Description
Unlike many books covering the principles involved in the flight of aircraft, this book avoids most of the math and highly esoteric theories in favor of exploring the root concepts behind the principles of flight, using a readable conversational style. For someone interested in learning about aerodynamics and what makes aircraft fly, this would be a good first read to introduce most of the concepts in a meaningful way (without adding an extra layer or three of confusion by trying to simultaneously learn and understand complex mathematical formulas). In fact, nearly all of the math in this book is of the conceptual type… “Newton’s second law says that the force is equal to the mass times acceleration” and so forth. While not delving very deeply into the algebra and calculus used to precisely calculate aircraft performance, this book does a good job of conveying many important principles and putting them into a useful context. The text contains many real-life examples where aircraft utilize the features being discussed, and there are many illustrations and charts to further enhance understanding. There are also many sidebars with interesting historical “factoids” relating to the topic at hand. The authors even manage to debunk quite a few very common misconceptions and demonstrations incorrectly attributed to Bernoulli’s principle.
Written by David F. Anderson and Scott Eberhardt, Copyright 2001. ISBN 0-07-136377-7. Published by McGraw-Hill. 256 Pages, Softcover.
Chapters include:
| Introduction 1. Basic concepts  Airplane nomenclatureThe airplaneAirfoils and wingsAxes of controlThe turnThe four forcesMach numberKinetic energyAir pressuresThe Pitot tubeVenturi and throatWrapping it up2. How airplanes fly The popular description of liftThe mathematical description of liftThe physical description of liftNewton’s three lawsThe Coanda effectViscosity and liftLift on a wingDownwashDoes the earth support the airplane?The adjustment of liftAngle of attackThe wing as a scoop for airPutting it all togetherPowerInduced powerParasitic powerThe power curveThe effect of load on induced powerDragThe wing’s efficiency for liftThe physics of efficiencyLift requires powerWing vorticesCirculationFlight of insectsGround effectWrapping it up3. Wings Airfoil selectionWing incidence and camberWing thicknessLeading edgeWing planformsWing loadingAspect ratioSweepTaperTwistWing configurationDihedralHigh wings vs. low wingsCowling saves the Boeing 737Wingtip designsWingletsCanardsBoundary-layer turbulenceIce on a wingBoundary-layer turbulenceForm dragThe golf ballVortex generatorsHigh-lift devicesFlapsSlots and slatesDeflected slipstream and jet washWrapping it up4. Stability and Control Static stabilityLongitudinal stabilityStability of a symmetric wingBalanceThe horizontal stabilizerTrimFlying wingsHorizontal stabilizer sizingDirectional stabilityDynamic stabilityPhugoid motionDutch rollSpiral instabilityStability augmentationHandlingFly-by-wireWrapping it up |
5. Airplane PropulsionIt’s Newton againThrustPowerEfficiencyPropellersMultibladed propellersPropeller pitchPiston enginesThe turbine engineCompressorsBurnersTurbinesThe turbojetJet engine power and efficiencyThe turbofanThe turbopropThrust reversersThrust vectoringThrust augmentationWrapping it up 6. High-speed flight Mach numberLift is still a reaction forceCompressible airShock wavesWave drag and powerTransonic flightWing sweepArea ruleHypersonic flightSkin HeatingWrapping it up7. Airplane performance Lift-to-drag ratioLift-to-drag ratio from the engineer’s perspectiveGlideOut of fuelIndicated airspeedTakeoff performanceClimbCeilingFuel consumptionMaximum enduranceMaximum rangeTurnsStall speed limitStructural strength limitPropulsive power limitStandard-rate turnsLandingWrapping it up8. Aerodynamic testing Wind-tunnel testingSubsonic wind tunnelsClosed-circuit tunnelsWind-tunnel dataSupersonic venturisSupersonic wind tunnelsHypersonic testingFlight testingFlight instrument calibrationThe standard dayPower requiredPower required dataTakeoff and landingClimbing and turningFlight test accidentsWrapping it upAppendix Misapplications of Bernoulli’s principleIndex |
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