EESC6336 - Advanced Ocean-Atmosphere Dynamics and Implications for Future Climate Change

Status
A
Activity
REC
Section number integer
402
Title (text only)
Advanced Ocean-Atmosphere Dynamics and Implications for Future Climate Change
Term
2023C
Subject area
EESC
Section number only
402
Section ID
EESC6336402
Course number integer
6336
Meeting times
F 1:45 PM-2:44 PM
Meeting location
DRLB 2C2
Level
graduate
Instructors
Irina Marinov
Description
This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology).
Course number only
6336
Cross listings
EESC4336402, PHYS3314402
Use local description
No

EESC6336 - Advanced Ocean-Atmosphere Dynamics and Implications for Future Climate Change

Status
A
Activity
LEC
Section number integer
401
Title (text only)
Advanced Ocean-Atmosphere Dynamics and Implications for Future Climate Change
Term
2023C
Subject area
EESC
Section number only
401
Section ID
EESC6336401
Course number integer
6336
Meeting times
MW 3:30 PM-4:59 PM
Meeting location
HAYD 360
Level
graduate
Instructors
Irina Marinov
Description
This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology).
Course number only
6336
Cross listings
EESC4336401, PHYS3314401
Use local description
No

EESC5630 - Hydrology

Status
A
Activity
LEC
Section number integer
690
Title (text only)
Hydrology
Term
2023C
Subject area
EESC
Section number only
690
Section ID
EESC5630690
Course number integer
5630
Level
graduate
Instructors
J. Anthony Sauder
Description
Introduction to the basic principles of the hydrologic cycle and water budgets, precipitation and infiltration, evaporation and transpiration, stream flow, hydrograph analysis (floods), subsurface and groundwater flow, well hydraulics, water quality, and frequency analysis.
Course number only
5630
Use local description
No

EESC6840 - Engineering Geology

Status
A
Activity
LEC
Section number integer
690
Title (text only)
Engineering Geology
Term
2023C
Subject area
EESC
Section number only
690
Section ID
EESC6840690
Course number integer
6840
Level
graduate
Instructors
Chad H Freed
Description
This course focuses on the rock mechanics aspects of Engineering Geology. The theme is characterization of the geologic environment for engineering and environmental investigations. Covered are the various exploration tools and methods, including: Collection and analysis of existing engineering data; Interpretation of remotely sensed imagery; Field and laboratory measurements of material properties; Measurement and characterization of rock discontinuities; Rock slope stability analysis; Stress, strain and failure of rocks and the importance of scale; Rock core logging; Rock mass rating; Rock support and reinforcement; Rock excavation, blasting and blast monitoring and control.
Course number only
6840
Use local description
No

EESC6820 - Geomechanics: Solids

Status
A
Activity
SEM
Section number integer
690
Title (text only)
Geomechanics: Solids
Term
2023C
Subject area
EESC
Section number only
690
Section ID
EESC6820690
Course number integer
6820
Level
graduate
Instructors
George E Duda
Description
Mechanical properties of solid and fluid earth materials, stress and strain, earth pressures in soil and rock, tunnels, piles, and piers; flow through gates, wiers, spillways and culverts, hydraulics, seepage and Darcy's law as applied to the hydrologic sciences.
Course number only
6820
Use local description
No

EESC5700 - Data Analysis in Earth Science

Status
A
Activity
SEM
Section number integer
301
Title (text only)
Data Analysis in Earth Science
Term
2023C
Subject area
EESC
Section number only
301
Section ID
EESC5700301
Course number integer
5700
Meeting times
T 1:45 PM-4:44 PM
Meeting location
DRLB 4E19
Level
graduate
Instructors
Douglas J Jerolmack
Description
This course will introduce numerical techniques for analyzing data and formulating models in Earth Science. Students will first be introduced to Octave, a high level computer programming language (equivalent to Matlab, but free of cost) that allows data analysis and manipulation, sophisticated plotting and numerical modeling from the same interface. Data analysis will focus on time series, pattern recognition, image/topography analysis, and correlation statistics; modeling will include groundwater and surface water flow, random processes, diffusion, and erosion and deposition. This will be a seminar-style course where discussion will be encouraged, and additional topicsmay be covered depending on student interest. Through project-based learning exercises students will gain proficiency in Octave which will be useful for allaspects of Earth science.
Course number only
5700
Use local description
No

