SO 513 - Honors Oceanic and Atmospheric Processes

The material for this course is an ongoing work in progress.  I welcome all comments and correction pertaining to the content below.     Please email comments and corrections to:

Textbooks:
      Kundu, P., I. Cohen, and D. Dowling, Fluid Mechanics. Academic Press, 2012.
      Stewart, R., Introduction to Physical Oceanography, Texas A&M University, 2008.
      Emanuel, K., 2004: Tropical cyclone energetics and structure. In Atmospheric Turbulence and Mesoscale Meteorology, E. Fedorovich, R. Rotunno and B. Stevens, editors, Cambridge University Press, 280 pp

Course documents:
     Course syllabus
     Course policy
     Calc 1 and 2 review sheet

Project-based learning:
    Overview and guidelines
    Grading rubric

Lecture Notes
Lesson 1 - Properties of Solids, Liquids, and Gasses
     Quick review of index notation
     Cool link to Scale of the Universe here

Lesson 2 - Density and Equation of State for the Ocean
     Atm and Ocean properties - Lesson 2 Power Point

Lesson 3 - Stability
    -  Double diffusion
    -  Salt fingering explained

Lesson 4 - Mass Continuity

Lesson 5 - Navier Stokes equations
  - Lesson 5 extended: Bernoulli applications

Lesson 6 - Apparent forces

Lesson 7 - Geostrophy, Thermal and Gradient winds

Lesson 8 - Boundary Conditions

Lesson 9 -   Turbulence and Ekman

Lesson 10 - Modeling the Gulf Stream

Lesson 11 - Potential Vorticity
    -  Addendum

Lesson 12 - Barotropic and Baroclinic instabilities

Lesson 13 - Tropical Cyclone Energetics

Lesson 14 - Laplace's equation solution

Labs
Lab 1 - Equation of state of seawater
    - GulfStrm_Lab1.xls
    - constants_lab1.xls
    - ro.m
    - bulkmod.m

Lab 2 - Stability
    - Smithsonian data

Lab 3 - Experimental verification of the parabolic shape of a fluid surface in a rotating tank

Lab 4 - Double Gyre Flow

Assignments
Assignment 1

Assignment 2

Assignment 3

Assignment 4

Assignment 5