Abstract
Description of Fluid Motion --
Choice of Coordinate System --
Pathlines, Streak Lines, and Streamlines --
Forces in a Fluid --
Integral Form of the Fluid Dynamic Equations --
Differential Form of the Fluid Dynamic Equations --
Dimensional Analysis of the Fluid Dynamic Equations --
Flow with High Reynolds Number --
Similarity of Flows --
Fundamentals of Inviscid, Incompressible Flow --
Angular Velocity, Vorticity, and Circulation --
Rate of Change of Vorticity --
Rate of Change of Circulation: Kelvin's Theorem --
Irrotational Flow and the Velocity Potential --
Boundary and Infinity Conditions --
Bernoulli's Equation for the Pressure --
Simply and Multiply Connected Regions --
Uniqueness of the Solution --
Vortex Quantities --
Two-Dimensional Vortex --
The Biot-Savart Law --
The Velocity Induced by a Straight Vortex Segment --
The Stream Function --
General Solution of the Incompressible, Potential Flow Equations --
Statement of the Potential Flow Problem --
The General Solution, Based on Green's Identity --
Summary: Methodology of Solution --
Basic Solution: Point Source --
Basic Solution: Point Doublet --
Basic Solution: Polynomials --
Two-Dimensional Version of the Basic Solutions --
Basic Solution: Vortex --
Principle of Superposition --
Superposition of Sources and Free Stream: Rankine's Oval --
Superposition of Doublet and Free Stream: Flow around a Cylinder --
Superposition of a Three-Dimensional Doublet and Free Stream: Flow around a Sphere --
Some Remarks about the Flow over the Cylinder and the Sphere.
Users
Please
log in to take part in the discussion (add own reviews or comments).