Full Description
What is the best shape for a sailboat? How does turbulence affect a sailboat's movement through the water? Why do some keels have wings? Is it true that some sailboats can sail faster upwind than downwind?
Authoritative yet accessible, The Physics of Sailing Explained is the perfect book for all those sailors who want to enhance their understanding and enjoyment of life at sea. It will enable cruisers and racers alike to better grasp how sails, keels, and hulls work together to keep boats afloat, and will sharpen their skills with a more subtle and thorough appreciation of why various boat design features are present and why certain tactics work in certain situations. Anderson outlines the science behind sailing in a way that anyone can understand and benefit from without having to trudge through a physics text or became a naval architect. Concepts are conveyed simply, concisely, and with many examples and illustrations.
With the help of this invaluable book, sailors will be better prepared to handle any situations that might arise on the water.
Contents
Introduction
I. Hulls
1. Hull Speed
2. Surface Resistance
3. Shape Resistance
4. Parasitic Resistance
II. Keels
5. Bernoulli's Principal and Lift
6. Vortex Formation
7. Righting Moment
8. Total Resistance
III. Sails
9. Basic Sail Theory
10. Induced Drag
11. Turbulence
12. Sail Interaction
13. Sail Shapes for Different Points of Sail
14. Sail Trim
IV. The Physics of Weather for Sailors
15. Local Weather
16. Global Weather Patterns
17. Tides
Further Reading
Sailing Terms
Index
