203 and MATH243.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Department.
Credit only granted for: ENCE303 or ENCE302.
Formerly: ENCE302.
This course introduces students to the principles of probability, statistics, and simulation as they relate to variability and uncertainty in engineering. Students will explore key topics such as probability distributions, parameter estimation, hypothesis testing, and Monte Carlo simulations. The course emphasizes applying these concepts to real-world engineering decisions, where students will evaluate uncertainties, simulate outcomes, and formulate informed decisions.
ENCE305
Fundamentals of Engineering Fluids
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENES220, PHYS260, and PHYS261; and permission of ENGR-Civil & Environmental Engineering department.
Credit only granted for: BIOE331, ENCE305, ENFP300, or ENME331.
The theoretical bases for fluid statics and dynamics, including the conservation of mass, energy and momentum. Modeling of hydraulic systems are introduced. Emphasis on pipe flow and open-channel hydraulics, with real-world applications.
ENCE310
Introduction to Environmental Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: PHYS260 and ENCE215; and permission of ENGR-Civil & Environmental Engineering department.
Introduction to the physical, chemical and biological systems relating to the quality of water, land and air environments. Fundamental principles will be emphasized, current environmental pollution problems will be examined and methods of pollution abatement discussed.
ENCE312
Engineering Economics and Project Management
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- in ENCE202; and must have completed or be concurrently enrolled in ENCE303.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Department.
Provides students with an understanding of engineering economics and project management in the context of civil engineering projects. Through project-based learning, students will explore the financial and managerial aspects of project delivery, from initial concept to project completion. Topics include cash flow analysis, time value of money, economic decision-making, project scheduling, cost estimation, and risk management. By the end of the course, students will develop the skills to analyze, plan, and manage civil engineering projects, balancing economic viability with technical performance, quality, and safety. The course emphasizes real-world application, integrating industry standards and regulatory requirements.
ENCE325
Introduction to Construction Project Management
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Must be in a major in ENGR-A. James Clark School of Engineering; or must be in a major in ARCH-School of Architecture, Planning, & Preservation; or must be in the Construction Project Management minor. And permission of ENGR-Civil & Environmental Engineering department.
Credit only granted for: BMGT485, ENCE320, ENCE325, INST408O or INST453.
Learn the basic topics in sourcing, planning, financing, designing, contracting, constructing and operating buildings and other facilities in the built infrastructure. Topics include construction economics, design constructability reviews, construction process planning, contracts and procurement strategies, project scheduling and resource utilization, site layout planning, project cost and quality controls, temporary structures, environmental sustainability, project handover procedures, facility operation and management, IT-based tools for construction project and resource management.
ENCE340
Fundamentals of Geotechnical Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENES220; and permission of ENGR-Civil & Environmental Engineering department.
Introductory study of soils in civil engineering. Soil origin, phase relationships and classification schemes. Soil hydraulics: capillary, effective stress, permeability and seepage considerations. Basic stress distribution theories and soil consolidation-settlement analysis. Integration of shear strength evaluation with slope stability analysis. If time permits, topics such as applications in geoenvironmental engineering will be covered.
ENCE353
Introduction to Structural Analysis
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: Permission of ENGR-Civil & Environmental Engineering department; and (MATH246 and ENES220).
The basic tools of structural analysis and design. Design loads. Equilibrium of external and internal forces. Shear and moment diagrams in beams and frames. Truss analysis. Influence line diagrams. The slope-deflection method and method of consistent deformation. Matrix stiffness methods for beams, frames and trusses.
Restricted to students in the College of Engineering.
ENCE360
Analysis of Civil Engineering Systems
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE201 and MATH140; and permission of ENGR-Civil & Environmental Engineering department.
Introduction to systems approach and systems analysis in civil and environmental engineering. Introduction to systems analysis tools that facilitate engineering management decision making including optimization and computer simulation. Introduction to linear and nonlinear mathematical optimization including linear and integer programming, elementary nonlinear programming and dynamic programming.
ENCE365
Materials in Civil Infrastructure
Credits:
4
Grad Meth:
Reg, P-F, Aud
Prerequisite: Minimum grade of C- in ENES220; and must have completed or be concurrently enrolled in ENCE303.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Department.
Credit only granted for: ENCE300 or ENCE365.
