Courses:

Fluid Dynamics of the Atmosphere and Ocean >> Content Detail



Study Materials



Readings

Amazon logo When you click the Amazon logo to the left of any citation and purchase the book (or other media) from Amazon.com, MIT OpenCourseWare will receive up to 10% of this purchase and any other purchases you make during that visit. This will not increase the cost of your purchase. Links provided are to the US Amazon site, but you can also support OCW through Amazon sites in other regions. Learn more.

The handouts from Jim Price  (Sr. Scientist, Woods Hole Oceanographic Institution) used in the lecture notes section of this course are now available as an online publication:  Topics in Fluid Dynamics: Dimensional Analysis, the Coriolis Force, and Lagrangian and Eulerian Representations.

KC04 = Amazon logo Kundu, P. K., and I. M. Cohen. Fluid Mechanics. 3rd ed. New York: Elsevier Academic Press, 2004. ISBN: 9780121782535.
CR94 = Amazon logo Cushman-Roisin, B. Introduction to Geophysical Fluid Dynamics. New York: Prentice Hall, 1994. ISBN: 9780133533019.


LEC #TOPICSREADINGS
1Introduction

Class Aims
Class Administration (Problem Sets, Exams, Grades, etc.)
Scheduling Issues
Introduction to Fluid Dynamics
2-5Kinematics of Fluid Flow

Eulerian and Lagrangian Representations of Flow
The Material Derivative
Trajectories, Streaklines, and Streamlines
Cauchy-Stokes Theorem
The Velocity Gradient Tensor
Session 2

KC04: 1.1-1.7, 3.1-3.5, 3.13 (optional Chap 2)
CR94: Chapter 1
KFF I, II, IV

Session 3

KC04: 3.6-3.10

Session 4

KC04: 3.6-3.10

Session 5

KFF V
KC04: 4.1-4.4
6-9Conservation Equations

Reynolds Transport Theorem
Momentum Equations (Navier-Stokes, Boussinesq form of Navier-Stokes, Euler)
Total Energy Equation, Mechanical Energy Equation, Heat Equation
2nd Law of Thermodynamics
Session 6

KC04: 4.5-4.11

Session 7

KC04: 4.13 - 4.15

Session 8

KC04: 4.13 - 4.17

Session 9

KC04: 4.16 - 4.18
10-13Vortex Flows, Circulation, and Vorticity

Bernoulli Functions
Solid Body Rotation, Point Vortex, Rankine Vortex
Stokes' Theorem
Potential Flows: Interacting Point Vortices
Kelvin's Circulation Theorem
Helmholtz Vortex Theorems
Vorticity Equation
Session 10

KC04: 4.16 - 4.18

Session 11

KC04: 5.1-5.3, 5.8-5.9, 3.11 (review)

Session 12

KC04: 5.4-5.5

Session 13

KC04: 5.4-5.5
14-15Impact of The Earth’s Rotation

Momentum Eequations in a Rotating Frame
Centripetal Acceleration, Coriolis Acceleration
Vorticity Equation in a Rotating Frame
Kelvin's Circulation Theorem in a Rotating Frame
Session 14

KC04: 4.12, CR: 2.1-2.5

Session 15

KC04: 5.7, 14.1-14.4
16-18GFD Kinematics

Simplified Momentum Equations
Inertial Flow, Geostrophy, Gradient Wind, Cyclostrophic Flow, Isallobaric Flow
Impact of Viscosity
Taylor-Proudman Theorem
Thermal Wind
Session 16

KC04: 14.5

Session 17

Holton 92: 3.2, 3.4
19-20Ekman Layers

Brief Bboundary Layer Introduction
Mass Transport in Ekman Layer; Ekman Pumping and Suction
Ekman Spiral
Sverdrup Transport
Session 20

14.6-14.7
21-24Waves

Beta Effect
Wave Kinematics
Barotropic, Fixed Depth Rossby Waves
Shallow Water Equations, Shallow Water Gravity Waves, Inertia-Gravity Waves, Kelvin Waves
Potential Vorticity
Barotropic, Quasi-Geostrophic Rossby Waves
Kelvin-Helmholz Instability
Session 21

KC04: 14.8

Session 22

KC04: 12.9, 14.16

Session 23

KC04: 14.13, 14.15

Session 24

KC04: 14.11-14.12

 








© 2009-2020 HigherEdSpace.com, All Rights Reserved.
Higher Ed Space ® is a registered trademark of AmeriCareers LLC.