Department of Earth and Atmospheric Sciences

Bachelor of Science in Atmospheric Science

Students on Summer 2020, Fall 2020, or Spring 2021 requirements ATSCIBS

View Degree MapA semester-by-semester path to completing degree and major requirements

Requirements

The major requires at least 30 credit hours (59 with the Addenda Requirements), including the requirements listed below.

Introductory Course. One (1) course:
- EAS-E 104 Evolution of the Earth
- EAS-E 105 Earth: Our Habitable Planet
- EAS-E 111 Journey to the Center of the Earth
- EAS-E 116 Our Planet and Its Future
- EAS-E 118 Sustainability in Water Resources
- EAS-E 121 Origin and Evolution of Mars and Rocky Planetary Bodies
- EAS-E 122 Earth's Dynamic Atmosphere
- EAS-E 131 Oceans and Our Global Environment
- EAS-E 138 Geology of State and National Parks Revealed
- EAS-E 141 Earthquakes and Volcanoes
- EAS-E 144 Extreme Weather and Its Impacts
- EAS-E 171 Environmental Geology in the Twenty-first Century
EAS-E 104 Evolution of the Earth
Credits
3
Prerequisites
None
Description
Earth's history interpreted through 4.5 billion years. Deductive approach to understanding the significance of rocks and fossils and reconstructing the plate-tectonic origin of mountains, continents, and ocean basins. A survey of events in earth's evolution relevant to contemporary environmental concerns. Two lectures and one laboratory each week.
Repeatability
Credit given for only one of EAS-E 104 or GEOL-G 104.
- Summer 2025CASE NMcourse
  
  Spring 2025CASE NMcourse
  
  Fall 2024CASE NMcourse
EAS-E 105 Earth: Our Habitable Planet
Credits
3
Prerequisites
None
Description
Introduction to planet Earth as a dynamic and complex global system. Course materials will demonstrate physical and chemical linkages between biosphere, atmosphere, hydrosphere, and geosphere that directly impact lifestyles of human populations at time scales of years to centuries. Lecture and lab.
Repeatability
Credit given for only one of EAS-E 105 or GEOL-G 105.
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- Summer 2025CASE SLcourse
  
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EAS-E 111 Journey to the Center of the Earth
Credits
3
Prerequisites
None
Description
Discover the story hidden within the rocks. Students will explore the forces that shape the Earth, both deep within and here at the surface, and will learn how to interpret Earth's history through the rock record. Two lectures and one laboratory per week.
Repeatability
Credit given for only one of EAS-E 103, EAS-E 111, GEOL-G 103, or GEOL-G 111.
- Summer 2025CASE NMcourse
  
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EAS-E 116 Our Planet and Its Future
Credits
3
Prerequisites
None
Description
The interaction between geologic and environmental processes in the earth. Special emphasis on how these processes affect public policies and laws. Multimedia exercises and videotape presentations (made specifically for this course) are included. Two lectures and one discussion section/laboratory per week.
Repeatability
Credit given for only one of EAS-E 116 or GEOL-G 116.
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EAS-E 118 Sustainability in Water Resources
Credits
3
Prerequisites
None
Description
We can live without gold or oil but can we live without water? A dependable supply of fresh water is the ultimate limit of sustainability but this resource is increasingly at risk. Explores the Earth's hydrological cycle and the relationships between water and health and water and wars.
Repeatability
Credit given for only one of EAS-E 118 or GEOL-G 118.
- Summer 2025CASE NMcourse
  
