000 | 07701cam a22003138a 4500 | ||
---|---|---|---|
005 | 20211129153222.0 | ||
008 | 100115s2010 flua 001 0 eng d | ||
011 | _aBIB MATCHES WORLDCAT | ||
020 | _a9781420073768 (pbk.) | ||
020 | _a1420073761 (pbk.) | ||
035 | _a(OCoLC)178208072 | ||
040 |
_aUKM _cUKM _dBTCTA _dBAKER _dYDXCP _dBWX _dORX _dTXA _dATU |
||
050 | 4 |
_aVK543 _b.K56 2010 |
|
082 | 0 | 4 |
_a623.8813 _222 |
100 | 1 |
_aKimball, John, _d1942- _9277745 |
|
245 | 1 | 0 |
_aPhysics of sailing / _cJohn Kimball. |
264 | 1 |
_aBoca Raton, Fla. : _bCRC ; _aLondon : _bTaylor & Francis [distributor], _cc2010. |
|
300 |
_axvii, 277 p. : _bill. ; _c24 cm. |
||
500 | _aIncludes index. | ||
505 | 0 | 0 |
_g1. _tDepart, Depart from Solid Earth -- _g1.1. _tWhy Sailing, Why Physics, Why Both? -- _g1.2. _tOrigins -- _g1.2.1. _tEgypt -- _g1.2.2. _tThe First Sailors -- _g1.2.3. _tPolynesia -- _g1.2.4. _tChina -- _g1.2.5. _tSpeculations -- _g1.3. _tThere's MuchMore -- _g2. _tDownwind-The Easy Direction -- _g2.1. _tSpeed -- _g2.2. _tForces -- _g2.2.1. _tQuadratic Approximation -- _g2.2.2. _tNewton's Impact Theory -- _g2.2.3. _tRefinements -- _g2.3. _tBoatspeed -- _g2.3.1. _tApparent Wind Speed, V -- _g2.3.2. _tDownwind Speed Ratio, S<sub>0< /sub> -- _g2.3.3. _tCalculating the Downwind Speed Ratio -- _g2.3.3.1. _tArchimedes Principle -- _g2.4. _tWind Shadow -- _g2.5. _tAcceleration -- _g2.6. _tExamples -- _g2.6.1. _tForce and Power -- _g2.6.2. _tReal Boat Speeds -- _g2.6.3. _tA Check -- _g2.6.4. _tBetter Speed Calculations -- _g2.6.5. _tAcceleration -- _g2.7. _tThe Speed Limit -- _g3. _tUpwind-The Hard Direction -- _g3.1. _tOverview -- _g3.1.1. _tLift and Drag -- _g3.1.2. _tWind Direction -- _g3.1.3. _tForces -- _g3.2. _tIceboats -- _g3.2.1. _tIceboat Forces -- _g3.2.2. _tIceboat Speed Diagram -- _g3.2.3. _tDerivation of Iceboat Speed Diagram -- _g3.2.4. _tIceboat Speed Diagram Interpretation -- _g3.2.5. _tIce Friction -- _g3.3. _tSailboat Speeds -- _g3.3.1. _tStep 1: Lift and Drag Phenomenology -- _g3.3.2. _tStep 2: Centerboard Lift and Drag -- _g3.3.3. _tWhere Is the Theory? -- _g3.3.4. _tStep 3: Pushing the Sailboat -- _g3.3.5. _tStep 4: Wind Lift and Drag -- _g3.3.6. _tStep 5: Wind and Water Forces Combined -- _g3.3.6.1. _tScaled Units -- _g3.3.6.2. _tComparing Graphs -- _g3.3.6.3. _tBroad Reach -- _g3.3.6.4. _tSailing Closer to Windward -- _g3.3.6.5. _tGeneralization -- _g3.3.6.6. _tClosest to the Wind -- _g3.3.7. _tStep 6: Sailboat Speed Diagram -- _g3.3.7.1. _tBasic Example: A Standard Sailboat -- _g3.3.7.2. _tComparison of Speeds -- _g3.3.7.3. _tComparisons of Lift-to-Drag Ratios -- _g3.4. _tWhy