EESC4440 - Geomicrobiology

Status
A
Activity
LEC
Section number integer
401
Title (text only)
Geomicrobiology
Term
2023C
Subject area
EESC
Section number only
401
Section ID
EESC4440401
Course number integer
4440
Meeting times
TR 3:30 PM-4:59 PM
Meeting location
HAYD 360
Level
undergraduate
Instructors
Ileana Perez-Rodriguez
Description
Microorganisms inhabit almost every conceivable environment on the planet's surface, and extent the biosphere to depths of several kilometers into the crust. Significantly, the chemical reactivity and metabolic diversity displayed by microbial communities make them integral components of global elemental cycles, from mineral dissolution and precipitation reactions, to aqueous reduction-oxidation processes. In that regard, microorganisms have helped shape our planet overthe past 4 billion years and made it habitable for higher forms of life. In this course we will evaluate the geological consequences of microbial activities, by taking am interdisciplinary and "global" view of microbe-environment interactions.
Course number only
4440
Cross listings
EESC6440401
Use local description
No

EESC4997 - Senior Thesis

Status
A
Activity
SRT
Section number integer
401
Title (text only)
Senior Thesis
Term
2023C
Subject area
EESC
Section number only
401
Section ID
EESC4997401
Course number integer
4997
Meeting times
MW 12:00 PM-1:29 PM
Meeting location
HAYD 358
Level
undergraduate
Instructors
Jane E Dmochowski
Description
The culmination of the Earth Science major. Students, while working with an advisor in their concentration, conduct research and write a thesis.
Course number only
4997
Cross listings
ENVS4997401
Use local description
No

EESC4336 - Ocean-Atmosphere Dynamics and Implications for Future Climate Change

Status
A
Activity
REC
Section number integer
402
Title (text only)
Ocean-Atmosphere Dynamics and Implications for Future Climate Change
Term
2023C
Subject area
EESC
Section number only
402
Section ID
EESC4336402
Course number integer
4336
Meeting times
F 1:45 PM-2:44 PM
Meeting location
DRLB 2C2
Level
undergraduate
Instructors
Irina Marinov
Description
This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology).
Course number only
4336
Cross listings
EESC6336402, PHYS3314402
Use local description
No

EESC4336 - Ocean-Atmosphere Dynamics and Implications for Future Climate Change

Status
A
Activity
LEC
Section number integer
401
Title (text only)
Ocean-Atmosphere Dynamics and Implications for Future Climate Change
Term
2023C
Subject area
EESC
Section number only
401
Section ID
EESC4336401
Course number integer
4336
Meeting times
MW 3:30 PM-4:59 PM
Meeting location
HAYD 360
Level
undergraduate
Instructors
Irina Marinov
Description
This course covers the fundamentals of atmosphere and ocean dynamics, and aims to put these in the context of climate change in the 21st century. Large-scale atmospheric and oceanic circulation, the global energy balance, and the global energy balance, and the global hydrological cycle. We will introduce concepts of fluid dynamics and we will apply these to the vertical and horizontal motions in the atmosphere and ocean. Concepts covered include: hydrostatic law, buoyancy and convection, basic equations of fluid motions, Hadley and Ferrel cells in the atmosphere, thermohaline circulation, Sverdrup ocean flow, modes of climate variability (El-Nino, North Atlantic Oscillation, Southern Annular Mode). The course will incorporate student led discussions based on readings of the 2007 Intergovernmental Panel on Climate Change (IPCC) report and recent literature on climate change. Aimed at undergraduate or graduate students who have no prior knowledge of meteorology or oceanography or training in fluid mechanics. Previous background in calculus and/or introductory physics is helpful. This is a general course which spans many subdisciplines (fluid mechanics, atmospheric science, oceanography, hydrology).
Course number only
4336
Cross listings
EESC6336401, PHYS3314401
Use local description
No