Formerly: ENCE300.
This project-based course introduces students to the behavior, design, and performance of materials used in civil infrastructure. Through experimental labs and real-world case studies, students gain hands-on experience testing the mechanical and physical properties of key civil engineering materials, such as concrete, asphalt, aggregates, and stabilized materials. Students will design experiments, collect and analyze data, and apply statistical tools (e.g., regression, ANOVA). Working in teams, students will deliver technical reports and assess sustainability considerations, contributing to solutions for infrastructure challenges in buildings, pavements, foundations, and bridges.
ENCE370
Introduction to Transportation Engineering and Planning
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE201, PHYS260, and PHYS261; and permission of ENGR-Civil & Environmental Engineering department.
Engineering problems of transportation by highways, airways, pipelines, waterways, and railways. Transportation modes and technologies, vehicle dynamics, basic facility design, traffic stream models, capacity analysis, transportation planning, evaluation and choice, and network analysis.
Restricted to students in the College of Engineering.
ENCE411
Environmental Engineering Science
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE205 and ENCE310; and permission of ENGR-Civil & Environmental Engineering department.
Introduces the analytical techniques available to assess performance of engineering processes as they relate to water, soil, and air treatment and quality. The basic principles of environmental management, economics of waste treatment, by-product reutilization, and energy cycles are introduced and discussed. Alternative technologies are introduced and evaluated mostly by assessing their potential to reduce waste, minimize energy use, and promote sustainability. Students' activities include, a weekly lab to provide hands-on experience with environmental quality measurements and treatment techniques; on-site visits to regional industries that undertake sustainable practices; and a final research project where experimental design and laboratory techniques are used to assess interactions between technologies and natural systems and their potential for reducing environmental impacts.
ENCE422
Project Cost Accounting and Economics
Credits:
3
Grad Meth:
Reg, Aud
Prerequisite: Permission of ENGR-Civil & Environmental Engineering department.
Restriction: Must be in a major in ENGR-A. James Clark School of Engineering; or must be in the Construction Project Management Minor; or must be in the Project Management Minor.
Learn: the fundamentals of accounting; project cost accounting principles as they apply to project management; project cost accounting; and the fundamentals of engineering economics.Topics include: project feasibility analysis; reading and analyzing financial statements; cash management; cash flow analysis; depreciation and taxes; and impact on profitability; the principles of activity based costing; net present value analysis; the framework for project performance measurement, cost performance indices, and earned value analysis.
ENCE423
Project Planning, Estimating & Scheduling
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Must be in a major in ENGR-A. James Clark School of Engineering; or must be in the Construction Project Management Minor; or must be in the Project Management Minor. And permission of ENGR-Civil & Environmental Engineering department.
Learn the fundamentals of project planning, estimating, and scheduling. Understand the concepts of planning; to reduce uncertainty, improve efficiency of the operation, to set and meet objectives, and to provide a basis for monitoring and controlling the work. Be introduced to: the concepts of resource definition, assignment and management, and; the basics of project estimating (pricing) methods including global pricing strategies, types of estimates, pricing processes, overhead and profit, and project financing.Learn the basics of project scheduling including; bar charts, network-based methodologies, and linear scheduling techniques. Emphasis is placed on Critical Path Method (CPM) scheduling, a network based methodology. Be exposed to the use of scheduling software and will actually develop a CPM schedule for an actual construction project as part of a semester project.
Restricted to students in the College of Engineering.
ENCE424
Communication for Project Managers
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Permission of ENGR-Civil & Environmental Engineering department.
Restriction: Must be in a major in ENGR-A. James Clark School of Engineering; or must be in the Construction Project Management minor; or must be in the Project Management minor.
Jointly offered with: ENCE614.
Credit only granted for: ENCE424 or ENCE614.
Learn the fundamentals of communications for project managers. Emphasis is on interpersonal and group communications; through voice, electronic, and written messages; project cycle and reports and presentations during this cycle; and communications for employment.
ENCE426
Construction Documentation and BIM Applications in Engineering and Construction
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: Permission of ENGR-Civil & Environmental Engineering department.
Restriction: Must be in a major in ENGR-A. James Clark School of Engineering; or must be in the Construction Project Management Minor; or must be in the Project Management Minor.
