 | Select the Course Number to get further detail on the course. Select the desired Schedule Type to find available classes for the course. |
| ATS 516 - Computer Methods In Atmospheric Sciences |
|
Intermediate computer techniques currently used in atmospheric science.
Emphasis on graphic methods, fundamental techniques of numerical
prediction, parallel processing, and artificial intelligence.
Applications of these methods to short-term forecasting. P: ATS 315.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 531 - Operational Prediction Models |
| Examination of the use of forecast models from
the National Meteorological Center (ETA, Spectral, NGM). Additional
models from other sources will also be examined (UKMET, ECMWF, USAF,
and USN). Study of model domain, resolution and formation with respect
to physical processes. Model performance is described and scrutinized
(with respect to systematic errors and to particular synoptic
situations). Comparative diagnostics of forecast and observed fields
employed to examine model behavior. P: ATS 562 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 532 - Objective Meteorological Analysis |
| Application of techniques and principles for
temporal and spatial computer analysis of atmospheric data based on
dynamical concepts, with a focus on the structure, movement, and
development of weather systems. Topics include data time series,
statistical inference techniques, Fourier analysis, and map projections
and grid systems used in meteorology. P: ATS 571 and computer
programming.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 533 - Physical Climatology and Climate Change |
| This course stressed the theories and models of
natural climate change and of that induced by human beings. The ethical
issues of inadvertent and planned change of climate by humans will be
raised. Major topics include effects of CO2 warming (greenhouse
effect), ozone depletion; human-induced desertification; acid rain;
urban microclimates. Methods of monitoring these systems will be
stressed relative to an increased world-wide need to limit or prevent
human-induced climate changes.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences |
| ATS 541 - Atmospheric Diffusion, Air Pollution, And Environmental Impact Analysis |
| Survey of the theoretical and practical aspects
of diffusion, dispersion, and turbulent transport of pollutants in an
atmospheric boundary layer. Includes observational and instrumentation
techniques; plume models; regional pollution transport; and diffusion
from point, line and area sources. Chemical and physical
transformations of the pollutants, precipitation scavenging, and dry
deposition are studied. Reviews Federal environmental laws, air quality
standards, environmental impact assessments, ethics, and guidelines for
writing environmental impact statements. P: ATS 113 or equiv.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 542 - Radar Remote Sensing |
| The theoretical and practical aspects of weather
radar. Stress placed on the capabilities and limitations of severe
storm investigation. P: MTH 245; PHY 212; or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: CCAS_Certified Writing, College of Arts and Sciences, Upper Division |
| ATS 544 - Hydrology |
| Study of the waters of the earth, especially with
relation to the effects of precipitation and evaporation upon the
occurrence and character of water in streams, lakes, and on or below
the land surface. In terms of hydrologic cycle, the scope of this
course may be defined as that portion of the cycle from precipitation
to reevaporation or return of the water to the seas. P: ATS 113 or 231.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 545 - Mesoscale Analysis |
| Examination of the theory of convection as
related to models of squall lines and thunderstorms and the application
of this theory to the forecasting and analysis of sub-synoptic scale
systems. P: ATS 562 & 571.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 548 - Introduction to Solar-Terrestrial Environment |
| Course designed to acquaint the student with the
basic phenomenology associated with solar processes and activity, and
the impact of these processes upon the earth and its atmosphere.
Designed to familiarize the student with the concepts of upper
atmospheric energetic processes and their influences upon everyday
activities. P: MTH 246 & PHY 212.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 552 - Boundary Layer Meteorology |
| Structure of the boundary layer, surface energy
budget, vertical profiles of temperature, humidity and wind,
turbulence, Monin-Obukhov theory. Determination of surface heat and
moisture fluxes. Some discussion of applications to diffusion and
dispersion of substances in the atmosphere. P: ATS 572 or equiv.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 553 - Tropical Meteorology |
| Characteristics of the tropical atmosphere
including convection, boundary layer processes, local and diurnal
weather phenomena, mesoscale tropical systems, tropical storm
structure, and energetics. This course relies heavily on satellite
interpretation of tropical cloud systems. P: ATS 113.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 555 - Meteorological Remote Sensing |
| First section of the course is devoted to
meteorological interpretations of cloud fields as observed from weather
satellites. Second section of the course devoted to examination of
general and specific applications of remote sensing of the environment.
