The standard handbook for aeronautical and astronautical engineers:
Gespeichert in:
| Weitere Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
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New York [u.a.]
McGraw-Hill
2003
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| Schriftenreihe: | McGraw-Hill standard handbooks
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| Schlagworte: | |
| Online-Zugang: | Table of contents Inhaltsverzeichnis |
| Beschreibung: | getr. Zählung Ill., graph. Darst., Kt. |
| ISBN: | 0071362290 |
Internformat
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| 245 | 1 | 0 | |a The standard handbook for aeronautical and astronautical engineers |c Mark Davies, ed.-in-chief |
| 264 | 1 | |a New York [u.a.] |b McGraw-Hill |c 2003 | |
| 300 | |a getr. Zählung |b Ill., graph. Darst., Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a McGraw-Hill standard handbooks | |
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| 700 | 1 | |a Davies, Mark |4 edt | |
| 856 | 4 | |u http://www.loc.gov/catdir/toc/mh031/2002032551.html |3 Table of contents | |
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Datensatz im Suchindex
| _version_ | 1804129409663238144 |
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| adam_text | ********** LIST OF CONTRIBUTORS XXI PREFACE XXV SECTION 1. NEW VISION
TOR FUTURE AEROSPACE VEHICLES AND SYSTEMS 1.1 1.1. LEARNING FROM LIVING
SYSTEMS I 1.1 1.2. REVOLUTIONARY VEHIELES I 1.3 1.3. FUTURE SPAEE
TRANSPORTATION I 1.6 1.4. FUTURE AIRSPAEE SYSTEM I 1.7 1.5. NEEDED:
INTELLEETUAL INFRASTRUETURE I 1.11 1.6. SMART VEHIELE, HEAL THYSELF I
1.12 1.7. WORKING FOR MORE SEEURE AIRSPAEE I 1.14 SECTION 2. ENGINEERING
MATHEMATICS, UNITS, SYMBOLS, AND CONSTANTS 2.1 PART 1. TRIGONOMETRIE F U
N C T I O N S A N D G E N E R A L F O N N U L A E 2.1.
MATHEMATIEAL SIGNS AND SYMBOLS I 2.2. TRIGONOMETRIE FORMULAE I 2.4 2.3.
TRIGONOMETRIE VALUES I 2.5 2.4. APPROXIMATIONS FOR SMALL ANGLES I 2.5.
SOLUTION OF TRIANGLES I 2.6 2.6. SPHERIEAL TRIANGLE I 2.7 2.7.
EXPONENTIAL FORM I 2.7 2.8. DE MOIVRE S THEOREM I 2.7 2.9. EULER S
RELATION I 2.7 2.10. HYPERBOLIE FUNETIONS I 2.7 2.11. COMPLEX VARIABLE I
2.8 2.12. CAUEHY-RIEMANN EQUATIONS 2.9 2.13. CAUEHY S THEOREM I 2.9
2.14. ZEROES, POLES, AND RESIDUES I 2.9 2.15. SOME STANDARD FORMS I 2.10
2.16. COORDINATE SYSTEMS I 2.10 2.17. TRANSFORMATION OF INTEGRALS I 2.11
2.18. LAPLAEE S EQUATION I 2.11 2.19. SOLUTION OF EQUATIONS I 2.12 2.20.
METHOD OF LEAST SQUARES I 2.14 2.2 2.6 PART 2. C A L C U L U S 2.21.
DERIVATIVE I 2./6 2.22. MAXIMA AND MINIMA I 2.16 2.23. INTEGRAL I 2.17
2.24. DERIVATIVES AND INTEGRALS I 2.18 V VI CONTENTS 2.25. STANDARD
SUBSTITUTIONS / 2.19 2.26. REDUETION FORMULAE / 2.19 2.27. NUMERICAI
INTEGRATION / 2.20 2.28. VEETOR CALCULUS / 2.21 PART 3. SERIES AND
TRANSFONNS 2.29. ARITHMETIE SERIES / 2.23 2.30. GEOMETRIE SERIES / 2.23
2.31. BINOMIAL SERIES / 2.23 2.32. TAYLOR S SERIES / 2.23 2.33.
MACLAURIN S SERIES / 2.24 2.34. LAURENT S SERIES / 2.24 2.35. POWER
SERIES FOR REAL VARIABLES / 2.24 2.36. INTEGER SERIES / 2.25 2.37.
FOURIER SERIES / 2.25 2.38. REETIFIED SINE WAVE / 2.26 2.39. SQUARE WAVE
/ 2.26 2.40. TRIANGULAR WAVE / 2.27 2.41. SAWTOOTH WAVE / 2.27 2.42.
PULSE WAVE / 2.27 2.43. FOURIER TRANSFORMS / 2.27 2.44. LAPLAEE
TRANSFORMS / 2.29 PART 4. MATRICES AND DETENNINANTS 2.45. LINEAR
SIMULTANEOUS EQUATIONS / 2.30 2.46. MATRIX ARITHMETIE / 2.30 2.47.
EIGENVALUES AND EIGENVEETORS / 2.3/ 2.48. COORDINATE TRANSFORMATION /
2.32 2.49. DETERMINANTS / 2.32 2.50. PROPERTIES OF DETERMINANTS / 2.33
2.51. NUMERICAL SOLUTION OF LINEAR EQUATIONS / 2.33 PART S. DIFFERENTIAL
EQUATIONS 2.52. NOTATION AND DEFINITIONS / 2.35 2.53. ORDINARY
DIFFERENTIAL EQUATIONS: ANALYTIEAL SOLUTIONS / 2.36 2.54. ORDINARY
DIFFERENTIAL EQUATIONS: APPROXIMATE SOLUTIONS / 2.40 2.55. PARTIAL
DIFFERENTIAL EQUATIONS / 2.45 PART 6. STATISTICS 2.56. INTRODUETION /
2.52 2.57. AVERAGES / 2.52 2.58. DISPERSION / 2.53 2.59. SKEWNESS / 2.54
2.60. COMBINATIONS AND PERMUTATIONS / 2.55 2.61. REGRESSION AND
CORRELATION / 2.56 2.62. PROBABILITY / 2.58 2.63. PROBABILITY
DISTRIBUTIONS / 2.59 2.64. SAMPLING / 2.63 2.65. TESTS OF SIGNIFIEANEE /
2.65 PART 7. SI UNITS 2.66. DERIVED VNITS / 2.69 2.67. GRAVITATIONAL AND
ABSOLUTE SYSTEMS / 2.69 2.68. EXPRESSING MAGNITUDES OF SI VNITS / 2.70
2.69. RULES FOR VSE OF SI VNITS AND THE DECIMAL MULTIPLES AND
SUBMULTIPLES / 2.70 2.70. SI QUANTITIES. VNITS, AND SYMBOLS / 2.7/ VII
CONTENTS PART 8. CONVERSION OF EXISTING IMPERIAL TERMS PART 9.