Learn the basics of construction documentation methods, with particular emphasis on Building Information Modeling (BIM). Topics include: the fundamentals of assembly, coordination, and maintenance of construction documents and implementation of BIM techniques in the design and construction processes, and; a review of Autodesk, Revit, and Navisworks and other leading BIM software. Lectures from project management faculty supplemented by guest lecturers from the construction industry.
ENCE430
Introduction to Infrastructure and Resilience
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE302; or students who have taken courses with comparable content may contact the department.
Corequisite: ENCE360; or students who have taken courses with comparable content may contact the department.
Jointly offered with ENCE632.
Credit only granted for: ENCE632, ENCE688U, ENCE430 or ENCE489U.
Formerly: ENCE489U.
Develops system-level skills for the planning, design, maintenance, and operation of resilient infrastructure systems. Through this course, we will discuss a variety of infrastructure systems, both public and private, and their role in communities before and after disasters. The themes of the course will be grounded in the four phases of emergency management (mitigation, preparedness, response, and recovery) and the role that infrastructure plays in each. Through these applications areas, we will study a variety of conceptual, analytical, and computational models that support informed decision-making for these systems under uncertainty.
ENCE432
Ground Water Hydrology
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE305; and permission of ENGR-Civil & Environmental Engineering department.
Concepts related to the development of the ground water resources, hydrology, hydrodynamics of flow through porous media, hydraulics of wells and basin-wide ground water development. Fundamentals of ground water pollution are introduced.
Restricted to students in the College of Engineering.
ENCE441
Foundation Design
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE340; and permission of ENGR-Civil & Environmental Engineering department.
Critical review of classical lateral earth pressure theories, analysis of retaining walls and reinforced earth walls, subsurface explorations, bearing capacity and settlement of shallow foundations, design of deep foundations that includes both pile foundations and drilled shafts.
Restricted to students in the College of Engineering.
ENCE444
Experimental Methods in Geotechnical Structural Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE353 and ENCE340; and permission of ENGR-Civil & Environmental Engineering department.
In the geotechnical engineering part of the course, major soils testing and their interpretation including classification, compaction, strength, and compressibility will be undertaken. The structural engineering part of this course covers test planning, loading apparatus, instrumentation, data acquisition and data analysis, as well as basic aspects of structural testing techniques and shake-table test.
ENCE454
Design of Concrete Structures
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE353; and permission of ENGR-Civil & Environmental Engineering department.
Formerly: ENCE451.
Combined bending and compression, development and anchorage of reinforcement, deflections, design of slabs including one-way and two-way, design of footings, retaining walls, introduction to prestressed concrete, design of multi-story buildings.
ENCE465
Civil and Environmental Engineering Design I
Credits:
1
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE201 and ENCE215.
Restriction: Permission of the ENGR-Civil & Environmental Engineering Department.
Provides students an opportunity to develop their skills in project scoping and the development of design proposals. The fundamental concepts are taught using analytical and computational methods, which are necessary for designing and analyzing the sustainability of various engineering processes and technologies. The course provides the methods and skills for understanding the human-environment-infrastructure interactions needed to develop a design proposal.
ENCE470
Highway Engineering
Credits:
3
Grad Meth:
Reg, P-F, Aud
Prerequisite: ENCE302 and ENCE370; and permission of ENGR-Civil & Environmental Engineering department.
Highway location and design, highway engineering economics, traffic engineering, traffic measurement devices and technologies. Includes discussion of technological advances in traffic flow and capacity, such as signal systems, corridor control, automatic driver information, incident detection and autonomous vehicle operation.
Restricted to students in the College of Engineering.
ENCE489
Special Problems in Civil Engineering
Credits:
1 - 4
Grad Meth:
Reg, P-F, Aud
ENCE602
Project Procurement Management
Credits:
3
Grad Meth:
Reg, Aud
Fundamental concepts and techniques for project acquisition and procurement are presented. Students are introduced to the PMBOK Guide six-step procurement process and expected to develop an in-depth understanding of project evaluation, planning, financing, contracting, negotiation, and procurement execution. It will also cover emerging methods, principles, and practices in infrastructure project procurement, including Public-Private Partnerships, Carbon project procurement, and Clean Development Mechanism.
