1Preface
726.11.2 Perturbations due to Non-spherical Earth
2Chapter - 1 Introduction to Aerospace Engineering
736.11.3 Perturbations from Atmospheric Drag
31.1 What do you mean by Aerospace Engineering?
746.11.4 Perturbations from Solar Radiation
41.2 Interesting facts about aerospace engineering: 1.2.1 Fun Facts
756.12 Orbit Maneuvers
51.3 Required skills for Aerospace engineering
766.13 Orbit Altitude Changes
61.4 Aerospace Engineering: Eligibility Criteria
776.14 Orbit Plane Changes
71.5 About the Field
786.15 Orbit Rendezvous
81.6 The sky is not even close to the limit
796.16 Launch Windows
91.7 Exercise
806.17 Orbit Maintenance
10Chapter - 2 Aerospace Propulsion
816.18 ∆V Budget
112.1 AIRCRAFT PROPULSION
826.19 The Hyperbolic Orbit
122.2 AERO-ENGINE TYPES
836.20 Exercises
132.2.1 Shaft Engines
84Chapter - 7 Aerospace Structural Dynamics
142.2.2 Jet Engines
857.1 Introduction to Aircraft Structural Dynamics
152.3 Jet fuel history
867.2 Dynamics: 7.2.1 3 Types of Motion
162.4 MATCHING ENGINES AND AIRCRAFT
877.3 Consequences of Vibration -
172.4.1 propulsive Matching
887.4 OSCILLATORY MOTION
182.4.2 Location Matching
897.4.1 The Study of Vibration
192.5 Exercise
907.4.2 Damping
20Chapter - 3 Aerospace Structural Mechanics
917.5 HARMONIC MOTION
213.1 introduction
927.6 Coupled Nonlinear Flight Dynamics/Aeroelasticity of Very Flexible Aircraft
223.2 What is an “aerospace structure?”
937.7 Aero thermoelastic Modeling of Hypersonic Vehicles for Control Design Hypersonic Vehicle (HSV)
233.3 Aircraft structures
947.8 Active Vibration and Noise Control of Helicopters
243.4 Aircraft designing : 3.4.1 What is Design?
957.9 Micro Air Vehicles (MAVs) Structural Dynamics and Aeroelasticity
253.5 AIRCRAFT CONCEPTUAL DESIGN PROCESS
967.10 Structural Health Management
263.6 FUEL-FRACTION ESTIMATION
977.10.1 Blade Vortex Vibration Alleviation in Helicopters Using Actively Controlled Trailing Edge Flaps
273.7 Exercise
987.10.2 Vibration Reduction in Helicopters Using the Active Control of Structural Response Approach and Improved Aerodynamics Modeling
28Chapter - 4 Aerodynamic Drag and Required Propulsion Power
997.10.3 Rotary-Wing Aeroelastic Scaling and its Application to Adaptive Materials-Based Actuation
294.1 Drag
1007.10.4 Aeroservo Elasticity of a Hypersonic Vehicle
304.1.1 Viscous Drag
1017.11 Exercise
314.1.2 Non-Viscous Drag
1028 Environmental Impact
324.2 Aerodynamics of aircraft
1038.1 Environment effects
334.3 Graphical Analysis for Thrust and Power Required
1048.2 Aviation fuel consumption, emissions
344.4 Exercise
1058.3 Aircraft noise
35Chapter - 5 Landing Under Canopies
1068.4 Aeronautical Impact of Epoxy/Carbon Nanotube Nanocomposite: 8.4.1 Abstract
365.1 Landing Accidents
1078.5 Architect of Polymer Nanocomposites for Aerospace Applications
375.2 Human spaceflight program
1088.6 Noise level
385.3 Three Canopies into the Pacific: Project Apollo
1098.7 Sound pressure
395.4 Lunar missions
1108.8 Sensors and Control Systems
405.5 Spaceplane fantasies
1118.9 Beyond Air and Space
415.6 Lifting Reecentry: 5.6.1 Lifting Bodies
1128.10 Space Systems
425.7 Air force
1138.11 Exercise
435.8 Spaceplane reality
114Chapter - 9 Aerospace Projects
445.9 TITAN
1159.1 Nested Channel Hall Thrusters
455.10 Four phase processes
1169.2 Cubesat Ambipolar Thruster
465.11 The Rise (and Fall) of the X-30 National Aero-Space Plane
1179.3 Nanoparticle Micropropulsion
475.12 Exercise
1189.4 Cubesat investigating Atmospheric Density Response to Extreme Driving
48Chapter - 6 Spaceflight Mechanics
1199.5 Thermal Protection Systems
496.1 orbital mechanics
1209.6 Three different active cooling concepts have been widely investigated
506.2 Conic Sections
1219.7 Better Warheads
516.3 Orbital Elements
1229.8 The CORONA Satellite Reconnaissance Program
526.4 An orbiting satellite
1239.9 Man in Space Soonest
536.4.1 Inclination
1249.10 Project Mercury
546.4.2 Periapsis
1259.11 Project Gemini
556.5 Types Of Orbits
1269.12 Project Apollo
566.5.1 Geosynchronous Orbits
1279.14 Pursuit of the Gemini Paraglider
576.5.2 Polar Orbits
1289.15 process of Flying Vehicle
586.5.3 Walking Orbits
1299.15.1 As The Test Report Stated
596.5.4 Sun-synchronous Orbits (SSO)
1309.15.2 A synopsis of the Test Program was Contained in the Paraglider Development Effort’s Final Report
606.5.5 Molniya Orbits
1319.16 Gene love from langley
616.5.6 Hohmann Transfer Orbits
1329.17 Three Canopies into the Pacific: Project Apollo
626.6 Newton’s Laws of Motion and Universal Gravitation
1339.18 The Air Force and the X-37B
636.6.1 The First Law
1349.19 The Orion Capsule as the Next Generation Piloted Vehicle
646.6.2 The Second Law
1359.20 According to NASA specifications
656.6.3 The Third Law
1369.21 Challenges faced
666.7 Uniform Circular Motion
1379.22 CPAs: 9.22.1 As envisioned, the CEV Parachute Assembly System (CPAS) would rely on
676.8 Motions of Planets and Satellites
1389.23 Exercise
686.9 Launch of a Space Vehicle
139Appendix
696.10 Orbit Tilt, Rotation and Orientation
140Glossary
706.11 Orbit Perturbations
141Index
716.11.1 Third-Body Perturbations
