Applied Cartesian Tensors for Aerospace Simulations.
Henderson, David M.
Applied Cartesian Tensors for Aerospace Simulations. - 1st ed. - 1 online resource (229 pages) - AIAA Education Series . - AIAA Education Series .
Cover -- Title -- Copyright -- Forword -- Table of Contents -- Preface -- Acknowledgments -- Chapter 1. Geometric Concepts in the Absence of Mass and Gravitation -- 1.1 Position Transformation -- 1.2 Properties of the Transformation Matrix -- 1.3 Euler Angles and the Transformation Matrix -- 1.4 Euler's Theorem and Four Parameter Methods -- 1.5 Differentiation of the Transformation Matrix -- 1.6 Transformation Equations for Velocity and Acceleration -- Chapter 2. Motion of a Point Mass in Gravitational Space -- 2.1 Point Mass: Mathematical Descriptions -- 2.2 Point Mass and Gravitation -- 2.3 Point Mass Motion Relative to Earth-Based Coordinates -- 2.4 Point Mass Motion Relative to Space-Based Coordinates -- Chapter 3. N-Body Gravitational Space and Rigid Body Motion -- 3.1 N-Body Mass Systems: Mathematical Descriptions -- 3.2 Rigid Body Dynamics -- Chapter 4. Flight Vehicle Motion -- 4.1 Modeling Gravitational Environments for Aerospace Vehicles -- 4.2 Forces and Moments on the Flight Vehicle -- 4.3 Flight Vehicle Motion Simulations -- 4.4 Space Vehicle Motion Using Mean Orbital Elements -- Appendix A. Relationships for Three-Axis Euler Rotational Sequences -- Appendix B. C-W State Transition Matrix for LVLH Relative Motion -- Appendix C. Integral Lists for Computer Simulation Algorithms -- Appendix D. Numerical Solution Methods for Differential Equations: Computer Simulation Algorithms -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- X -- Y -- Z.
9781600860287
Flight simulators -- Mathematics.
Calculus of tensors.
Electronic books.
TL712.5 -- .H46 2006eb
629.132/52078
Applied Cartesian Tensors for Aerospace Simulations. - 1st ed. - 1 online resource (229 pages) - AIAA Education Series . - AIAA Education Series .
Cover -- Title -- Copyright -- Forword -- Table of Contents -- Preface -- Acknowledgments -- Chapter 1. Geometric Concepts in the Absence of Mass and Gravitation -- 1.1 Position Transformation -- 1.2 Properties of the Transformation Matrix -- 1.3 Euler Angles and the Transformation Matrix -- 1.4 Euler's Theorem and Four Parameter Methods -- 1.5 Differentiation of the Transformation Matrix -- 1.6 Transformation Equations for Velocity and Acceleration -- Chapter 2. Motion of a Point Mass in Gravitational Space -- 2.1 Point Mass: Mathematical Descriptions -- 2.2 Point Mass and Gravitation -- 2.3 Point Mass Motion Relative to Earth-Based Coordinates -- 2.4 Point Mass Motion Relative to Space-Based Coordinates -- Chapter 3. N-Body Gravitational Space and Rigid Body Motion -- 3.1 N-Body Mass Systems: Mathematical Descriptions -- 3.2 Rigid Body Dynamics -- Chapter 4. Flight Vehicle Motion -- 4.1 Modeling Gravitational Environments for Aerospace Vehicles -- 4.2 Forces and Moments on the Flight Vehicle -- 4.3 Flight Vehicle Motion Simulations -- 4.4 Space Vehicle Motion Using Mean Orbital Elements -- Appendix A. Relationships for Three-Axis Euler Rotational Sequences -- Appendix B. C-W State Transition Matrix for LVLH Relative Motion -- Appendix C. Integral Lists for Computer Simulation Algorithms -- Appendix D. Numerical Solution Methods for Differential Equations: Computer Simulation Algorithms -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- X -- Y -- Z.
9781600860287
Flight simulators -- Mathematics.
Calculus of tensors.
Electronic books.
TL712.5 -- .H46 2006eb
629.132/52078