Is Sailing Upwind So Complicated? -- _g4. _tTipping, Torques, and Trouble -- _g4.1. _tRoll, Pitch, and Yaw -- _g4.2. _tTorques -- _g4.2.1. _tWinch: A Simple Example -- _g4.2.2. _tMore General Torques -- _g4.3. _tCenters of Mass, Buoyancy, and Effort -- _g4.3.1. _tCenter of Mass -- _g4.3.2. _tCenter of Buoyancy -- _g4.3.3. _tCenter of Effort -- _g4.4. _tCatamaran -- _g4.4.1. _tCatamaran Roll and Capsize -- _g4.4.2. _tCatamaran Pitch -- _g4.5. _tIceboat -- _g4.6. _tMonohull -- _g4.7. _tStaying Upright -- _g4.7.1. _tLimiting the Sail's Torque -- _g4.7.2. _tIncreasing the Restoring Torque -- _g4.8. _tSteering and Helm -- _g4.9. _tDynamics -- _g4.9.1. _tMoment of Inertia -- _g4.9.2. _tResonance -- _g4.9.3. _tInstability -- _g4.10. _tUpright Mast -- _g4.11. _tPersonal Torques -- _g5. _tSee How the Mainsail Sets -- _g5.1. _tSpinnaker -- _g5.1.1. _tGaussian Curvature -- _g5.1.2. _tSpinnaker Shape Changes -- _g5.1.3. _tMake Your Own Sail -- _g5.1.4. _tStress -- _g5.2. _tMainsail and Jib -- _g5.2.1. _tTight Leech -- _g5.2.2. _tTight Foot -- _g5.2.3. _tPerfect Blend -- _g5.2.4. _tSail Shape Equations -- _g5.2.5. _tSail Characterization -- _g5.2.5.1. _tTwist -- _g5.2.5.2. _tCamber Ratio -- _g5.2.5.3. _tMaximum Draft Position -- _g5.2.6. _tApplying the Forces -- _g5.2.6.1. _tSail Shape -- _g5.2.6.2. _tSail Position -- _g5.3. _tReal Sails -- _g5.3.1. _tPressure Variation -- _g5.3.2. _tStretching, Bending, and Other Complications -- _g5.3.2.1. _tStretching -- _g5.3.2.2. _tGaussian Curvature -- _g5.3.2.3. _tBending Masts -- _g5.3.2.4. _tLuff Tension -- _g5.4. _tWhat Really Counts -- _g6. _tFluid Dynamics -- _g6.1. _tNavier-Stokes Equation -- _g6.2. _tViscosity -- _g6.2.1. _tViscosity and Pressure, Lift and Drag -- _g6.2.2. _tViscosity Defined -- _g6.2.2.1. _tThe Centerboard Problem -- _g6.2.3. _tViscosity Physics -- _g6.2.4. _tViscosity, Energy, and Dissipation -- _g6.3. _tReynolds Number -- _g6.3.1. _tReynolds Number Defined -- _g6.3.1.1. _tThe Centerboard Problem: Second Attempt -- _g6.4. _tBoundary Layers -- _g6.4.1. _tLaminar Boundary Layer -- _g6.4.1.1. _tThe Centerboard Problem: Third Attempt -- _g6.4.2. _tTurbulence Basics -- _g6.4.3. _tTurbulent Boundary Layer -- _g6.4.4. _tBoundary Layer Separation -- _g6.4.4.1. _tThe Centerboard Problem: Final Attempt -- _g6.4.4.2. _tProblems Harder than the Centerboard Problem -- _g6.5. _tEuler Equation -- _g6.5.1. _tD'Alembert's Paradox -- _g6.5.2. _tBernoulli's Equation -- _g6.5.3. _tCirculation -- _g6.5.4. _tKutta-joukowski Theorem -- _g6.5.5. _tLift's Many Explanations -- _g6.5.6. _tTwo Dimensions -- _g6.6. _tWhy