GEOL 574
HYDROGEOLOGY
Catalog Entry
GEOL 574. Hydrogeology
Three hours lecture; three hours laboratory (4).
Prerequisites: Graduate standing, eight hours of geology, and three hours of calculus. Minimum of one semester of physics is strongly recommended.
Taught concurrently with GEOL 474 with additional project requirements for graduate credit.
Detailed Description of Content of Course
The content of this course consists of fundamentals of surface and subsurface water movement and water quality. It is comparable to the standard basic course in hydrogeology given at most universities and follows the general scope and sequence of topics in the leading graduate textbooks on the subject.
The first quarter of the course encompasses the hydrologic cycle and surficial water. The remainder of the course is an in-depth study of groundwater. Emphasis is placed on fundamental principles and the physics and mathematics of flow of water through channels and porous media. Practical applications are presented as an introduction to water-resource investigation, including solving problems in water availability and exploration.
The laboratory part of the course emphasizes the analysis of experimental data and the assimilation of results into well-organized reports with graphical and quantitative representations.
The following topics are covered in this order:
Specific work required for graduate credit includes additional projects and/or papers beyond the normal course activities.
Detailed Description of Conduct of Course
The course emphasizes quantitative methods. This includes problem solving, unit conversions, graphing of data, and written analysis and conclusions. Lectures present the various principles of water flow and develop the theoretical basis for each topic. Problems assigned in class, from the course textbook, and as handouts reinforce these concepts. Problems involve an understanding of algebra, geometry, and trigonometry. The student is expected to spend a substantial amount of time solving the assigned problems. An understanding of the principles and the ability to use the appropriate mathematics are essential for success on the examinations. The problem sets are graded.
Goals and Objectives of Course
(1) Students will better understand the scope and complexities of the study of surface
and groundwater.
(2) Students will learn the theory of water flow through the derivation of the most
significant equations and mathematical relationships. They will appreciate both the
applications and limitations of these equations.
(3) Students will develop analytical techniques through problem solving. They will
appreciate detailed, quantitative problem solving and develop an understanding of
state of the art quantitative techniques such as computer modeling and chemical analysis
of water samples.
(4) Students will use experimental laboratory and field techniques. They will learn
how the theory is applied by practicing hydrogeologists towards real problems in various
geologic settings.
(5) Students will come to understand the needs of society for qualified hydrogeologists
to help prevent and mitigate environmental problems. They will become familiar with
the role of the hydrogeologist in the planning process during economic growth and
development.
Assessment Measures
The student is evaluated in every aspect of his or her work. There are three or four major examinations in the course. These include short-answer questions, brief written explanations, and quantitative problems to solve. Homework problem sets, laboratory exercises, and the research paper are graded. The attitude, preparation, and participation of the student in class and on fieldtrips are assessed as well.
Other Course Information
This course is one of the core courses required for the Master of Science in Engineering Geosciences.
Approval and Subsequent Reviews
Date Action Reviewed by
March 1999