This book presents a new approach to aerospace flight vehicle equations of motion based on a unifying tensorbased formulation. Covering the fundamental concepts of the geometry of space, applied mechanics, and aerospace engineering analysis, the author builds on these flight mechanics essentials to describe the motion of aircraft and space vehicles. Concepts are amplified by the presentation of aerospace applications in use today and that are tied directly to the material presented. The basic concepts of Cartesian analysis are developed along with the application of tensor notation to engineering analysis. Tensor notation (the Einstein summation convention) is introduced to give the reader exact component equations and to demonstrate its value in multi-variable analysis. By applying the summation notation in the analysis, the author believes that a more complete description of the dynamic problems of aerospace vehicle motion can be offered, and that this approach is already finding applications in aerospace engineering technologies.
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About the Author
David M. Henderson developed a keen interest in physics, aerodynamics and astrodynamics while in high school in Wichita, Kansas. He graduated with a BA in physics and minor studies in aeronautical engineering from The University of Wichita, now WSU, in May 1959. He worked at Boeing there until entering the U.S. Air Force where his experience was enhanced at the Vandenberg satellite tracking station as a data processing officer. He continued to work in aerospace at Cape Kennedy, in Seattle in supersonic aerodynamics and in Houston supporting NASA contracts. He also learned to fly in 1955 and became a flight instructor in 1976, logging over 6000 flying hours. He has retired after 42 years of working in the field of vehicle flight dynamics. He currently lives in Lago Vista, Texas.
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In the first parts of this chapter I have tried to bridge a gap between physics and engineering for the aerospace student by showing the significance of the tensor to engineering analysis. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
gravity harmonic coefficients, body axis moments, body axis frame, pth panel, quaternion rates, axis rotation rates, body axis forces, total energy relationship, mean orbital elements, determination processors, velocity equality, relative motion equations, axis coordinate frame, rotation rate vector, inertial coordinate frame, orbital element set, gravitational space, aerodynamic force coefficients, integral list, aerospace problems, rotational equations, gravity gradient torques, airplane angle, orbital rate, orbit semimajor axis Key Phrases - Capitalized Phrases (CAPs): (learn more)
Newton's Second Law, Leonhard Euler, Simulating Flight Vehicle Engine Thrust New!
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Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
In the first parts of this chapter I have tried to bridge a gap between physics and engineering for the aerospace student by showing the significance of the tensor to engineering analysis. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
gravity harmonic coefficients, body axis moments, body axis frame, pth panel, quaternion rates, axis rotation rates, body axis forces, total energy relationship, mean orbital elements, determination processors, velocity equality, relative motion equations, axis coordinate frame, rotation rate vector, inertial coordinate frame, orbital element set, gravitational space, aerodynamic force coefficients, integral list, aerospace problems, rotational equations, gravity gradient torques, airplane angle, orbital rate, orbit semimajor axis Key Phrases - Capitalized Phrases (CAPs): (learn more)
Newton's Second Law, Leonhard Euler, Simulating Flight Vehicle Engine Thrust New!
Books on Related Topics | Concordance | Text Stats Browse Sample Pages:
Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
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