Includes imagery from satellite, ground based, and airborne systems;
data analysis and decision methods; multispectral analysis and
evaluation of water, terrain, mineral, forest, and soil resources. P:
EVS/ ATS 113 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 556 - Introduction To Physical Oceanography |
| Geomorphology of the ocean bottom; properties of
sea water, salinity and temperature distributions; major ocean currents
and circulations; equations of motion, horizontal wind-driven currents;
thermohaline circulations; wind waves and swell.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 561 - Synoptic Meteorology I |
| Examination of weather code, plotting and map
analysis. Includes a review of cyclone and frontal theory using case
studies to develop diagnostic and forecasting techniques. Practical
applications of air mass and frontal analysis are related to weather
forecasting. P: ATS 113 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 562 - Synoptic Meteorology II |
| Detailed examination and use of fax charts, PC
McIdas displays, and other tools employed in analysis and forecasting.
Review of methods in short-term, medium and long-range forecasting. P:
ATS 561 or IC.
4.000 Credit Hours 4.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 564 - Statistical Applications In The Atmospheric Sciences |
| Study of the statistical distributions of scalars
and vectors, sampling theory, regression, correlation, and time series.
Applications to statistical forecasting and forecast verification. P:
MTH 245.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 565 - Atmospheric Circulation Systems |
| Examination of the general circulation of the
atmosphere. Emphasis on seasonal variation in both hemispheres.
Exploration of formation of anomalous circulation types with respect to
anomalous boundary layer conditions. Detailed discussion of
tropical-mid latitude interactions. P: ATS 562 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 566 - Climate Theory |
| Theories of global climate and variability.
Examination of climate models, including internal and external
parameters and feedback mechanisms. P: ATS 113, 561.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences |
| ATS 571 - Dynamic Meteorology I |
| Equations of motion and thermodynamics will be
vigorously derived and applied to the atmosphere. Topics include
thermodynamics of dry and moist air, hydrostatic and hypsometric
approximations, geostrophic and gradient wind balance, mass continuity,
and vorticity. P: PHY 213; MTH 246.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 572 - Dynamic Meteorology II |
| Concepts presented in ATS 571 will be further
developed and applied to the following topics: barotropic and
baroclinic instability, atmospheric oscillations, quasi-geostrophic
theory, and simple numerical modeling. P: ATS 571.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 573 - Cloud Physics And Dynamics |
| Thermodynamic processes which control the
development and growth of clouds. Relationship between atmospheric
properties and cloud structure. Distribution of condensation nuclei,
water droplet spectra. Initiation and growth of cloud hydrometers.
Structure of severe storms, radiative effects of clouds. P: ATS 571.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 574 - Stratospheric Dynamics |
| Study of the principles governing atmospheric
motions in the stratosphere. Includes a brief review of chemical
processes, radiative effects, and the resulting thermal structures that
govern the mean stratospheric circulation; forcing mechanisms and
conditions for wave generation in the stratosphere; discussions of
sudden warmings, quasi-biennial and semiannual oscillations, and
tropical wave phenomena in the stratosphere. P: ATS 571.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School, Undergraduate Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: CCAS_Certified Writing, College of Arts and Sciences, Upper Division |
| ATS 615 - Radar And Severe Storms |
| Examination of the fundamentals of weather radars
(coherent and noncoherent) and their application to detecting severe
storms. Topics include properties of electromagnetic waves; radar
detection of spherical particles; use of radar for quantitative
measurement of precipitation; radar beam characteristics; the use of
radar in mesometeorology; the study of severe storms; Doppler weather
radar; theory and recent developments applied to severe storm detection
and warning. P: ATS 545 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 624 - Advanced Dynamics I |
| Detailed examination of the fundamental physical
processes occurring in the atmosphere through the use of thermodynamic
and hydrodynamic equations. Subjects treated include geophysical and
fluid mechanics, geostrophic adjustment, nongeostrophic baroclinic
instability, energetics, and equatorial general circulation. P: ATS 572
or equiv.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 625 - Advanced Dynamic Meteorology II |
|
Continuation of ATS 624. P: ATS 624.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 626 - General Circulation |
| The course will apply the fundamental principles
of dynamic meteorology and energetics of the atmosphere to explain the
major features of the observed general circulation. Explores tropical
mid-latitude interactions and anomalous circulation types. P: ATS 571
or equiv.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 631 - Numerical Weather Prediction |
| Descriptive and mathematical foundations for
numerical weather prediction. History of numerical weather prediction,
analysis and initialization methods, the governing equations and
analytic solutions to simplified forms of these equations, finite
differentiating techniques and problems in numerical weather
prediction. P: ATS 572.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 632 - Advanced Numerical Weather Analysis And Prediction |
| Theory of analysis techniques such as spectral
analysis and optimal interpolation; conventional gridpoint, spectral,
and fine-element models; map projections; the principle of statistical
correction to model forecasts and stochastic-dynamic prediction.