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- Summer 2025CASE SLcourse
  
  Spring 2025CASE SLcourse
  
  Fall 2024CASE SLcourse
EAS-E 121 Origin and Evolution of Mars and Rocky Planetary Bodies
Credits
3
Prerequisites
None
Description
Our current understanding of Mars is derived from the study of meteorites, lunar samples, geology, space probes, and landed rovers. Geological processes that are operative on Earth are also operative on Mars and similar planetary bodies, but differing boundary conditions have generated distinct outcomes. These differences have implications for the likelihood of finding life on Mars.
Repeatability
Credit given for only one of EAS-E 121 or GEOL-G 121.
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EAS-E 122 Earth's Dynamic Atmosphere
Credits
3
Prerequisites
None
Description
Explore Earth's dynamic weather and climate and the driving forces behind them. Students will gain an understanding of various atmospheric phenomena. Why is it hot one day and cold the next? What causes Earth's climate to change? Two lectures and one laboratory per week.
Repeatability
Credit given for only one of EAS-E 122, GEOG-G 109, or GEOL-G 122.
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EAS-E 131 Oceans and Our Global Environment
Credits
3
Prerequisites
None
Description
Introduction to oceanography, with emphasis on ocean-atmospheric interaction and global climate, plate tectonics and morphology of the ocean basins, marine geology, energy resources, environmental problems due to sea-level rise, coastal erosion, oil spills, and life in the sea. Two lectures and one laboratory each week.
Repeatability
Credit given for only one of EAS-E 131 or GEOL-G 131.
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EAS-E 138 Geology of State and National Parks Revealed
Credits
3
Prerequisites
None
Description
This course introduces principles of historical, physical, and environmental geology by examining select state and national parklands that showcase the many dynamic Earth processes that help shape the Earth's surface. Additionally, emphasis is placed on the protection and degradation of natural resources within the parks. One required field trip.
Repeatability
Credit given for only one of EAS-E 138 or GEOL-G 138.
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EAS-E 141 Earthquakes and Volcanoes
Credits
3
Prerequisites
None
Description
Examination of the causes and effects of earthquakes and volcanic activity. Impacts of earthquakes and volcanic eruptions, including secondary effects such as landslides, mudflows, and tsunamis; climactic effects; energy/mineral resources; and social disruption. Mitigation of effects of natural disasters. Two lectures and one laboratory per week.
Repeatability
Credit given for only one of EAS-E 141 or GEOL-G 141.
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EAS-E 144 Extreme Weather and Its Impacts
Credits
3
Prerequisites
None
Description
Introduces a range of natural disasters and extreme weather phenomena that span regions, seasons, and origins. Emphasizes the ingredients and causes of each phenomenon, as well as their physical and societal impacts. Types of disasters include floods, droughts and wildfires, thunderstorms and tornadoes, and hurricanes.
Grading
Credit given for only one of EAS-E 144 or GEOL-G 144.
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EAS-E 171 Environmental Geology in the Twenty-first Century
Credits
3
Prerequisites
None
Description
Exploration and examination of such natural and human-induced geologic hazards as earthquakes, volcanoes, landslides, coastal erosion and subsidence. Study of the management and disposal of solid, chemical waste including acid-mine drainage and its environmental impact on resources in today's world.
Repeatability
Credit only given for only one of EAS-E 171 or GEOL-G 171.
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Physical Meteorology, Climate, and Paleoclimate. One (1) course:
- EAS-A 315 Climate Engineering
- EAS-A 340 Physical Meteorology and Climatology
- EAS-A 476 Climate Change Science
EAS-A 315 Climate Engineering

Credits
3
Prerequisites
None
Description
Introduces climate engineering from a physical science perspective, delving into how and why it works. Covers the major climate engineering proposals that have been put forward, such as stratospheric sulfate aerosols and marine cloud brightening. Explores issues of distributional justice, ethics, governance, and geopolitics related to climate engineering.
Repeatability
Credit given for only one of EAS-A 315 or GEOG-G 329.
EAS-A 340 Physical Meteorology and Climatology
Credits
3
Prerequisites
Any introductory science course or consent of instructor
Description
Provides an introduction to the physical basis of Earth\'s atmosphere and climate system from global to local scales, emphasizing physical processes and properties. Analyzes surface energy and water balances in varied landscapes. Covers issues related to climate change.
Repeatability
Credit given for only one of EAS-A 340, GEOG-G 304, or GEOL-G 340.
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EAS-A 476 Climate Change Science
Credits
3
Prerequisites
None
Notes
R: At least two college-level physical science courses or other experience reading and interpreting scientific data
Description
Evidence for and theories of climate change over a range of time scales. Sources of natural climate forcing are presented, historical evolution of climate change is quantified, and model tools and climate projections are presented along with analyses of climate change impacts.
Repeatability
Credit given for only one of EAS-A 476, GEOG-G 475, or GEOL-G 476.
- Summer 2025CASE NMcourse
  