ABBREVIATIONS PART 10. PHYSICAL AND CHEMIEAL CONSTANTS 2.71. ATOMIC
NUMBER I 2.95 2.72. ATOMIC WEIGHT I 2.95 2.73. DENSITY I 2.95 2.74.
MELTING POINT I 2.95 2.75. LINEAR COEFFICIENT OF EXPANSION I 2.95 2.76.
HEAT CONDUCTIVITY I 2./0/ 2.77. ELECTRICAL RESISTIVITY I 2./0/ SECTION
3. MECHANICAL ENGINEERING PRINCIPLES PART 1. STATIES OF RIGID BODIES
PART 2. STRENGTH OF MATERIALS PART 3. DYNAMIES OF RIGID BODIES 3.1.
BASIC DEFINITIONS I 3.7 3.2. LINEAR AND ANGULAR MOTION IN TWO DIMENSIONS
I 3.9 3.3. CIRCULAR MOTION I 3.// 3.4. LINEAR AND ANGULAR MOTION IN
THREE DIMENSIONS I 3./2 3.5. BALANCING I 3./4 3.6. BALANCING OF ROTATING
MASSES / 3./4 PART 4. VIBRATIONS 3.7. SINGLE-DEGREE-OF-FREEDOM SYSTEMS I
3./8 3.8. MULTI-DEGREE-OF-FREEDOM SYSTEMS I 3.29 3.9. RANDOM VIBRATIONS
I 3.3/ PART 5. MECHANIES OF FLUIDS 3.10. INTRODUCTION I 3.39 3.11. FLUID
STATICS I 3.39 3.12. FLUID FLOW I 3.43 3.13. FLOW MEASUREMENT I 3.52
3.14. BOUNDARY LAYER FLOW I 3.54 3.15. PRESSURE TRANSIENTS I 3.58 3.16.
GAS FLOW I 3.60 3.17. IDEAL FLUID FLOW I 3.65 3.18. CONCLUSION I 3.69
PART 6. PRINCIPLES OF THENNODYNAMICS 3.19. LNTRODUCTION I 3.70 3.20. THE
LAWS OF THERMODYNAMICS I 3.70 3.21. THERMOECONOMICS I 3.72 3.22. WORK.
HEAT. PROPERTY VALUES, PROCESS LAWS AND COMBUSTION I 3.73 3.23. CYCLE
ANALYSIS I 3.74 PART 7. REAT TRANSFER 3.24. INTRODUCTION I 3.80 3.25.
BASIC PRINCIPLES OF HEAT TRANSFER I 3.80 3.26. ANALYSIS OF HEAT TRANSFER
I 3.87 3.27. USE OF COMPUTERS I 3.98 3.28. HEAT TRANSFER: NOMENCLATURE I
3.99 3.1 VIII CONTENTS SECTION 4. ELECTRICAL AND ELECTRONIC PRINCIPLES
4.1 4.1. BASIC ELECTRICAL TECHNOLOGY / 4.1 4.2. ELECTRICAL MACHINES /
4.30 4.3. ANALOG AND DIGITAL ELECTRONICS THEORY / 4.69 4.4. ELECTRICAL
SAFETY / 4.114 SECTION 5. COMPUTING 5.1 5.1. INTRODUCTION / 5.1 5.2.
GENERATIONS OF DIGITAL COMPUTERS / 5.1 5.3. DIGITAL COMPUTER SYSTEMS /
5.3 5.4. CATEGORIES OF COMPUTER SYSTEMS / 5.5 5.5. CENTRAL PROCESSOR
UNIT / 5.7 5.6. MEMORY / 5.14 5.7. PERIPHERALS / 5.22 5.8. OUTPUT
DEVICES / 5.23 5.9. TERMINALS / 5.24 5.1 O. PRINTERS AND PLOTTERS / 5.25
5.11. DIRECT INPUT / 5.28 5.12. SECONDARY STORAGE / 5.29 5.13.. DIGITAL
AND ANALOG INPUT/OUTPUT / 5.35 5.14. DATA COMMUNICATIONS / 5.37 5.15.
COMPUTER NETWORKS / 5.50 5.16. INTERNET / 5.58 5.17. SOFTWARE / 5.60
5.18. DATABASE MANAGEMENT / 5.66 5.19. LANGUAGE TRANSLATORS / 5.69 5.20.
LANGUAGES / 5.71 SECTION 6. MICROPROCESSORS, INSTRUMENTATION, AND
CONTROL 6.1 PART 1. SUMMARY OF NUMBER SYSTEMS 6. I. ASCII CODE / 6.3
6.2. GRAY CODE / 6.4 PART 2. MICROPROCESSORS 6.3. SYSTEM ARCHITECTURE /
6.5 6.4. BUS STRUCTURE / 6.6 6.5. MEMORY DEVICES / 6.6 6.6. INPUT!
OUTPUT (11 0) STRUCTURE / 6.7 6.7. MEMORY MAP / 6.9 PART 3.
COMMUNICATION STANDARDS 6.8. SERIAL COMMUNICATION / 6.11 6.9. PARALLEL
COMMUNICATION / 6.12 PART 4. INTERFACING OF COMPUTERS TO SYSTEMS 6.10.
DIGITAL INTERFACING / 6.14 6.1 1. CONTROLLER OUTPUT INTERFACE HARDWARE /
6.16 6.12. ANALOG INTERFACING / 6.21 6.13. MULTIPLEXING / 6.26 6.14.
