Course Number |
Course Title |
---|---|
Science / Engineering |
|
CEE 262A | Hydrodynamics |
CEE 363F | Oceanic Fluid Dynamics |
CEE 364F | Advanced Topics in Geophysical Fluid Dynamics |
EESS 246A | Atmosphere, Ocean, and Climate Dynamics: The Atmospheric Circulation |
EESS 246B | Atmosphere, Ocean, and Climate Dynamics: The Ocean Circulation |
ME 361 | Turbulence |
ME 451B | Advanced Fluid Mechanics Flow Instablity |
CEE 262B | Transport and Mixing in Surface Water Flows |
CEE 262D | Introduction to Physical Oceanography |
CEE 262F | Ocean Waves |
CEE 363G | Field Techniques in Coastal Oceanography |
PHYSICS 211 | Continuum Mechanics |
ME 351A | Fluid Mechanics |
ME 351B | Fluid Mechanics |
ME 461 | Advanced Topics in Turbulence |
EESS 241 | Remote Sensing of the Oceans |
EESS 244 | Marine Ecosystem Modeling |
EESS 305 | Climate Change: An Earth Systems Perspective |
Mathematics/Statistics |
|
CME 200 | Linear Algebra |
CME 204 | Partial Differential Equations in Engineering |
EESS 260 | Advanced Statistical Methods for Earth System Analysis |
CME 206 | Introduction to Numerical Methods in Engineering |
CME 302 | Numerical Linear Algebra |
CME 303 | Partial Differential Equations of Applied Mathematics |
CME 306 | Numerical Solution of Partial Differential Equations |
CME 326 | Numerical Methods for Initial Boundary Value Problems |
CEE 378 | Statistical Analysis of Environmental Data |
ME 408 | Spectral Methods in Computational Physics |
CEE 362G | Stochastic Inverse Modeling and Data Assimilation Methods |
GEOPHYS 281 | Geophysical Inverse Problems |
Modeling/Computer Science | |
CEE 262C | Modeling Environmental Flows |
CEE 264 | Sediment Transport Modeling |
ME 469 | Computational Methods in Fluid Mechanics |
CME 215A | Advanced Computational Fluid Dynamics |
CME 215B | Advanced Computational Fluid Dynamics |
CME 211 | Computer Programming in C++ for Earth Scientists and Engineers |
CME 212 | Introduction to Large Scale Computing |
Strongly recommended |
Recommended |