GEOL 593

Spring 2023 All Classes

All Classes

Credit: 1 TO 8 hours.

Work may be taken in the following fields: (a) general geology; Field trip fee may be required for this section. (b) engineering geology; (c) geomorphology and glacial geology; (d) clay mineralogy; (e) ground-water geology; (f) geomicrobiology; (g) geological fluid dynamics; (h) mineralogy and crystallography; (i) paleontology; (j) geochemistry: (k) geophysics; (l) petrography and petrology; (m) sedimentology; (n) stratigraphy; (o) oceanography; (p) submarine geology; (q) structural geology and geotectonics; (r) mathematical geology; (s) sedimentary petrography; (t) petroleum geology; (u) coal geology; (v) isotope geology and geochronology; (w) electron beam analysis; (x) vulcanology; (y) environmental geology; and (z) planetology.

Additional fees may apply. See Class Schedule. Approved for both letter and S/U grading. May be repeated.

GEOL 593 class schedule data for spring 2023
CRN Type Section Time Day Location Instructor Section Details
10267
Independent Study
ARRANGED
n.a.
Location Pending
Part of Term:
1
Date Range:
01/17/23-05/03/23
Special Approval:
Instructor Approval Required
71041
Conference
A2
1:00PM -2:50PM
W
2084 Natural History Building
Anders, A
Cidell, J
Part of Term:
1
Date Range:
01/17/23-05/03/23
Credit:
1 hours
Section Title:
Writing Workshop
Section Info:
This class is a combination of writing and talking about academic writing in a multidisciplinary setting. Each week, we will set aside time to work on our current writing projects in a quiet environment. Afterwards, we will discuss the principles and practices of good academic writing, including individual development plans, term and weekly plans, structuring research articles, and dealing with rewrites and rejects. S/U graded.
74139
Lecture
K1
9:30AM -10:50AM
TR
G17 Foreign Languages Building
Maguire, R
Part of Term:
1
Date Range:
01/17/23-05/03/23
Credit:
4 hours
Section Title:
Seismology and Earth Structure
Section Info:
In this course, we will cover a variety of methods that seismologists use to probe the structure and dynamics of the interior of Earth and other planetary bodies. A wide range of topics will be explored including the fundamentals of seismic wave propagation, seismic imaging, and earthquake source inversion. The course will consist of lectures and computer-based assignments aimed at giving practical experience with seismic analysis methods used in modern research. 4 credit hours.
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