MACHINE TOOL INTERFACES / 6.28 IX CONTENTS 6.15. ROBOT CONTROL
INTERFACES / 6.29 6.16. SIGNAL CONDITIONING / 6.31 6.17. ANALOG AND
DIGITAL FILTERING / 6.34 PART 5. INSTRUMENTATION 6.18. INTRODUCTION /
6.37 6.19. DIMENSIONAL/GEOMETRICAL MEASUREMENTS / 6.40 6.20. VOLUME AND
LEVEL / 6.48 6.21. MEASUREMENT OF VIBRATION / 6.50 6.22. FORCE/WEIGHT
MEASUREMENT / 6.51 6.23. PRESSURE / 6.53 6.24. FLOW / 6.55 6.25.
TEMPERATURE MEASUREMENT / 6.59 6.26. BAR CODE READERS / 6.67 PART 6.
C1A LSICAL CONTROL THEORY AND PRACTICE 6.27. INTRODUCTION / 6.69 6.28.
MATHEMATICAL MODELS OF SYSTEMS-TIME DOMAIN ANALYSIS / 6.75 6.29. LAPLACE
NOTATION FOR DIFFERENTIAL EQUATIONS-FREQUENCY-DOMAIN ANALYSIS / 6.80
6.30. STABILITY CRITERIA / 6.83 6.31. CONTROL STRATEGIES / 6.89 PART 7.
MICROPROCESSOR-BASED CONTROL 6.32. DIRECT DIGITAL CONTROL / 6.109 6.33.
HARDWARE REQUIREMENTS / 6.110 6.34. SOFTWARE CONSIDERATIONS / 6.111
6.35. SAMPLING FREQUENCY IN DIGITAL CONTROL LOOPS / 6.114 6.36. PLD
DIGITAL CONTROL AIGORITHM / 6.115 6.37. SPEED CONTROL / 6.117 6.38. THE
PC AS A CONTROLLER / 6.119 PART 8. PROGRAMMABLE LOGIC CONTROLLERS 6.39.
THE PLC IN AUTOMATION SYSTEMS / 6.122 6.40. THE PLC VERSUS THE
MICROCOMPUTER / 6.123 6.41. LADDER LOGIC PROGRAMMING / 6.125 6.42.
CONTROLLING PNEUMATIC AND HYDRAULIC SYSTEMS / 6.129 6.43. SAFETY / 6.131
6.44. NETWORKING OF PLCS / 6.131 PART 9. THE Z- TRANSFORM 6.45.
REPRESENTATION OF DISCRETELY SAMPLED DATA / 6.134 6.46. THE Z-TRANSFORM
OF A CLOSED-LOOP SYSTEM / 6.138 6.47. PROPORTIONAL CONTROL USING DIGITAL
TECHNIQUES / 6.141 6.48. THE Z-TRANSFORM FOR A PLD CONTROLLER / 6.142
6.49. A P + I STRATEGY USING DIGITAL TECHNIQUES / 6.143 6.50. STABILITY
IN DISCRETE TIME SYSTEMS / 6.145 PART 10. STATE VARIABLE TECHNIQUES 6.5
J. STATE VARIABLE REPRESENTATION OF SYSTEMS / 6.146 6.52. APPLICATION TO
A FIRST-ORDER SYSTEM WITH A P + I CONTROLLER / 6.150 6.53. APPLICATION
TO A SECOND-ORDER SYSTEM WITH A P + I CONTROLLER / 6.151 6.54. NONLINEAR
SYSTEM ELEMENTS (METHOD OF ISOCLINES) / 6.153 6.55. SAMPLED-DATA SYSTEMS
/ 6.161 6.56. STATE VARIABLE TRANSFORMATIONS / 6.163 6.57. THE STATE OF
TRANSITION MATRIX / 6.166 X CONTENTS SECTION 7. AERONAUTICAL PROPULSION
7.1 7.1. NEWTON AND PROPULSION I 7.1 7.2. TURBOJETS AND PROPELLERS I 7.2
7.3. THRUST EQUATION I 7.3 7.4. ENGINE CYCLES I 7.4 7.5. GAS TURBINE
ENGINES I 7.7 7.6. IDEAL ENGINE CYCLE ANALYSIS I 7.7 7.7. GOALS OF CYCLE
ANALYSIS I 7.9 7.8. GENERAL PROCEDURE FOR CYCLE ANALYSIS I 7.10 7.9. THE
TURBOJET I 7.12 7.10. THE TURBOFAN I 7.16 7.11. THE TURBOPROP I 7.18
7.12. GAS TURBINE COMPONENT TECHNOLOGY I 7.21 7.13. REAL GAS PROPERTIES
I 7.28 7.14. RAMJETS AND SCRAMJETS I 7.28 7.15. RECIPROCATING ENGINES I
7.33 7.16. AIRCRAFT ENGINE EMISSIONS AND FUELS I 7.37 7.17. ENGINENOISE
I 7.39 SECTION 8. ROCKETS AND LAUNCH VEHICLES 8.1 8.1. ROCKET SCIENCE I
8.1 8.2. PROPULSION SYSTEMS I 8.22 8.3. LAUNCH VEHICLES I 8.43 SECTION
9. AEROSPACE STRUCTURES PART 1. AIRCRAFT LOADINGS PART 2. PROPERTIES OF
MATERIALS 9.1. METALS I 9.6 9.2. COMPOSITES I 9:12 9.3. SMART MATERIALS
I 9.13 PART 3. STRUETURAL CONSIDERATIONS 9.4. STRUCTURAJ ANALYSIS I 9.15
9.5. FINITE ELEMENT ANALYSIS I 9.17 9.6. BEAMS I 9.19 9.7. TUBES I 9.24
9.8. PLATES AND SHELLS I 9.26 9.9. REAL STRUCTURES I 9.31 9.10. STRESS
CONCENTRATIONS I 9.38 9.11. COMPOSITE STRUCTURES I 9.39 9.12. STRUCTURAL
TESTS I 9.41 PART 4. STRUETURAL DYNAMIES 9.13. INTRODUCTION I 9.44 9.14.