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Atmospheric Science Electives. 18 credit hours:
- EAS-A 332 Atmospheric Thermodynamics & Cloud Processes
- EAS-A 339 Weather Analysis and Forecasting
- EAS-A 347 Instrumentation for Atmospheric Science
- EAS-A 364 Atmospheric Dynamics I
- EAS-A 434 Dynamic Meteorology 2
- EAS-A 437 Advanced Synoptic Meteorology and Climatology
- EAS-A 460 Mesoscale Meteorology
- EAS-A 466 Hydrometeorology
- EAS-A 474 Topics in Atmospheric Science Topics approved by Director of Undergraduate Studies
- EAS-A 476 Climate Change Science
- EAS-E 470 Micrometeorology
- With approval of the Director of Undergraduate Studies for a topic related to atmospheric science:
  - EAS-X 498 Undergraduate Research in Geosciences
EAS-A 332 Atmospheric Thermodynamics & Cloud Processes
Credits
3
Prerequisites
MATH-M 211 or MATH-S 211; and one of EAS-E 122, GEOG-G 109, or GEOL-G 122
Description
Earth's weather and climate are controlled by how heat and moisture move in the atmosphere. In this course, students learn and apply the basic physical laws that govern those processes. Topics include thermodynamic laws, principles of atmospheric stability, phase changes of water, nucleation of cloud droplets and the growth of clouds, and the use of common meteorological tools and data to interpret cloud and precipitation behavior.
Repeatability
Credit given for only one of EAS-A 332 or GEOL-G 332.
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EAS-A 339 Weather Analysis and Forecasting
Credits
3
Prerequisites
EAS-E 122, GEOG-G 109, GEOL-G 107, or GEOL-G 122; or consent of instructor
Description
Analysis and interpretation of meteorological data with a focus on forecasting applications for the mid-latitudes. Students learn the practical skills that weather forecasters use.
Repeatability
Credit given for only one of EAS-A 339, GEOG-G 339, or GEOL-G 339.
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EAS-A 347 Instrumentation for Atmospheric Science
Credits
3
Prerequisites
None
Description
Introduces the principles of atmospheric measurement including sampling strategies, instrumentation and data analysis to quantify atmospheric variables and processes. Covers standard meteorological techniques: ground-based, satellite and airborne remote sensing; atmospheric chemistry and aerosol measurements. Research projects in experimental design will employ field and laboratory equipment to investigate climatological and meteorological principles.
Repeatability
Credit given for only one of EAS-A 347 or GEOL-G 347.
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EAS-A 364 Atmospheric Dynamics I
Credits
3
Prerequisites
MATH-M 211, MATH-S 211, or MATH-M 120
Description
A calculus-based coverage of the theory of atmospheric flows. Topics include: derivation of fundamental forces and the equations of motion in inertial and rotating reference frames; isobaric, natural, and spherical coordinates; geostrophic, cyclostropic, and gradient wind balances; and the kinematics and dynamics of circulation and vorticity.
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EAS-A 434 Dynamic Meteorology 2
Credits
3
Prerequisites
One of EAS-A 339, EAS-A 364, GEOG-G 339, or GEOG-G 364; and one of MATH-M 212 or MATH-S 212; and one of PHYS-H 221 or PHYS-P 221
Description
Introduction to dynamical processes at the synoptic to global scales. Principles of fluid dynamics and thermodynamics and their application to the atmosphere. Basic conservation laws and equations of motion. Topics covered also include planetary waves and blocking mechanisms, teleconnections, and the global general circulation.
Repeatability
Credit given for only one of EAS-A 434, GEOG-G 431, or GEOL-G 434.
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EAS-A 437 Advanced Synoptic Meteorology and Climatology
Credits
3
Prerequisites
EAS-A 339, EAS-A 340, GEOG-G 304, GEOG-G 339, GEOL-G 339, or GEOL-G 340; or consent of instructor
Description
Analysis and prediction of synoptic scale weather systems, emphasizing the mid-latitudes. Other topics include severe weather and atmospheric/oceanic teleconnections.
Repeatability
Credit given for only one of EAS-A 437, GEOG-G 433, or GEOL-G 437.
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EAS-A 460 Mesoscale Meteorology

Credits
3
Prerequisites
EAS-A 332, EAS-A 339, EAS-A 340, or EAS-A 364, or permission of instructor
Description
Introduces the processes that govern the complex phenomena produced on the mesoscale and how they range in size from cold fronts and hurricanes to thunderstorms and tornadoes. Investigates how the phenomena develop, propagate, and dissipate.
EAS-A 466 Hydrometeorology
Credits
3
Prerequisites
EAS-A 340, GEOG-G 304, GEOG-G 339, GEOL-G 339, or GEOL-G 340
Description
Hydrometeorology is a branch of meteorology that deals with problems involving the hydrologic cycle, the water budget, and the rainfall statistics of storms. Students gain experience with the physics controlling these processes and with the tools and techniques used to observe and predict hydrometeorological processes.
Repeatability
Credit given for only one of EAS-A 466 or GEOL-G 466.
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EAS-A 474 Topics in Atmospheric Science
Credits
3
Prerequisites
None
Description
Topics may include surface-vegetation-atmosphere interactions, climatology and statistics of extreme events, dimensional analysis and similarity theory, dynamics of turbulent transport, boundary layer dynamics, urban meteorology, general circulation, or applications of numerical modeling at a variety of scales.
Repeatability
May be repeated with different topics for a maximum of 9 credit hours in EAS-A 474 and GEOL-G 474.
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EAS-A 476 Climate Change Science
Credits
3
Prerequisites
None
Notes
R: At least two college-level physical science courses or other experience reading and interpreting scientific data
Description
Evidence for and theories of climate change over a range of time scales. Sources of natural climate forcing are presented, historical evolution of climate change is quantified, and model tools and climate projections are presented along with analyses of climate change impacts.
Repeatability
Credit given for only one of EAS-A 476, GEOG-G 475, or GEOL-G 476.
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EAS-E 470 Micrometeorology
Credits
3
Prerequisites
EAS-A 340, GEOG-G 304, or GEOL-G 340; and MATH-M 211 and MATH-M 212; or consent of instructor
Description
Atmospheric processes at the micro and local scale. Topics include energy and mass exchange over simple nonvegetated surfaces, vegetated surfaces, nonuniform terrain, and inadvertent climate modification.
Repeatability
Credit given for only one of EAS-E 470, GEOG-G 470, or GEOL-G 470.
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EAS-X 498 Undergraduate Research in Geosciences