ENCE607
Mastering Agile Project Management
Credits:
3
Grad Meth:
Reg, Aud, S-F
Learn how and why Agile project management is the fastest growing and most successful project management philosophy today. Learn the mechanics of how to design and facilitate projects using pure Agile Scrum and Lean Kanban techniques; The tradeoffs of using hybrid techniques such as Lean Startup, Scaled Agile for the Enterprise, and Disciplined Agile Development. Then go beyond these frameworks to the science beneath with the essential principles to ensure you get the best benefits of Agile project management methods.
ENCE613
Structural Dynamics
Credits:
3
Grad Meth:
Reg, Aud, S-F
Formerly: ENCE653.
Analysis of the dynamic response of structrues and structural components subjected to impact load, transient load, and ground excitations; study of single degree-of-freedom and multi degree-of-freedom systems in classical closed form solution and approximate numerical solution; solution in the frequency domain and the use of finite element method.
ENCE614
Communications for Project Managers
Credits:
3
Grad Meth:
Reg, Aud
Restriction: Must be enrolled in the A. James Clark School of Engineering or the School of Architecture.
Jointly offered with: ENCE424.
Credit only granted for: ENCE424 or ENCE614.
Learn the fundamentals of communications for project managers. Emphasis is on interpersonal and group communications; through voice, electronic, and written messages; project cycle and reports and presentations during this cycle; and communications for employment.
ENCE622
Construction Automation & Robotics
Credits:
3
Grad Meth:
Reg, Aud
Covers advanced technologies leading to redesign and partial or full automation of selected construction processes utilizing industrial robotics. Lectures and presentations will cover topics such as basic robotic technology (robot kinematics and dynamics, industrial manipulators, mobility bases, end effectors, sensors, control systems, and robot task programming), design of automated construction processes, selection of means and methods for automated construction processes, robot ergonomics and safety, calculation of costs and benefits of construction robots in selected applications, engineering and economic feasibility of automation and robotics in the construction industry.
ENCE630
Environmental and Water Resource Systems I
Credits:
3
Grad Meth:
Reg, Aud, S-F
Application of statistical and systems engineering techniques in the analysis of information necessary for the design or characterization of environmental or hydrologic processes; emphasis on the fundamental considerations that control the design of information collection programs, data interpretation, and the evolution of simulation models used to support the decision-making process.
ENCE640
Advanced Soil Mechanics
Credits:
3
Grad Meth:
Reg, Aud, S-F
Prerequisite: ENCE340; or students who have taken courses with comparable content may contact the department.
Introduction to the use of elastic theory in stress and displacement solutions to geotechnical engineering (soil and rock mechanics). The effect of soil moisture (at rest) relative to effective stress principles, capillary and frost. Exact and numeric techniques for the analysis for soil seepage under isotropic and anisotropic conditions. Classical settlement (consolidation) and compressiblility theories, including finite difference solution for vertical and radial drainage.
ENCE650
Process Dynamics in Environmental Systems
Credits:
3
Grad Meth:
Reg, Aud
Formerly: ENCE636.
The fundamentals of heterogeneous equilibria, rates of environmental reactions, and flow and material transport or presented. Applications of these principles will be presented to small and large scale environmental problems involving liquid, gas, and solid phases. Both natural and engineered environmental systems will be examined.
ENCE651
Chemistry of Natural Waters
Credits:
3
Grad Meth:
Reg, Aud, S-F
Credit only granted for: ENCE633 or ENCE651.
Formerly: ENCE633.
Application of principles from chemical thermodynamics and kinetics to the study and interpretation of the chemical composition of natural waters is rationalized by considering metal ion solubility controls, pH, carbonate equilibria, adsorption reactions, redox reactions and the kinetics of oxygenation reactions which occur in natural water environments.
ENCE652
Microbiological Principles of Environmental Engineering
Credits:
3
Grad Meth:
Reg, Aud, S-F
Credit only granted for: ENCE637 or ENCE652.
Formerly: ENCE637.
An examination of microbiological principles directly affecting humans and the surrounding environment. Special emphasis is given to the understanding of microbial physiology and in environmental engineering related to water and land systems including aerobic and anaerobic treatment processes involved in nutrient/waste recycling as well as impact of xenobiotic compounds on processes water, soil and sediment.