MULTIPLE DEGREE OF FREEDOM VIBRATION I 9.44 9.15. MDOF FREE
VIBRATION-LUMPED MASS MODELS I 9.44 9.16. SETTING UP EQUATIONS OF
MOTION-FINITE-ELEMENT APPROACH I 9.46 9.17. GLOBAL STIFFNESS AND MASS
MATRICES-ELEMENT ASSEMBLY I 9.47 9.18. MOOF VIBRATION-SETTING UP
EQUATIONS OF MOTION-RAYLEIGH-RITZ METHOD I 9.48 9.1 XI CONTENTS 9.19.
AEROELASTICITY / 9.56 9.20. NOISE / 9.6L 9.21. HELICOPTERS / 9.6L 9.22.
AIRCRAFT AIRWORTHINESS CERTIFICATION / 9.62 9.23. AEROELASTIC DESIGN /
9.64 PART 5. SPACECRART STRUCTURES 9.24. ROLE OF SPACECRAFT STRUCTURES
AND VARIOUS INTERFACES / 9.65 9.25. MECHANICAL REQUIREMENTS / 9.67 9.26.
SPACE MISSION ENVIRONMENT AND MECHANICAL LOADS / 9.68 9.27. PROJECT
OVERVIEW: SUCCESSIVE DESIGNS AND ITERATIVE VERIFICATION OF STRUCTURAL*
REQUIREMENTS / 9.70* 9.28. ANALYTICAL EVALUATIONS / 9.7L 9.29. TEST
VERIFICATION, QUALIFICATION, AND F1IGHT ACCEPTANCE / 9.72 9.30.
SATELLITE QUALIFICATION AND F1IGHT ACCEPTANCE / 9.74 9.31. MATERIALS AND
PROCESSES / 9.75 9.32. MANUFACTURING OF SPACECRAFT STRUCTURES / 9.77
SECTION 10, AERODYNAMICS, PERFORMANCE AND STABILITY AND CONTROL 10.1
10.1. INTRODUCTION / LO.L PART 1. AERODYNAMICS 10.2. AIRFOIL GEOMETRIC
AND AERODYNAMIC DEFINITIONS / LO.5 10.3. WING GEOMETRIC AND AERODYNAMIC
DEFINITIONS / LO.13 10.4. FUNDAMENTALS OF VECTOR FLUID DYNAMICS / LO.L6
10.5. FUNDAMENTALS OF POTENTIAL F10W / LO.24 10.6. ELEMENTARY BOUNDARY
LAYER FLOW / L0.34 10.7. INCOMPRESSIBLE F10W OVER AIRFOILS / L0.42 10.8.
INCOMPRESSIBLE F10W OVER FINITE WINGS / LO.63 10.9. SHOCK WAVE
RELATIONSHIPS / LO.76 10.10. COMPRESSIBLE FLOW OVER AIRFOILS / LO.85
10.11. COMPRESSIBLE FLOW OVER FINITE WINGS / LO.94 PART 2. AIRPLANE
PERFORMANCE 10.12. STANDARD ATMOSPHERE AND HEIGHT MEASUREMENT / LO.108
10.13. AIRSPEED AND AIRSPEED MEASUREMENT / LO.1L9 10.14. DRAG AND DRAG
POWER (POWER REQUIRED) / LO.L22 10.15. ENGINE (POWERPLANT) PERFORMANCE /
LO.L27 10.16. LEVEL F1IGHT PERFORMANCE / LO.L34 10.17. CLIMBING AND
DESCENDING F1IGHT / LO.L38 10.18. TURNING PERFORMANCE / LO.L46 10.19.
STALL AND SPIN / LO.L48 10.20. RANGE AND ENDURANCE / LO.L50 10.21.
TAKEOFFAND LANDING PERFORMANCE / LO.L56 10.22. AIRPLANE OPERATIONS /
LO.L63 PART 3. AIRCRART STABILITY AND CONTROL 10.23. MATHEMATICAL
MODELING AND SIMULATION OF FIXED WING AIRCRAFT / LO.L72 10.24.
DEVELOPMENT OF THE LINEARIZED EQUATIONS OF MOTION / LO.179 10.25.
CALCULATION OF AERODYNAMIC DERIVATIVES / LO.L88 10.26. AIRCRAFT DYNAMIC
STABILITY / LO.L9L 10.27. AIRCRAFT RESPONSE TO CONTROLS AND ATMOSPHERIC
DISTURBANCES / LO.L96 XII CONTENTS SECTION 11. AVIONICS AND ASTRIONIES
11.1 PART 1. THE ELECTROMAGNETIC SPECTRUM 11.1. RADIOWAVES IN THE VACUUM
I LJ.2 11.2. ANTENNAS AND POWER BUDGET OF A RADIO LINK I LJ.3 11.3.
RADIOWAVE PROPAGATION IN THE TERRESTRIAL ENVIRONMENT I LJ.4 11.4.
MANAGEMENT OF THE ELECTROMAGNETIC SPECTRUM I 11.7 PART 2. THE SPACECRAFT
ENVIRONMENT 11.5. INTRODUCTION TO THE SPACE ENVIRONMENT I 11.9 11.6.
EFFECTS OF THE SPACE ENVIRONMENT ON SPACECRAFT. LAUNCHERS AND AIRPLANES
I 11./0 11.7. THE ENERGETIC CHARGED PARTICLE ENVIRONMENT I 1L.13 PART 3.
AIRCRAFT ENVIRONMENT 11.8. TYPICAL FLIGHT PROFILE FOR COMMERCIAL
AIRPLANES I 11.21 11.9. THE ATMOSPHERE I LJ.23 11.10. OTHER ATMOSPHERIC
HAZARDS I LJ.31 11.11. THE IONOSPHERE I LJ.35 PART 4. ELECTROMAGNETIC
COMPATIBILITY 11.12. INTRODUCTION I LJ.36 11.13. BACKGROUND OF EM
COUPLING I LJ.37 11.14. EM ENVIRONMENT AND EMC STANDARDS I LJ.40 11.15.