Credits
1–6 credit hours
Prerequisites
Junior standing and consent of advisor
Description
Field and laboratory research in selected problems in geology.
Repeatability
May be repeated for a maximum of 6 credit hours.
Earth Science Electives. Two (2) courses:
- EAS-E 225 Earth Materials
- EAS-E 226 Earth Processes
- EAS-E 227 Earth Climate and History
- EAS-E 314 Data Analysis for Earth Science
- EAS-E 333 Sedimentation and Tectonics
- EAS-E 341 Natural History of Coral Reefs
- EAS-E 406 Introduction to Geochemistry
- EAS-E 411 Invertebrate Paleontology
- EAS-E 412 Introduction to Vertebrate Paleontology
- EAS-E 415 Principles of Geomorphology
- EAS-E 416 Economic Geology
- EAS-E 417 Optical Mineralogy
- EAS-E 418 Igneous and Metamorphic Petrology
- EAS-E 423 Methods in Applied Geophysics
- EAS-E 435 Glacial and Quaternary Geology
- EAS-E 444 Methods in Analytical Geochemistry
- EAS-E 451 Principles of Hydrogeology
- EAS-E 488 Paleoclimatology: A Geological Record of Earth's Climate History
- EAS-X 420 Regional Geology Field Trip
EAS-E 225 Earth Materials
Credits
4
Prerequisites
None
Description
This course sequentially considers minerals, rocks, sediments, and soils; the materials that comprise the solid earth. The distribution and environmental significance of these materials are studied, as are their chemical and physical interactions with groundwater and plants. Three 50-minute lectures and one 2-hour laboratory per week. Laboratory attendance is required.
Repeatability
Credit given for only one of EAS-E 221, EAS-E 225, GEOL-G 221, or GEOL-G 225 .
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EAS-E 226 Earth Processes
Credits
3
Prerequisites
None
Description
Introduction to the processes that shape our planet, the composition and structure of Earth, and the erosion and deposition of sediments at the surface. Study of processes ranging from forces driving plate motion, fluid flow in and on the earth, crustal deformation and mountain building, erosion of source terrain, the transport system, and the depositional record.
Repeatability
Credit given for only one of EAS-E 226 or GEOL-G 226.
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EAS-E 227 Earth Climate and History
Credits
3
Prerequisites
None
Description
Earth's climate is linked to geological processes and life on our planet. Covers climate systems in the context of changes in continents, atmospheric composition, and life on land and in the oceans. Focuses on interactions between humans and climate and how climate and its variability are tied to Earth systems.
Repeatability
Credit given for only one of EAS-E 227 or GEOL-G 227.
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EAS-E 314 Data Analysis for Earth Science
Credits
3
Prerequisites
MATH-M 211 or MATH-S 211
Description
Introduction to processing, visualizing, and interpreting data using scientific computing techniques used in Earth science fields. Includes univariate and multivariate statistics, time-series analysis, signal processing and filtering, spatial data analysis, and computational methods such as regression, Taylor series truncation, accumulating error, interpolation, differentiation, and integration.
Repeatability
Credit given for only one of EAS-E 314 or GEOL-G 314.
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EAS-E 333 Sedimentation and Tectonics
Credits
4
Prerequisites
One of EAS-E 225 or GEOL-G 225; and one of EAS-E 226 or GEOL-G 226
Description
Integrative treatment of sedimentology, stratigraphy, and structural geology. Examines links between tectonic deformation processes and the resulting sediment that forms the stratigraphic rock record. Description of sedimentary rocks, from basic features at the bed-scale to scales of sedimentary basins. Learning and applying the facies concept and using stratigraphic principles to correlate facies across sedimentary basins.
Repeatability
Credit given for only one of EAS-E 333, EAS-E 334, GEOL-G 333, or GEOL-G 334.
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EAS-E 341 Natural History of Coral Reefs

Description
Evolutionary history of reef ecosystems through geologic time inclusive of reef composition and global distribution, modern reef development, conservation and management practices, and the persistence of the reef ecosystem through climate change scenarios. Covers biologic, ecologic, and geologic principles as they pertain to coral reef ecosystems.
Additional information
Credit hour, prerequisite, and other information cannot be displayed for this course. If this is a course outside of the College of Arts and Sciences, please see the appropriate school's bulletin for additional information.