Are Fluids So Complicated? -- _g7. _tSurfaces -- _g7.1. _tAn Example -- _g7.2. _tInadequate Theory -- _g7.3. _tCuriosities -- _g7.3.1. _tGolf Balls -- _g7.3.2. _tSwimming Speeds -- _g7.3.3. _tShark Imitations -- _g7.4. _tWhen Is It Smooth Enough? -- _g8. _tWaves and Wakes -- _g8.1. _tWave Shape -- _g8.2. _tWater Motion -- _g8.3. _tGravity Waves -- _g8.3.1. _tWave Frequency -- _g8.3.2. _tWave Speed -- _g8.4. _tCapillary Waves -- _g8.5. _tDamping -- _g8.6. _tWind and Waves -- _g8.6.1. _tFlat Water -- _g8.6.2. _tFetch -- _g8.6.3. _tWind and Wave Energies -- _g8.7. _tWave Packets and Group Velocity -- _g8.8. _tAn Example -- _g8.9. _tWakes -- _g8.9.1. _tProperties -- _g8.9.1.1. _tCenter Wake -- _g8.9.1.2. _tSide Wakes -- _g8.9.2. _tWake Energy and Hull Speed -- _g8.9.2.1. _tTwo Wakes Merge to One -- _g8.9.2.2. _tSailing Uphill -- _g8.9.2.3. _tScaling Model -- _g8.9.3. _tWake Properties Derived -- _g8.10. _tThe Importance of Waves -- _g9. _tWind -- _g9.1. _tTwo Examples -- _g9.2. _tTurbulence -- _g9.2.1. _tDetails of the Gusty Breeze -- _g9.2.2. _tTurbulence Theory -- _g9.3. _tWind up High -- _g9.3.1. _tResults -- _g9.3.2. _tTheory -- _g9.4. _tWeather -- _g9.4.1. _tPredictions and Guesses -- _g9.4.2. _tHigh-Pressure Systems -- _g9.4.3. _tLow-Pressure and Complications -- _g9.4.4. _tGeography -- _g9.5. _tApologies -- _g10. _tStrategy -- _g10.1. _tDirections -- _g10.1.1. _tIdeal Sailing Direction -- _g10.1.2. _tPreferred Direction -- _g10.1.3. _tRelation between the Ideal Sailing Direction and the Preferred Direction -- _g10.2. _tConstant Preferred Direction -- _g10.2.1. _tCondition for a Constant Preferred Direction -- _g10.2.2. _tFinish Line -- _g10.2.3. _tUpwind in a Constant Wind -- _g10.2.4. _tDownwind in a Constant Wind -- _g10.2.5. _tUpwind in a Changing Wind -- _g10.2.6. _tDownwind in a Changing Wind -- _g10.3. _tVariable Preferred Direction -- _g10.3.1. _tRings -- _g10.3.2. _tSailboat Ring Growth -- _g10.3.3. _tWind Speed Varies with Position -- _g10.3.4. _tWind Direction Varies with Position -- _g10.4. _tCurrent -- _g10.5. _tLeast-Time Path -- _g10.6. _tLight Analogy -- _g10.7. _tMathematical Approach -- _g10.8. _tPredicting the Wind -- _g10.8.1. _tWater's Color -- _g10.8.2. _tLight Reflection and Polarization -- _g10.8.3. _tScanning the Horizon for Wind -- _g10.8.4. _tWhichDirection Is the Wind Blowing? -- _g10.8.5. _tWhichWay Was the Wind Blowing? -- _g10.9. _tReal Sailing -- _g11. _tFinally. |
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_aSailboats _xDesign and construction _9786845 |
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