Practical experience in numerical forecasting is obtained through a
project in which a numerical model is developed and numerical methods
are applied. P: ATS 631 or equivalent.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 642 - Physical Meteorology |
| This course examines the physical properties of
the atmosphere. The course begins with a general description of the
physical properties of the global Earth atmosphere, both horizontally
and vertically. Atmosphere thermodynamics are discussed in detail
including: the dry and moist atmosphere, diabatic and adiabatic
processes and Newton's 2nd law, hydrodynamic stability and atmospheric
instability, solar and terrestrial radiation, cloud microphysical and
optical properties are all thoroughly examined. This course is designed
to meet the National Weather Service requirement for 3 semester hours
of Physical Meteorology.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences |
| ATS 643 - Radiation Through The Atmosphere |
| Introduction to the physical processes of
radiation and the theory of radiative transfer through the atmosphere,
including definitions, basic radiation laws, absorption, emission, and
scattering processes; the radiative transfer equation; and simple
solutions. Applied to visible, infrared and microwave radiation, with
special emphasis on providing the background necessary for
understanding theory and techniques of remote sensing. P: Two semester
of calculus.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 644 - Remote Sensing Theory |
| Provides theoretical background for further work
in remote sensing of the earth and atmosphere. Topics include
electromagnetic theory; Maxwell?s equations; the absorptive and
emissive properties of the earth-atmosphere system; the scattering
properties of the atmosphere, including Mie scattering, calculations of
forward radiative transfer and inversion of radiation measurements. P:
Two semesters of calculus.
3.000 Credit Hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 646 - Current Topics In Remote Sensing |
| Advanced course in remote sensing, including the
latest work in atmospheric temperature and constituent analysis and in
terrestrial and oceanographic sensing.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 647 - Solar-Terrestrial Relationships |
| Basic features of solar activity, the solar wind,
and effects of the sun on the earth beginning with an overview of
stellar evaluation. Class lectures will trace the processes as solar
energy is transported into space and the earth's atmosphere. Includes
introductory solar physics, magnetospheric dynamics, and thermospheric
and ionospheric processes.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 652 - Atmospheric Boundry Layers And Turbulence |
| The conservation equations of heat, moisture,
mass, and momentum for the lowest two kilometers of the earth's
atmosphere are expanded into mean and turbulent components and scaled
to the boundary layer. Closure approximations and the statistical
nature of turbulence are discussed. Observations of turbulent boundary
layers are reviewed and compared with theoretical predictions.
Similarity models are applied to the surface layer and parametric
models are applied to the mixed layer.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 660 - Advanced Terrestrial Remote Sensing |
| This course covers the technique and applications
of observing the Earth from air- and space-bourne instruments. We will
cover basic issues of geometry and scale associated with making these
measurements, electromagnetic properties of Earth surface materials,
the range of instruments used to observe the Earth, and applications of
satellite remote sensing to geological, environmental, and atmospheric
questions. The course will involve substantial research project
utilizing remote sensing data and software. Graduate students will also
be expected to do an oral presentation to be arranged with the
instructor.