EAS-E 406 Introduction to Geochemistry

Description
Interactions between geology, chemistry, and biology in natural systems. Explores biogeochemical processes on small scales and in terms of global cycles, as well as human impacts on biogeochemical cycling.
Additional information
Credit hour, prerequisite, and other information cannot be displayed for this course. If this is a course outside of the College of Arts and Sciences, please see the appropriate school's bulletin for additional information.

EAS-E 411 Invertebrate Paleontology

Credits
3
Prerequisites
One course from the General Education Natural and Mathematical Sciences course list
Description
Structure, classification, habitats, and geological history and significance of the invertebrate phyla. Laboratory study of fossils.
Repeatability
Credit given for only one of EAS-E 411 or GEOL-G 411.
EAS-E 412 Introduction to Vertebrate Paleontology
Credits
3
Prerequisites
One course from the General Education Natural and Mathematical Sciences course list
Description
Fossil record, comparative morphology, phylogeny, biogeography, and paleoecology of the major vertebrate groups. Functional modifications of the vertebrate skeleton for existence in various aquatic and terrestrial environments. Laboratory study of recent and fossil osteological specimens. Field trip to a museum with a major vertebrate paleontology collection.
Repeatability
Credit given for only one of EAS-E 412 and GEOL-G 412.
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EAS-E 415 Principles of Geomorphology

Credits
3
Prerequisites
EAS-E 226 or GEOL-G 226
Description
Covers how and why topography develops across a range of Earth environments. Explores how major earth systems, such as tectonics and climate, influence erosion, sediment transport, and topography, as well as the importance of geomorphology to societal needs ranging from natural hazards to landscape management and restoration.
Repeatability
Credit given for only one of EAS-E 415 or GEOL-G 415.

EAS-E 416 Economic Geology

Credits
3
Prerequisites
EAS-E 225 or GEOL-G 225; and EAS-E 226 or GEOL-G 226; and CHEM-C 117, CHEM-J 117, or CHEM-S 117
Description
Origin, geologic occurrence, distribution, use, and conservation of important geologic natural resources. Metallic minerals; industrial minerals and rocks; coal, petroleum, natural gas, and other energy resources.
Repeatability
Credit given for only one of EAS-E 416 and GEOL-G 416.

EAS-E 417 Optical Mineralogy

Description
Theory and use of optics in the identification and classification of rock-forming minerals in fragments and thin sections.
Additional information
Credit hour, prerequisite, and other information cannot be displayed for this course. If this is a course outside of the College of Arts and Sciences, please see the appropriate school's bulletin for additional information.

EAS-E 418 Igneous and Metamorphic Petrology

Credits
3
Prerequisites
EAS-E 225 or GEOL-G 225
Description
Covers the petrogenesis of igneous and metamorphic rock. Emphasizes the application of modern petrographic, mineralogic, geochemical and phase equilibria techniques to the solution of relevant petrologic problems through lectures and lab work.
Repeatability
Credit given for only one of EAS-E 418 or GEOL-G 418

EAS-E 423 Methods in Applied Geophysics

Credits
4
Prerequisites
PHYS-H 221 or PHYS-P 221
Description
Fundamentals and application of geophysics to geologic problems; emphasis on geophysical exploration. Occasional laboratory demonstrations or problems and field work.
Repeatability
Credit given for only one of EAS-E 423 and GEOL-G 423.

EAS-E 435 Glacial and Quaternary Geology

Credits
3
Prerequisites
EAS-E 111 or GEOL-G 111; and one of EAS-E 334, EAS-E 415, GEOL-G 334, or GEOL-G 415; or consent of instructor
Description
The Quaternary Period is examined with a focus upon the last glaciation with specific reference to Northwest Indiana. Topics include glacier processes, glacial sediments, glacial landforms and landform assemblages, specific glacial lake processes, sediments and drainage events, dating methods, soil mechanics and environmental applications. Field trips are mandatory.
Repeatability
Credit given for only one of EAS-E 435 or GEOL-G 435.

EAS-E 444 Methods in Analytical Geochemistry

Credits
3
Prerequisites
CHEM-C 103, CHEM-C 105, CHEM-C 117, CHEM-H 117, CHEM-J 117, or CHEM-S 117
Description
An overview of basic collection and preparation of water, soil, and geologic materials for analysis by analytical geochemistry techniques for environmental and exploration geology, and geochemistry applications. Techniques include Inductively Coupled Plasma (ICP), Atomic Spectrometry Absorption (AAS) by flame and graphite furnace, X-ray fluorescence, and Leco carbon and sulfur concentration determinations.
Repeatability
Credit given for only one of EAS-E 444 or GEOL-G 444.

EAS-E 451 Principles of Hydrogeology

Credits
2–4 credit hours
Prerequisites
CHEM-C 117, CHEM-H 117, CHEM-J 117, or CHEM-S 117; and MATH-M 211 or MATH-S 211
Description
Physical and chemical properties of water; chemical equilibria and stable isotopes in groundwaters; acid drainage, landfills, and agricultural pollution; Darcy's Law, fluid potential, unsaturated flow; fluid and aquifer properties affecting groundwater flow; fluid mass-balance equation and its application; contaminant transport.
Repeatability
Credit given for only one of EAS-E 451 and GEOL-G 451.