EMC TOOLS I LJ.42 11.16. ENGINEERING METHOD I LJ.45 11.17. CONCLUSION I
LJ.47 PART 5. INTRODUCTION TO RADAR 11.18. HISTORICAL BACKGROUND I LJ.49
11.19. BASIC PRINCIPLES I LJ.49 11.20. TRENDS IN RADAR TECHNOLOGY I
1L.55 11.21. RADAR APPLICATIONS TO AERONAUTICS I 1L.57 11.22. OVERVIEW
OF MILITARY REQUIREMENTS AND SPECIFIC DEVELOPMENTS I 11.59 11.23.
OVERVIEW OF RADAR APPLICATIONS TO SPACE I 11.60 PART 6. OPTICAL FIBERS
AND LASERS 11.24. OPTICAL FIBER THEORY AND APPLICATIONS I LJ.62 11.25.
LASERS I LL. 72 11.26. SPECIFIC LASER SYSTEMS I 11.81 PART 7.
PHOTOVOLTAICS 11.27. SOLAR RADIATION I 1L.86 11.28. PHOTOVOLTAIC CELL I
11.86 11.29. THE SOLAR ARRAY I LJ.88 PART 8. AIRCRAFT FLIGHT CONTROL
SYSTEMS 11.30. FOREWORD I LJ.91 11.31. FLIGHT CONTROL OBJECTIVES AND
PRINCIPLES I LL. 91 11.32. FLIGHT CONTROL SYSTEMS DESIGN I LJ.97 11.33.
AIRBUS FLY-BY-WIRE: AN EXAMPLE OF MODERN FLIGHT CONTROL I I U05 11.34.
SOME CONTROL CHALLENGES I LL. LJ 8 11.35. CONCLUSION I LJ.120 CONTENTS
XIII PART 9. SPACE BORNE INSTRUMENTS 11.36. SPACE BORNE SYNTHETIC
APERTURE RADAR (SAR) / 11.123 11.37. OTHER MICROWAVE INSTRUMENTS /
11.129 11.38. SPACECRAFT SENSORS AND INSTRUMENTATION / 11.132 11.39.
SPECTRO-I MAGERS / LJ. 141 11.40. ACTIVE INSTRUMENTATION: SPACE LIDARS /
11.146 11.41. PASSIVE SOUNDING FROM SPACE / LJ. 152 PART 10. IN-FLIGHT
COMPUTING 11.42. INTRODUCTION TO AVIONICS / LJ.156 11.43. REQUIREMENTS
FOR AVIONICS / 11.157 11.44. PHYSICAL ARCHITECTURE / LJ. 159 11.45.
AVIONICS LOGICAL ARCHITECTURE / 11.164 11.46. AVIONICS EXAMPLE: THE
AIRBUS A320 FLIGHT CONTROL SYSTEM / 11.169 11.47. ENGINEERING OF
AVIONICS SYSTEM / 11.172 11.48. FUTURE AVIONICS / 11.175 PART 11.
IN-SPACE COMPUTING 11.49. INTRODUCTION / 11.178 11.50. PHYSICAL
ARCHITECTURES OF AVIONICS / 11.182 11.51. ON-BOARD SOFTWARE / LJ.188
11.52. DEVELOPMENT OF AVIONICS SYSTEM / 11.195 11.53. ADVANCED
DEVELOPMENT METHODS / 11.203 11.54. FUTURE AVIONICS FUNCTIONS / 11.208
SECTION 12. AIRCRAFT SYSTEMS 12.1 12.1. INTRODUCTION / 12.1 12.2. AIR
CONDITIONING (ATA 21) / 12.19 12.3. ELECTRICAL POWER (ATA 24) / 12.28
12.4. EQUIPMENT/FURNISHINGS (ATA 25) / 12.35 12.5. FIRE PROTECTION (ATA
26) / 12.41 12.6. F1IGHT CONTROLS (ATA 27) / 12.50 12.7. FUE1 (ATA 28) /
12.52 12.8. HYDRAULIC POWER (ATA 29) / 12.59 12.9. ICE AND RAIN
PROTECTION (ATA 30) / 12.68 12.10. LANDING GEAR (ATA 32) / 12.81 12.11.
LIGHTS (ATA 33) / 12.82 12.12. OXYGEN (ATA 35) / 12.84 12.13. PNEUMATIC
(ATA 36) / 12.91 12.14. WATER/WASTE (ATA 38) / 12.97 12.15. AIRBORNE
AUXILIARY POWER (ATA 49) / 12.100 12.16. AVIONIC SYSTEMS / 12.102
SECTION 13. AERONAUTICAL DESIGN 13.1. DEFINITIONS / 13.1 13.2.
INTRODUCTION / 13.1 13.3. OVERALL APPROACH / 13.2 13.4. GOVERNMENT
REGULATIONS / 13.11 13.5. CONCEPTUAL DESIGN / 13.18 13.6. MILITARY
AIRCRAFT DESIGN / 13.45 13.1 14.1 XIV CONTENTS 13.7. COMMERCIAL AND
CIVIL AIRCRAFT DESIGN I 13.49 13.8. LIFE CYCLE COST (LCE) I 13.49 13.9.
COMMERCIAL AIRCRAFT OPERATING COSTS I 13.52 13.10. UNMANNED AIR VEHICLES
I 13.55 13.11. LIGHTER-THAN-AIR VEHICLES (LTA) I 13.56 13.12. V ISTOL
AIR VEHICLES I 13.62 13.13. PERFORMANCE I 13.68 SECTION 14.
ASTRODYNAMICS 14.1. ORBITAL MECHANICS I 14.2 14.2. ORBITAL MANEUVERS I
14.12 14.3. EARTH ORBITING SATELLITES I 14.21 14.4. INTERPLANETARY
MISSIONS I 14.33 SECTION 15. SPACECRAFT PART 1. INTRODUCTION PART 2.
