A Mathematical Model of the Ballistic Missile Problem
| Author | : Greg Burlile |
| Publisher | : |
| Total Pages | : 22 |
| Release | : 1988 |
| Genre | : Algebras, Linear |
| ISBN | : |
A Mathematical Model For A Ballistic Rocket
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A Mathematical Model for a Ballistic Rocket
| Author | : EVERETT L. WALTER |
| Publisher | : |
| Total Pages | : 1 |
| Release | : 1962 |
| Genre | : |
| ISBN | : |
The importance of mathematical models in designing a rocket is apparent in savings of time and money. Testing of certai theories of rocket flight can be done only by mathematical models. Such a model is given for a ballistic rocket, one for which there is no guidance after launching. It consists of six simultaneous differential equations which can be numerically solved rather quickly on a high-speed computer. All necessary parameters are completely defined, but the equations of motion are given without proof. The use of perturbation equations, which describe changes in the trajectory due to small changes in the atmospheric or rocket data, is discussed, indicating how their use can greatly increase computing speed. Numerical integration of the equations is discussed, together with the characteristics one would desire in a computer program which make the model as complete and flexible as possible. Some indication of computing speed is given, as well as the time required to program the model for a high speed computer. Finally, several applications for which the model was designed are discussed. (Author).
Hydroballistics Modeling
| Author | : John G. Waugh |
| Publisher | : |
| Total Pages | : 372 |
| Release | : 1972 |
| Genre | : Ballistic missiles |
| ISBN | : |
Photographs of familiar objects such as chair, barrettes, and manhole cover present a study of rounded and angular shapes.
Mathematical Theory Of Rocket Flight
| Author | : Barkley Rosser |
| Publisher | : Read Books Ltd |
| Total Pages | : 297 |
| Release | : 2013-04-18 |
| Genre | : Mathematics |
| ISBN | : 1447495241 |
This is the official final report to the Office of Scientific Research and Development concerning the work done on the exterior ballistics of fin-stabilized rocket projectiles under the supervision of Section H of Division 3 of the National Defense Research Committee at the Allegany Ballistics Laboratory during 1944 and 1945, when the laboratory was operated by The George Washington University under contract OEMsr-273 with the Office of Scientific Research and Development. As such, its official title is “Final Report No. B2.2 of the Allegany Ballistics Laboratory, OSRD 5878.” After the removal of secrecy restrictions on this report, a considerable amount of expository material was added. It is our hope that thereby the report has been made readable for anyone interested in the flight of rockets. Two slightly different types of readers are anticipated. One is the trained scientist who has had no previous experience with rockets. The other is the person with little scientific training who is interested in what makes a rocket go. The first type of reader should be able to comprehend the report in its entirety. For the benefit of the second type of reader, who will wish to skip the more mathematical portions, we have attempted to supply simple explanations at the beginnings of most sections telling what is to be accomplished in those sections. It is our hope that a reader can, if so minded, skip most of the mathematics and still be able to form a general idea of rocket flight.
Six Variable Ballistic Model for a Rocket
| Author | : EVERETT L. WALTER |
| Publisher | : |
| Total Pages | : 1 |
| Release | : 1962 |
| Genre | : |
| ISBN | : |
The equations of motion which describe the position in space, the pitch, yaw, and roll of an unguided rocket are developed. Some effects considered are those of gravity, thrust, spin rockets, canted fins, aerodynamic forces and moments, loss of mass, rotation of the earth, wind, variable speed of sound, and variable atmospheric pressure. The vector forces and moments are defined and resolved into suitable components from which the equations of motion are derived. The problem of numerical integration of these equations is discussed. How perturbation techniques can be used to increase the computation speed is shown. Applications of the resulting mathematical models including prediction of the impact point for real-time support of an actual firing are explained. (Author).
Modeling and Computational Model Validation of a Ballistic Missile System
| Author | : John Michael Napier (Jr.) |
| Publisher | : |
| Total Pages | : 160 |
| Release | : 2004 |
| Genre | : Ballistic missiles |
| ISBN | : |
Missile Flight Simulation
| Author | : Jeffrey Strickland |
| Publisher | : Lulu.com |
| Total Pages | : 662 |
| Release | : 2015 |
| Genre | : Technology & Engineering |
| ISBN | : 1329644956 |
A missile flight simulation is a computational tool that calculates the flight of a missile from launch until it engages the target. The simulation is based on mathematical models of the missile, target and environment. This book provides instruction for the preparation of these mathematical models to simulate the flight of a surface-to-air missile. The 2nd Edition of Missile Flight Simulation provides updated simulation processes using MATLAB(R) and Simulink(TM), while improving and clarifying previous content. The book may be used as a reference or as a textbook, although it is devoid of exercises. However, the reader is encouraged to perform the simulation of Charter 12 using MATLAB(R) and Simulink(TM), or a programming language such as FORTRAN (see Chapter 10). The book is not intended to be a missile flight engineering reference and does not contain every aspect of missile flight. It provides the appropriate content for simulating missile flight from launch to terminus only.
Two Non-linear Problems in the Flight Dynamics of Modern Ballistic Missiles
| Author | : John D. Nicolaides |
| Publisher | : |
| Total Pages | : 71 |
| Release | : 1958* |
| Genre | : Ballistic missiles |
| ISBN | : |
While the linear theory has been the backbone of ballistic missile design and has served with excellent success in its various forms over the years, recent spectacular missile flight failures have appeared unexpectedly and are unaccounted for by this linear theory. It is these flight failures which now require attention and consideration of the non-linearities in the fluid force and moment system which contribute to missile flight performance and dynamic stability. Two types of non-linear flight instability have been isolated and identified as NonLinear Magnus Instability, and Catastrophic Yaw. It is these 2 flight instabilities which will be discussed. Approximate mathematical models will be suggested for the evaluation of missile dynamic stability. Both experimental and analytical applications of these models will be made and discussed.