EAS-E 488 Paleoclimatology: A Geological Record of Earth's Climate History

Credits
3
Prerequisites
EAS-E 227; or at least 3 EAS-prefixed courses at the 200-level or higher
Description
Examines how Earth's climate has varied over geological time based on evidence from rock records. Explores varied approaches to reconstruction of past climates based on evidence contained in the records from sedimentary sequences and fossil occurrences, complemented by insights provided by geochemical data.

EAS-X 420 Regional Geology Field Trip

Credits
1–4 credit hours
Prerequisites
Any EAS-E course at the 300-399 level
Description
Field investigation of selected regions of North America for study of mineralogic, lithologic, stratigraphic, structural, paleontologic, geomorphologic, or other geological relationships. Six to 15 days in the field.
Repeatability
May be repeated for a maximum of 12 credit hours in EAS-X 420, GEOL-G 420, and GEOL-X 420.
Addenda Requirements*. Complete each of the following
1. Mathematics.
  1. Calculus I. One (1) course:
    - MATH-M 211 Calculus I
    - MATH-S 211
    MATH-M 211 Calculus I
    Credits
    4
    Prerequisites
    None
    Notes
    R: To be successful, students will demonstrate mastery of two years of high school algebra, one year of high school geometry, and pre-calculus, and trigonometry as indicated by an appropriate ALEKS score or completion of MATH-M 027
    Description
    Limits, continuity, derivatives, definite and indefinite integrals, applications.
    Repeatability
    A student may receive credit for only one of the following: MATH-J 113, MATH-M 119, MATH-V 119, MATH-M 211, or MATH-S 211.
    
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  2. Calculus II. One (1) course:
    - MATH-M 212 Calculus II
    - MATH-S 212 Honors Calculus II
    MATH-M 212 Calculus II
    Credits
    4
    Prerequisites
    MATH-M 211 or MATH-S 211; or consent of department
    Description
    Techniques of integration (by parts, trigonometric substitutions, partial fractions), improper integrals, volume, work, arc length, surface area, infinite series.
    Repeatability
    Credit given for only one of MATH-M 120 or MATH-M 212.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    MATH-S 212 Honors Calculus II
    Credits
    4
    Prerequisites
    MATH-S 211 or consent of department
    Description
    Includes material of MATH-M 212 and supplemental topics. Designed for students of outstanding ability in mathematics.
    Repeatability
    Credit given for only one of MATH-M 120, MATH-M 212, or MATH-S 212.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
2. Physics.
  1. Physics I. One (1) course:
    - PHYS-H 221 Honors Physics I
    - PHYS-P 201 General Physics I
    - PHYS-P 221 Physics I
    PHYS-H 221 Honors Physics I
    Credits
    5
    Prerequisites
    Consent of department
    Notes
    P or C: MATH-M 211 or equivalent
    Description
    First semester of a calculus-based sequence in introductory physics, intended primarily for highly motivated and well prepared students. Covers the material of P221 and supplementary topics. Course fee required.
    Repeatability
    Credit given for only one of PHYS-H 221, PHYS-P 201, or PHYS-P 221.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    PHYS-P 201 General Physics I
    Credits
    5
    Prerequisites
    None
    Notes
    R: Mastery of high school trigonometry; or MATH-M 026
    Description
    Newtonian mechanics, wave motion, heat, and thermodynamics. Application of physical principles to related scientific disciplines, especially life sciences. Intended for students preparing for careers in the life sciences and the health professions. Three lectures, one discussion section, and one two-hour laboratory period each week.
    Repeatability
    Credit given for only one of PHYS-H 221, PHYS-P 201, or PHYS-P 221.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    PHYS-P 221 Physics I
    Credits
    5
    Prerequisites
    None
    Corequisites
    MATH-M 211 or consent of instructor
    Notes
    First semester of a three-semester, calculus-based sequence intended for science majors. Three lectures, two discussion sections, and one 2-hour lab each week. Physics majors are encouraged to take PHYS-P 221 in the fall semester of the freshman year
    Description
    Newtonian mechanics, oscillations and waves, heat and thermodynamics.
    Repeatability
    Credit given for only one of PHYS-H 221, PHYS-P 201, or PHYS-P 221.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
  2. Physics II. One (1) course:
    - PHYS-H 222 Honors Physics II
    - PHYS-P 202 General Physics II
    - PHYS-P 222 Physics II
    PHYS-H 222 Honors Physics II
    Credits
    5
    Prerequisites
    PHYS-H 221; or PHYS-P 221 and consent of department
    Description
    Second semester of a calculus-based sequence in introductory physics, intended primarily for highly motivated and well prepared students. Covers the material of PHYS-P 222 and supplementary topics. Course fee required.
    Repeatability
    Credit given for only one of PHYS-H 222, PHYS-P 202, or PHYS-P 222.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    PHYS-P 202 General Physics II
    Credits
    5
    Prerequisites
    PHYS-H 221, PHYS-P 201, PHYS-P 221, or high school equivalent
    Notes
    Three lectures, one discussion section, and one two-hour laboratory period each week
    Description
    Electricity and magnetism; geometrical and physical optics; introduction to concepts of relativity, quantum theory, and atomic and nuclear physics.
    Repeatability
    Credit given for only one of PHYS-H 222, PHYS-P 202, or PHYS-P 222.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    PHYS-P 222 Physics II
    Credits
    5
    Prerequisites
    PHYS-H 221 or PHYS-P 221; or PHYS-P 201 and consent of instructor
    Corequisites
    MATH-M 212 or consent of instructor
    Notes
    Second semester of a three-semester, calculus-based sequence intended for science majors.Three lectures, two discussion sections, and one 2-hour lab each week. Physics majors are encouraged to take PHYS-P 222 in the spring semester of the freshman year
    Description
    Primarily electricity, magnetism, and geometrical and physical optics.
    Repeatability
    Credit given for only one of PHYS-H 222, PHYS-P 202, or PHYS-P 222.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
3. Chemistry.
  1. Principle of Chemistry Lecture. One (1) course:
    - CHEM-C 117 Principles of Chemistry and Biochemistry I
    - CHEM-H 117 Principles of Chemistry and Biochemistry I, Honors
    - CHEM-J 117 Principles of Chemistry and Biochemistry for Science Majors
    CHEM-C 117 Principles of Chemistry and Biochemistry I
    Credits
    3
    Prerequisites
    (CHEM-C 101 and CHEM-C 121) or CHEM-C 103 or (chemistry placement examinations and consent of the department)
    Description
    Lecture course covering basic principles of chemistry and biochemistry, basic mathematical and conceptual principles in atomic structure and periodic properties, molecular structure, chemical bonding, energy (thermochemistry), kinetics, equilibrium and thermodynamics.
    Repeatability
    Credit given for only one of the following: CHEM-C 105, CHEM-C 117, CHEM-H 117, CHEM-J 117, or CHEM-S 117.
    