PLATFORM TECHNOLOGIES 15.1. SPACECRAFT STRUCTURE I 15.4 15.2. THERMAL
CONTROL I 15.7 15.3. SOLAR CELLS I 15.8 15.4. ATTITUDE CONTROL I 15.9
PART 3. LAUNCH AND REENTRY VEHICLES 15.5. SEMIREUSABLE LAUNCH VEHICLES I
15.11 15.6. EXPENDABLE LAUNCH VEHICLES (ELVS) I 15.15 15.7. SOUNDING
ROCKETS I 15.16 15.8. GUNS, MASS DRIVERS, SIED, ENERGY BEAM-ASSISTED
VEHICLES. PARABOLIC F1IGHT AIRCRAFT, AND DROP TOWERS I 15.17 15.9.
REENTRY VEHICLES I 15.18 PART 4. SATELLITES 15.10. COMMUNICATIONS
SATELLITES I 15.24 15.11. SATELLITE NAVIGATION I 15.25 15.12.
METEOROLOGY I 15.33 15.13. EARTH RESOURCES SATELLITES I 15.33 15.14.
MILITARY SATELLITES I 15.33 15.15. SATELLITE INSTRUMENT PACKAGES I 15.34
PART S. ORBITAL AND MISSION SPACECRAFT AND SPACE STATIONS 15.16. ORBITAL
SPACECRAFT I 15.37 15.17. TRANSFER AND SUPPLY VEHICLES AND UPPER STAGES
I 15.39 15.18. PLANETARY ORBITERS I 15.41 15.19. PLANETARY LANDERS I
15.43 15.20. ORBITAL LABORATORIES I 15.43 15.21. SPACE STATIONS I 15.44
15.22. MANNED INTERPLANETARY SPACECRAFT AND LANDERS I 15.47 15.23.
MANNED PLANETARY BASES I 15.50 PART 6. PAYLOAD MANAGEMENT 15.24.
OVERVIEW I 15.51 15.25. PLANETARY MISSION INSTRUMENT PACKAGES I 15.51
15.1 CONTENTS XV 15.26. SPACE LABORATORY RACK SYSTEMS / 15.58 /5.27.
SPACE MEDICINE EXPERIMENTS / 15.60 15.28. EXPOSED PAYLOADS / 15.61
15.29. SOUNDING ROCKET PAYLOADS / 15.61 PART 7. HUMAN FACTORS 15.30.
SUBSTANTIVE OVERVIEW / 15.62 15.31. DESIGN GUIDELINES /15.66 15.32.
DISCUSSION OF SELECTED HUMAN FACTORS PRINCIPLES 15.33. HEALTH CARE /
15.71 / 15.70 PART 8. NUTRITION AND SANITATION PART 9. SPACE SUITS
15.34. PRESSURE SUITS / 15.96 15.35. EVA SUITS / 15.98 SECTION 16.
EARTH S ENVIRONMENT AND SPACE 16.1 PART 1. THE EARTH AND ITS ATMOSPHERE
16.1. THE EARTH IN SPACE / 16.2 16.2. PROPERTIES OF THE EARTH S
ATMOSPHERE / 16.2 16.3. HOW THE EARTH S ATMOSPHERE WORKS / 16.5 16.4.
ATMOSPHERE DYNAMICS AND ATMOSPHERE MODELS / 16.5. ELECTRICAL PHENOMENA
IN THE ATMOSPHERE / 16.11 16.7 PART 2. THE NEAR-EARTH SPACE ENVIRONMENT
16.6. BACKGROUND / 16.13 16.7. THE PLASMA ENVIRONMENT / 16.14 16.8. THE
NEUTRAL GAS ENVIRONMENT / 16.17 16.9. THE VACUUM ENVIRONMENT / 16.19
16.10. THE RADIATION ENVIRONMENT / 16.19 16.11. THE MICROMETEOROID AND
SPACE DEBRIS ENVIRONMENT / 16.22 PART 3. THE SOLAR SYSTEM 16.12.
PHYSICAL PROPERTIES OF THE PI ANETS 16.13. SPACE AGE DISCOVERIES / 16.26
/ 16.24 PART 4. THE MOON 16.14. ORIGIN OF THE MOON / 16.32 16.15.
ORBITAL PARAMETERS / 16.33 16.16. LUNAR GEOGRAPHY / 16.35 16.17. LUNAR
GEOLOGY / 16.35 16.18. PHYSICAL SURFACE PROPERTIES / 16.19. LUNAR
SURFACE ENVIRONMENT / 16.38 16.45 PART 5. MARS 16.20. ORBITAL
CHARACTERISTICS / 16.51 16.21. SOLID GEOPHYSICAL PROPERTIES AND
INTERIORS 16.22. SURFACE AND SUBSURFACE / 16.53 16.23. ATMOSPHERE /
16.58 16.24. SATELLITES / 16.59 16.25. SEARCH FOR LIFE ON MARS / 16.60
16.26. EXPLORATION / 16.61 / 16.51 XVI CONTENTS PART 6. THE SUN-EARTH
CONNECTION 16.27. INTRODUCTION I /6.64 16.28. THE SUN AND THE
HELIOSPHERE I /6.64 16.29. STRUCTURE AND DYNAMICS OF THE MAGNETOSPHERIC
SYSTEM I /6.67 16.30. THE SOLAR-TERRESTRIAL ENERGY CHAIN I /6.69 16.31.
DYNAMICS OF THE MAGNETOSPHERE-IONOSPHERE-ATMOSPHERE SYSTEM I /6.70
16.32. IMPORTANCE OF ATMOSPHERIC COUPLING I /6.74 16.33. SUN-EARTH
CONNECTIONS AND HUMAN TECHNOLOGY I /6.76 16.34. SUMMARY I /6.77 PART 7.
