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Marine Hydrodynamics (13.021) >> Content Detail



Calendar / Schedule



Calendar

The calendar below provides information on the course's lecture (L) and recitation (R) sessions.


SES #TOPICSKEY DATES
L1Introduction

Fluids vs. Solids

Liquids vs. Gases
Problem set 1 out
Basic Equations
L2Description of a Flow

Flow Visualization - Flow Lines

Concept and Consequences of Continuous Flow

Material/Substantial/Total Time Derivative

Langrangian and Eulerian Time Derivative
Problem set 1 due

Problem set 2A out
R1Basic Tools - Calculus Review
L3Stress Tensor

Mass and Momentum Conservation
Problem set 2B out
L4Newtonian Fluids

Navier-Stokes Equations

Boundary Conditions

Surface Tension

Body Forces - Gravity
Problem sets 2A and 2B due

Problem set 3A out
R2Control Volume
Similitude
L5Dimensional AnalysisProblem set 3B out
L6Similarity Parameters

Using Governing Equations and Boundary Conditions

Using Physical Arguments

Importance
Problem sets 3A and 3B due

Problem set 4A out
R3Dimensional Analysis and Similitude
Ideal Fluid Flow
L7Governing Equations and Boundary Conditions

Circulation - Kelvin's Theorem

Vorticity
Problem set 4B out
L8Properties of Vortex Structures

Bernoulli Equation for Steady, Ideal, and Rotational Flow
Problem sets 4A and 4B due

Problem set 5A out
R4Ideal FlowChallenge problem 1 out
L9Vorticity Equation

Potential Flow
Problem set 5B out
R5Quiz 1 Review and P-FlowProblem sets 5A and 5B due
Quiz 1Challenge problem 1 due

Problem set 6 out
L10Governing Equations and Boundary Conditions for P-Flow

Linear Superposition for P-Flow

Laplace Equation

Simple Potential Flows
Problem set 6 due

Problem set 7A out

P-Flow tutorial out
L11Method of Images

D'Alembert's Paradox

Lift Due to Circulation
Problem set 7B out

P-Flow homework 1 out
L12Lifting Surfaces

Potential Flow and Kutta Condition

Thin Wing, Small Angle of Attack
Problem sets 7A and 7B due

P-Flow homework 1 due

Problem set 8A out
R6P-Flow Summary and Added Mass
L13Unsteady Motion - Added Mass

General 6 Degrees of Freedom Motions
Problem set 8B out
L14Properties of Added-Mass Coefficients

Slender Body Approximation

Buoyancy Effects Due to Accelerating Flow
Problem sets 8A and 8B due

Problem set 9A out
R7Added Mass Tensor
Real Fluid Effects
L15Form DragProblem set 9B out
L16Drag on a Very Streamlined Body

Known Solutions of the Navier-Stokes Equations

Boundary Layer Growth Over an Infinite Flat Plate for Unsteady Flow
Problem sets 9A and 9B due

Problem set 10A out
R8Quiz 2 Review and Boundary Layers
Quiz 2Problem set 10B out
L17Laminar Boundary Layers

Steady Flow over a Flat Plate

Flow Over a Body of General Geometry
Problem set 10A due

Problem set 11A out
R9Laminar Boundary Layers and Model TestingProblem set 10B due
L18Turbulent Flow - Reynolds Stress

Turbulent Boundary Layer Over a Smooth Flat Plate
Problem set 11B out
L19Turbulent Boundary Layers: Roughness Effects

Model Testing
Problem set 11A due

Problem set 12 out
Water Waves
R10Forces on Cylinder, Labs, and Linear Water WavesProblem set 11B due
L20Exact (Nonlinear) Governing Equations for Surface Gravity Waves

Linearized (Airy) Wave Theory

Characteristics of Linear Plane Progressive Waves
Problem set 12 due

Problem set 13A out
R11Dispersion Relation
L21Superposition of Linear Plane Progressive Waves

Wave Energy

Energy Propagation - Group Velocity

Energy Conservation Equation

Steady Ship Waves, Wave Resistance
Problem set 13B out
L22Wave Forces on a BodyProblem sets 13A and 13B due

Challenge problems 2 and 3 out
R12Problem Solving for Lifting SurfacesChallenge problems 2 and 3 due

Problem set 14A (optional)
Final Exam

 








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