    Summer 2025CASE NMcourse
    
    Spring 2025CASE NMcourse
    
    Fall 2024CASE NMcourse
    CHEM-H 117 Principles of Chemistry and Biochemistry I, Honors
    
    Credits
    3
    Prerequisites
    Chemistry placement examination; and consent of department
    Description
    An honors course for students with unusual aptitude or preparation. Covers basic principles of chemistry and biochemistry, basic mathematical and conceptual principles in atomic structure and periodic properties, molecular structure, chemical bonding, energy (thermochemistry), kinetics, equilibrium and thermodynamics.
    Repeatability
    Credit given for only one of CHEM-C 105, CHEM-C 117, CHEM-J 117, CHEM-S 117, or CHEM-H 117.
    
    CHEM-J 117 Principles of Chemistry and Biochemistry for Science Majors
    
    Credits
    3
    Prerequisites
    Chemistry placement examination; and consent of the department
    Description
    A course for well-prepared science majors. Lecture course covering basic principles of chemistry and biochemistry.
    Repeatability
    Credit given for only one of CHEM-C 105, CHEM-C 117, CHEM-H 117, CHEM-J 117, or CHEM-S 117
  2. Principle of Chemistry Lab. One (1) course:
    - CHEM-C 127 Principles of Chemistry and Biochemistry I Laboratory
    - CHEM-H 127 Principles of Chemistry and Biochemistry I Laboratory, Honors
    - CHEM-X 150 ASURE Chemistry Research Lab I
    CHEM-C 127 Principles of Chemistry and Biochemistry I Laboratory
    
    Credits
    2
    Prerequisites
    None
    Notes
    P or C: CHEM-C 117, CHEM-H 117 or CHEM-J 117.
    Description
    Basic principles of chemistry and biochemistry that align with the topics in CHEM-C 117. Chemical bonding (atomic structure, molecular structure, molecular orbital theory, and non-covalent interactions), macroscopic properties (energy, kinetics, equilibrium, and thermodynamics). Hands-on laboratory techniques in chemistry necessary for success in later chemistry laboratory courses, especially organic chemistry.
    Repeatability
    Credit given for only one of CHEM-C 125, CHEM-C 127, CHEM-H 127, or CHEM-X 150.
    