SPACE DEBRIS 16.35. INTRODUCTION I /6.79 16.36. SPATIAL DISTRIBUTION OF
SPACE DEBRIS I /6.82 16.37. THE COLLISION RISK I /6.84 16.38. THE
GEOSTATIONARY ORBIT I /6.84 16.39. LONG-TERM EVOLUTION OF THE SPACE
DEBRIS ENVIRONMENT AND MITIGATION MEASURES I /6.86 SECTION 17. AIRCRAFT
SAFETY PART 1. ORGANIZATIONAL SAFETY PROGRAM 17.1. INTRODUCTION I /7.2
17.2. SAFETY CONCEPTS I /7.2 17.3. ACCIDENT CAUSATION I /7.3 17.4.
PRINCIPLES OF SAFETY MANAGEMENT I /7.5 17.5. THE ACCIDENT-PREVENTION
PROCESS I /7.6 17.6. THE ELEMENTS OF AN ORGANIZATIONAL SAFETY PROGRAM I
/7.8 17.7. CONCLUSION I /7.// PART 2. AVIATION LAW 17.8. INTRODUCTION I
/7. /2 17.9. FEDERAL STATUTORY LAW I /7. /2 17.10. STATE CODES I /7./2
17.11. REGULATIONS I /7./2 17.12. THE COMMON LAW I /7. /3 17.13.
INDUSTRY STANDARDS I /7./3 17.14. THE SCOPE OF AVIATION LAW I /7./4
17.15. FAA ENFORCEMENT ADMINISTRATIVE ACTIONS I /7. /5 17.16.
INTERNATIONAL TREATIESLICAO I /7./5 17.17. AVIATION BUSINESS DISPUTES I
/7./5 17.18. V.S. FEDERAL AGENCIES THAT REGULATE THE AVIATION INDUSTRY I
/7./6 17.19. THE ROLES OF AN AVIATION SAFETY PROFESSIONAL IN AVIATION
LAW I /7./7 17.20. FAA REGULATORY COMPLIANCE I /7./7 17.21. ACCIDENT
INVESTIGATION I /7. /8 17.22. LITIGATION SUPPORT I /7./8 17.23.
LITIGATION AVOIDANCE ( PREVENTIVE MEDICINE ) I /7./8 17.24. THE ENGINEER
AS A TECHNICAL WITNESS I /7./9 17.25. THE ENGINEER AS AN EXPERT WITNESS
I /7./9 17.26. THE ENGINEER AS ARCHITECT OF DEMONSTRATIVE EVIDENCE I
/7./9 17.27. AVIATION PRODUCT LIABILITY I /7.20 17.28. CONCLUSION I
/7.25 17.1 CONTENTS XVII PART 3. ACCIDENT ANALYSIS DATA 17.29. ZERO
ACCIDENTS: THE QUEST FOR BETTER PREVENTION / 17.28 17.30. HAZARD
IDENTIFICATION: THE PURSUIT OF INFORMATION / 17.30 17.31. THE NEED FOR
DATA-DRIVEN PROCESSES / 17.32 17.32. FLIGHT OPERATIONS QUALITY
ASSURANCE: THE PURSUIT OF KNOWLEDGE / 17.32 17.33. CONCLUSION / 17.33
PART 4. RISK MANAGEMENT 17.34. INTRODUCTION / 17.35 17.35. RISK
MANAGEMENT GUIDELINES / 17.35 17.36. THE RISK MANAGEMENT PROCESS / 17.35
17.37. SUMMARY / 17.41 PART 5. AIRCRAFT ACCIDENT AND INCIDENT
INVESTIGATION 17.38. INTRODUCTION / 17.42 17.39. WHY INVESTIGATE
ACCIDENTS AND INCIDENTS? 17.42 17.40. SYSTEMS APPROACH / 17.42 17.41.
THE IMPORTANCE OF INVESTIGATING INCIDENTS 17.45 17.42. ACCIDENT
INVESTIGATION / 17.48 17.43. THE ROLE OF AN AERONAUTICAL AND
ASTRONAUTICAL ENGINEER IN AN INVESTIGATION / 17.50 17.44. SUMMARY /
17.53 SECTION 18. AIRCRAFT MAINTENANCE 18.1 PART 1. THE ECONOMICS OF
MAINTENANCE 18.1. AIRPLANE MAINTENANCE / 18.2 18.2. DESIGN SERVICE
OBJECLIVE (DSO) / 18.2 18.3. AIRPLANE AGING AND MAINTENANCE COST / 18.4
18.4. AIRPLANE FUNCTIONALITY / 18.4 18.5. TOTAL OPERATING COST / 18.5
18.6. DIRECT OPERATING COST / 18.6 18.7. MAINTENANCE COST / 18.6 18.8.
SCHEDULED AND UNSCHEDULED MAINTENANCE / 18.8 18.9. MAINTENANCE COST
COMPARISON / 18.9 18.10. TURNAROUND TIME (TAT) / 18.9 18.11. PASSENGER
YIELD / 18.9 18.12. DISCRETIONARY MAINTENANCE / 18.10 18.13. HIGH COST
OF AIRPLANE COMPONENTS 18.10 18.14. COMPONENT RELIABILITY / 18.JJ 18.15.
SCHEDULE RELIABILITY / 18.JJ 18.16. FIX OR FLY? / 18.12 18.17. ECONOMICS
OF A MAINTENANCE EVENT / 18.12 18.18. MAINTENANCE RISK / 18.13 18.19.
AIRPLANE LEASE (DRY LEASE OR WET LEASE?) / 18.14 18.20. IN-HOUSE OR
OUTSOURCE? / 18.15 18.21. POWER-BY-THE-HOUR (PBH) / 18.15 18.22. LINE
REPLACEABLE UNIT (LRU) AND SHOP REPLACEABLE UNIT (SRU) / 18.16 18.23.
AIRPLANE PARTS / 18.16 18.24. SUMMARY / 18.18 PART 2. NATIONAL AND
INTERNATIONAL REGULATIONS 18.25. BACKGROUND / 18.20 18.26. FEDERAL
AVIATION REGULATIONS (FAR) / 18.21 18.27. FAA CERTIFICATION / 18.24
XVIII CONTENTS PART 3. MAINTENANCE PROGRAMS 18.28. AIRPLANE MAINTENANCE
I 18.28 18.29. MAINTENANCE PROGRAM REQUIREMENTS AND THE HISTORICAL
DEVELOPMENT OF AIRCRAFT MAINTENANCE THEORIES I 18.29 18.30. MAINTENANCE
STEERING GROUP-I (MSG-L) DECISION LOGIC 18.30 18.3 I. MAINTENANCE
STEERING GROUP-2 (MSG-2) DECISION LOGIC 18.30 18.32. MAINTENANCE
STEERING GROUP-3 (MSG-3) DECISION LOGIC 18.31 18.33. DEVELOPING THE
MAINTENANCE PROGRAM PROPOSAJ I 18.31 18.34. OPERATIONS SPECIFICATIONS I
18.32 PART 4. AIRCRAFT STRUCTURAL CORROSION 18.35. INTRODUCTION I 18.35
18.36. THERMODYNAMICS OF CORROSION I 18.35 18.37. AIRCRAFT MATERIALS I
/8.37 18.38. TYPES OF AIRCRAFT MATERIAL CORROSION I /8.37 PART 5.