4.000 Credit Hours 4.000 Lecture hours Levels: Graduate School Schedule Types: Lab, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 663 - Weather Systems Analysis |
| Application of fundamental analysis and
diagnostic strategies to weather systems. Topics include meteorological
data sources and errors, scalar analysis, cross-section and isentropic
analysis, surface and upper air analysis, kinematic analysis,
deformation and frontogenesis, quasi-geostrophic and isentropic
potential vorticity diagnostics. Case studies of major weather systems
are employed to demonstrate various analysis strategies and to
synthesize a coherent picture of weather system structure and the
processes that create that structure. Emphasis on computer assisted
analysis and diagnosis. P: ATS 571 or IC.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 666 - Climate Theory |
| Theories of global climate and climate
variability. Climate models (including internal and external
parameters) and feedback mechanisms will be developed and examined. P:
ATS 561 and 562 or equiv.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 670 - Current Topics In Atmospheric Sciences |
| Examination of topics of current interest in the
atmospheric sciences. Course may include but not be limited to such
areas as aeronomy, weather modification, interactive computer graphics,
synoptic-scale forecasting and analysis, meso- and micro-scale
meteorology, meteorological instrumentation, military applications of
the atmospheric sciences; meteorology of other planets, and aerology
and atmospheric physics.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Independent Study, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 674 - Aeronomy |
| Basic features of the technical disciplines
comprising the field of aeronomic studies. Starting with an overview of
solar processes and phenomena, class lectures will trace the processes
as solar energy is transported into space and into the earth's
atmosphere. Includes introductory solar physics, magnetospheric
effects, thermospheric and ionospheric processes, and special optical
phenomena, e.g., aurora and airglow. Students will be exposed to a wide
spectrum of highly specialized technical areas with the intent of
directing them into more advanced, specialized, in-depth studies. P:
ATS 571.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 675 - Advanced Stratospheric Dynamics |
| Course designed to acquaint the student with the
diverse dynamic processes responsible for forming and maintaining the
earth's stratosphere. Topics discussed include the radiative and
chemical processes responsible for creating the region, periodic
changes observed and their significance, and techniques used to measure
and observe phenomena in this region. Depending upon the experience
levels of the students enrolled, individual specialized exercises may
be added to the usual lectures to increase the student's involvement
and understanding.
3.000 Credit Hours 3.000 Lecture hours Levels: Graduate School Schedule Types: Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 793 - Directed Independent Readings |
| One or more students will follow a series of
readings, as specified by a faculty member, on a single topic or a
range of associate topics. This allows students to explore topics not
offered in the current courses or to pursue more advanced study in an
area covered in a previous course. A maximum of three semester hours
may be taken. P: IC.
1.000 TO 3.000 Credit Hours 1.000 TO 3.000 Lecture hours Levels: Graduate School Schedule Types: Independent Study, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 795 - Directed Independent Study |
| Advanced study in a specific area of interest to
the faculty and students. During the course of their research, students
are expected to set up scheduled meetings with their advisers. At the
end of his/her study, the student will give an oral presentation which
highlights the final study report. P: IC.
1.000 TO 3.000 Credit Hours 1.000 TO 3.000 Lecture hours Levels: Graduate School Schedule Types: Independent Study, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 797 - Directed Independent Research |
| Each student, supervised by a specific faculty
member, pursues in-depth reading and research on a single topic. At the
end of the project, the student will make a presentation with the
research. A paper of publishable quality and length is to be prepared
by the student, to the satisfaction of the research committee. In this
manner, the student is introduced to scientific research methods and
encouraged in the development of both verbal and written communication
skills. P: IC.
1.000 TO 3.000 Credit Hours 1.000 TO 3.000 Lecture hours Levels: Graduate School Schedule Types: Independent Study, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
| ATS 799 - Master's Thesis |
| Research in connection with the preparation of
the Master's thesis. Students must register for this course in any term
when engaged in formal preparation of the Master's thesis; however, six
credit hours are the maximum applicable toward the degree. P: IC.
1.000 TO 3.000 Credit Hours 1.000 TO 3.000 Lecture hours Levels: Graduate School Schedule Types: Independent Study, Lecture College of Arts and Sciences College Atmospheric Sciences Department Course Attributes: College of Arts and Sciences, Upper Division |
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