    CHEM-H 127 Principles of Chemistry and Biochemistry I Laboratory, Honors
    
    Credits
    2
    Prerequisites
    None
    Notes
    P or C: CHEM-H 117 or CHEM-J 117
    Description
    Basic principles of chemistry and biochemistry that align with the topics in CHEM-J 117 and CHEM-H 117. Hands-on laboratory techniques in chemistry necessary for success in later chemistry laboratory courses, including course-based undergraduate research project.
    Repeatability
    Credit given for only one of CHEM-C 125, CHEM-C 127, CHEM-H 127, or CHEM-X 150
    
    CHEM-X 150 ASURE Chemistry Research Lab I
    
    Credits
    3
    Prerequisites
    None
    Notes
    P or C: CHEM-C 117, CHEM-H 117, or CHEM-J 117 with a grade of C- or higher
    Description
    First in a two-lab sequence for students in the Arts and Sciences Undergraduate Research Experience (ASURE) program. Students engage in guided research in teams. The research area of the class will vary by section and be determined by the faculty member associated with the section.
    Repeatability
    Credit given for only one of CHEM-C 125, CHEM-C 127, CHEM-H 127, or CHEM-X 150.
4. Science Electives. Two (2) courses at the 300–499 level from any of the following departments:
  - Biology (BIOL)
  - Chemistry (CHEM)
  - Mathematics (MATH)
  - Physics (PHYS)
  - Statistics (STAT)
Major GPA, Hours, and Minimum Grade Requirements.
1. Major GPA. A GPA of at least 2.000 for all courses taken in the major—including those where a grade lower than C- is earned—is required.
2. Major Minimum Grade. Except for the GPA requirement, a grade of C- or higher is required for a course to count toward a requirement in the major.
3. Major Upper Division Credit Hours. At least 18 credit hours in the major must be completed at the 300–499 level.
4. Major Residency. At least 18 credit hours in the major must be completed in courses taken through the Indiana University Bloomington campus or an IU-administered or IU co-sponsored Overseas Study program.

Notes

* Courses used to fulfill addenda requirements require a grade of C- or higher and do not count toward the Major GPA or Major Hours.

Major Area Courses

Unless otherwise noted below, the following courses are considered in the academic program and will count toward academic program requirements as appropriate:
- Any course at the 100–499 level with the EAS subject area prefix—as well as any other subject areas that are deemed functionally equivalent
- Any course contained on the course lists for the academic program requirements at the time the course is taken—as well as any other courses that are deemed functionally equivalent—except for those listed only under Addenda Requirements
- Any course directed to a non-Addenda requirement through an approved exception

This program of study cannot be combined with the following:

Bachelor of Arts in Earth and Atmospheric Sciences (EASBA)
Bachelor of Arts in Geological Sciences (GEOLBA)
Bachelor of Science in Earth Science (EASCIBS)
Bachelor of Science in Earth Science and Master of Science in Secondary Education (EAS-BSMSED)
Bachelor of Science in Geological Sciences (GEOLBS)
Certificate in Atmospheric Science (ATMSCIACRT)
Minor in Earth and Atmospheric Sciences (EASMIN)
Minor in Geological Sciences (GEOLMIN)
[Name unavailable] (GEOLSASCON)
[Name unavailable] (ENGEOSCBS)
[Name unavailable] (ATSCIMIN)

Exceptions to and substitutions for major requirements may be made with the approval of the unit's Director of Undergraduate Studies, subject to final approval by the College of Arts and Sciences.

The Bachelor of Science degree requires at least 120 credit hours, to include the following:

College of Arts and Sciences Credit Hours. At least 100 credit hours must come from College of Arts and Sciences disciplines.
Upper Division Courses. At least 36 credit hours (of the 120) must be at the 300–499 level.
College Residency. Following completion of the 60th credit hour toward degree, at least 36 credit hours of College of Arts and Sciences coursework must be completed through the Indiana University Bloomington campus or an IU-administered or IU co-sponsored Overseas Study program.
College GPA. A College grade point average (GPA) of at least 2.000 is required.
CASE Requirements. The following College of Arts and Sciences Education (CASE) requirements must be completed:
1. CASE Foundations
  1. English Composition: 1 course
  2. Mathematical Modeling: 1 course
2. CASE Breadth of Inquiry
  1. Arts and Humanities: 2 courses
  2. Natural and Mathematical Sciences: 4 courses
  3. Social and Historical Studies: 2 courses
3. CASE Culture Studies
  1. Diversity in the United States: 1 course
  2. Global Civilizations and Cultures: Not required
4. CASE Critical Approaches: 1 course
5. CASE Foreign Language: Proficiency in a single foreign language through the first semester of the second year of college-level coursework
6. CASE Intensive Writing: 1 course
7. CASE Public Oral Communication: 1 course
Major. Completion of the major as outlined in the Major Requirements section above.

Most students must also successfully complete the Indiana University Bloomington General Education program.

Bachelor of Science in Atmospheric Science

Requirements

Major hours and GPA

Major Area Courses

Restrictions on combining this major with other academic programs

Major requirement exceptions and substitutions