ENCE662
Introduction to Project Management
Credits:
3
Grad Meth:
Reg, Aud
Introduction to project management including: overview and concepts of project management (principles, body of knowledge, strategies); planning successful projects (defining, specifying, delivery options, scheduling, budgeting); implementing (organizing the team, work assignments, team building, effective leadership); executing (performance measurement, maintaining the schedule, adjustments/mid-course corrections, record keeping, status reporting, communications, managing conflict, time management); and closeout(performance measurement, maintaining the schedule, adjustments/mid-course corrections, record keeping, status reporting, communications, managing conflict, time management).
ENCE664
Legal Aspects of Engineering Design and Construction
Credits:
3
Grad Meth:
Reg, Aud
Examines ways in which the legal system affects the design and construction process. Focuses on contract types and the relationships between the parties in different delivery systems. Covers basics of procurement protocols along with negotiating techniques and strategies. Topics include contract law, the relationships between the parties, tort and negligence law, and the statutory principles affecting construction.
Weekly video conference after 7:50 p.m.
ENCE666
Cost Engineering and Control
Credits:
3
Grad Meth:
Reg, Aud
Analytical techniques to estimate and control project costs, including site investigation, quantity takeoff, work analysis, and bid preparation. Systematic cost control as related to job production and historical data. Includes the fundamentals of different types of cost estimating, the appropriate use of each, and examination of popular software. This course is designed to help students develop the ability to utilize techniques of cost estimating, cost and schedule control and project management as they apply to engineering and construction work. Students will understand why it is crucial to understand the various types of cost estimating and the appropriate use of each, activity-based costing, conceptual estimating and budgeting, unit cost estimating, parametric estimating, detailed estimating, learning curves and progress functions.
ENCE670
Highway Traffic Characteristics and Measurements
Credits:
3
Grad Meth:
Reg, Aud
The study of the fundamental traits and behavior patterns of road users and their vehicles in traffic. The basic characteristics of the pedestrian, the driver, the vehicle, traffic volume and speed, stream flow and intersection operation, parking, and accidents.
ENCE672
Regional Transportation Planning
Credits:
3
Grad Meth:
Reg, Aud
Factors involved and the components of the process for planning statewide and regional transportation systems, encompassing all modes. Transportation planning studies, statewide traffic models, investment models, programming and scheduling.
ENCE688F
Advanced Topics in Civil Engineering; Teaching and Learning Practicum
Credits:
1 - 3
Grad Meth:
Reg, Aud, S-F
ENCE688I
Advanced Topics in Civil Engineering
Credits:
3
Grad Meth:
Reg, Aud, S-F
ENCE688X
Advanced Topics in Civil Engineering; Fundamentals of Probability and Statistics for Civil Engineering Research
Credits:
3
Grad Meth:
Reg, Aud
Prerequisites: Calculus, linear algebra, basic knowledge of coding language (MATLAB, R, or Python).
This class provides graduate students in civil engineering with the foundational knowledge of probability and statistics needed to embark on more advanced study. The approach to probability and statistics is tailored to the problems typically encountered in civil engineering applications. In addition, this course allows students to enhance their skills in processing, visualizing, and analyzing data using widely accepted coding environments.
This class provides graduate students in civil engineering with the foundational knowledge of probability and statistics needed to embark on more advanced study. The approach to probability and statistics is tailored to the problems typically encountered in civil engineering applications. In addition, this course allows students to enhance their skills in processing, visualizing, and analyzing data using widely accepted coding environments.
ENCE689
Seminar
Credits:
1 - 16
Grad Meth:
Reg, Aud
Majors only. Other majors require permission of department.
ENCE799
Master's Thesis Research
Credits:
1 - 6
Grad Meth:
S-F
Majors only. Other majors require permission of department.
ENCE898
Pre-Candidacy Research
Credits:
1 - 8
Grad Meth:
Reg
ENCE899
Doctoral Dissertation Research
Credits:
6
Grad Meth:
S-F
Majors only. Other majors require permission of department.
Flagship Institution of the University System of Maryland
University of Maryland, College Park, MD 20742, USA
/
Phone:
301.405.1000
Copyright
© 2026 University of Maryland
/
Privacy /
Web Accessibility
Contact us
with comments, questions and feedback
/