AEROSPACE PAINTS AND PROTECTIVE COATINGS 18.39. INORGANIC COATINGS I
18.45 18.40. ANODIZING I 18.45 18.41. CHEMICAL CONVERSION COATINGS I
18.46 18.42. PLATING I /8.47 18A3. THERMAL SPRAY COATINGS I 18.48 18.44.
ORGANIC FINISHES I 18.49 18.45. PRIMERS I 18.49 18.46. TOPCOATS I 18.49
18.47. SPECIALTY COATINGS I 18.50 18.48. SEALANTS I 18.50 18.49.
CORROSION INHIBITING COMPOUNDS I 18.50 18.50. CHANGES DUE TO
ENVIRONMENTAL REGULATIONS I 18.51 18.51. MAINTENANCE I 18.51 PART 6.
AIRFRAME MAINTENANCE 18.52. INTRODUCTION I 18.53 18.53. MAINTAINING
STRUCTURAL SAFETY I 18.53 18.54. MAINTAINING AIRCRAFT CERTIFIED DAMAGE
TOLERANCE USING MSG-3 PROCESS I /8.55 18.55. STRUCTURAL MAINTENANCE
PROGRAM DEVELOPMENT I 18.56 18.56. RATING ENVIRONMENTAL DETERIORATION
(EDR) I 18.57 18.57. RATING FATIGUE DAMAGE (FD) I 18.57 18.58. IMPACT OF
COMBINED FATIGUE AND CORROSION DAMAGE I 18.58 18.59. RATING ACCIDENTAL
DAMAGE (ADR) I 18.59 18.60. USE OF EDRI ADR SYSTEMS I 18.60 PART 7.
ENGINE MAINTENANCE 18.61. ENGINE CONDITION MONITORING (ECM) I /8.63
18.62. ENGINE CONDITION MONITORING (ECM) PROGRAM I 18.64 18.63. METHODS
OF INSPECTION I 18.64 18.64. C1EANING I 18.66 18.65. CRACK DETECTION I
18.67 18.66. SHOP PROCESSES I 18.69 18.67. BALANCING I 18.70 18.68.
TESTING I 18.71 18.69. SUMMARY I /8.7/ CONTENTS XIX PART 8. MAINTENANCE
HUMAN FACTORS 18.70. PREFACE / /8.72 18.71. DEFINITION / /8.72 18.72.
HUMAN FACTORS PRINCIPLES, STANDARDS, AND TOOLS / /8.73 18.73. REGULATORY
REQUIREMENTS REGARDING MAINTENANCE HUMAN FACTORS / /8.73 18.74.
MAINTENANCE HUMAN FACTORS IN AIRCRAFT/COMPONENT DESIGN / /8.74 18.75.
MAINTENANCE HUMAN FACTORS IN MAINTENANCE PRODUCT DESIGN / /8.76 18.76.
MAINTENANCE HUMAN FACTORS IN AIRCRAFT MAINTENANCE PROGRAM APPLICATIONS /
/8.77 18.77. SUMMARY / /8.78 PART 9. EXTENDED TWIN OPERATIONS (ETOPS)
18.78. INTRODUCTION: WHAT IS ETOPS? / /8.79 18.79. MAINTENANCE PROGRAM
REQUIREMENTS FOR ETOPS / /8.79 18.80. ADDITIONAL REQUIREMENTS / 18.80
18.81. COMMENTS ABOUT THE ETOPS MAINTENANCE PROGRAM / /8.8/ 18.82. ETOPS
MAINTENANCE ON NON-ETOPS AIRPLANES / /8.8/ INDEX FOLLOWS SECTION 18
|
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| language | English |
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| spelling | The standard handbook for aeronautical and astronautical engineers Mark Davies, ed.-in-chief New York [u.a.] McGraw-Hill 2003 getr. Zählung Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier McGraw-Hill standard handbooks Aerospace engineering Handbooks, manuals, etc Luftfahrttechnik (DE-588)4168244-0 gnd rswk-swf Raumfahrttechnik (DE-588)4177061-4 gnd rswk-swf Luftfahrttechnik (DE-588)4168244-0 s DE-604 Raumfahrttechnik (DE-588)4177061-4 s Davies, Mark edt http://www.loc.gov/catdir/toc/mh031/2002032551.html Table of contents OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009945516&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | The standard handbook for aeronautical and astronautical engineers Aerospace engineering Handbooks, manuals, etc Luftfahrttechnik (DE-588)4168244-0 gnd Raumfahrttechnik (DE-588)4177061-4 gnd |
| subject_GND | (DE-588)4168244-0 (DE-588)4177061-4 |
| title | The standard handbook for aeronautical and astronautical engineers |
| title_auth | The standard handbook for aeronautical and astronautical engineers |
| title_exact_search | The standard handbook for aeronautical and astronautical engineers |
| title_full | The standard handbook for aeronautical and astronautical engineers Mark Davies, ed.-in-chief |
| title_fullStr | The standard handbook for aeronautical and astronautical engineers Mark Davies, ed.-in-chief |
| title_full_unstemmed | The standard handbook for aeronautical and astronautical engineers Mark Davies, ed.-in-chief |
| title_short | The standard handbook for aeronautical and astronautical engineers |
| title_sort | the standard handbook for aeronautical and astronautical engineers |
| topic | Aerospace engineering Handbooks, manuals, etc Luftfahrttechnik (DE-588)4168244-0 gnd Raumfahrttechnik (DE-588)4177061-4 gnd |
| topic_facet | Aerospace engineering Handbooks, manuals, etc Luftfahrttechnik Raumfahrttechnik |
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