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Fundamentals of astrodynamics and applications 4th Edition (2013) PDF

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Common Two-body Equations Specific Angular Momentum h = r×v . h = mp = rvCOS(ffpa) = r2n = rava = rpvp Specific Mechanical Energy y = -v---2-–m---- = –--m---- 2 r 2a Orbital Period = 2p a----3- m m v2–----r–(r⋅v)v Eccentricity Vector e = ----------------r-------------------------------- m p Radius r = 1-----+-----e----C----O---S---(---n----)- . Radial Rate r. = --r---n----e-----S---I-N----(---n----)--- 1+eCOS(n) n· = n----a---2-- 1–e2 r2 Semi-parameter p = h----2- m Semi-major axis a = m2----p----21/3 = 3 n-m---2- continued on next page Circle Ellipse Parabola Hyperbola 14.0 3.0 5.0 10.0 v v r b p r v p p v r r 0.0 F, F′ 0.0 F′ ra F rp 0.0 F′ F 0.0 F rp F′ c rp −a a a, r, p –5.0 –3.0–3.0 0.0 3.0 ER –9.0 0.0 4.0 ER–10.–012.0 0.0 8.0 –14.0 Eccentric Anomaly Undefined En+1 = En+M-------–1----E-–---n-e----+C---O-e--S--S--(-I-EN----n(---E)----n---)- Hn+1 = H–1n0.0+M-------e–---C-e---O-S--S-I0-N-.H0---H--(--(-H-H---n--n-)--)--–-+---1-1-0H-.-0---n-- CSOINS((EE)) == --1S--e--1--I--+N--+----+--(--e----nCe--C----O)--C--O--S--O--S----(1--S(--n----n(--–--)n----)--e-)--2-- B = TANn-2-- CSOINSHH((HH)) == --1S--e--1--I--+N--+----+--(--e----nCe--C----O)--C--O--S--O--S----(e--S(--n--2--n(----)n--–--)---)--1-- True Anomaly Undefined SIN(n) = -S--1-I-N---–-(---Ee----)C---O---1-S---(-–-E---e-)--2-- SIN(n) = p---r-B--- SIN(n) = –----S-1--I-N-–---H--e--(-C-H---O--)-S---H---e-(--2H----–-)---1-- COS(n) = -1--C--–-O---S-e---(C--E-O---)-S---–(--E--e----) COS(n) = p-----–r----r-- COS(n) = 1---C--–-O---Se---H-C---(O---H-S--H-)----(–--H--e---)- Flight Path Angle ffpa = 0° SIN(ffpa) = -----1----–----e-e--S-2--I-CN---O-(---SE---2-)---(--E-----)--- fparabolic = n-2-- SIN(ffpa) = -----e---2-–--C-e--O--S-S-I--NH---H-2---((--H-H----)-)---–----1-- COS(ffpa) = 1-----–-----e-1-2----C–---O-e--S-2--2---(---E----)- COS(ffpa) = e---2----C---O----Se--H-2---2--–--(--1-H----)-----–----1-- Circle Ellipse Parabola Hyperbola Equation r = a r = -1----+-----e-----Cp---O---S---(---n----)- r = p2---(1+B2) r = -1----+-----e-----Cp---O---S---(---n----)- Perigee rp = a rp = a(1 − e) rp = p/2 rp = a(1 − e) Apogee ra = a ra = a(1 + e) ra = a ra = a(1 + e) Semi-parameter p = a p = a(1 − e2) p = –-hm---2- p = a(1 − e2) m Semi-major axis a = r a = –2----y--- a = ∞ a = –2--m--y--- Velocity v = m-r--- v = 2m-r---+y = -2--r-m---–-ma--- = m-r---2–1-----+----1-e---–C----O-e--S-2--(---n----)- vparabola = vesc = -2--r-m--- v = -2--r-m---–-ma--- 2yh2 Eccentricity e = 1+------------- m2 Mean Motion n = 2----p---- = a-m---3- n = 2----p---- = a-m---3- np = 2 p-m---3- n = 2----p---- = a-m---3- Mean anomaly Undefined M = E − eSIN(E) -B-3--3--+B–np(Δt) = 0 M = eSINH(H) − H Period = 2p a-m---3- = 2p a----3- m Velocity and Rate Formulations Tangential Range Radial Range v2 Tangential Velocity Dv Dr Radial Velocity r1 r2 Dv v1 Dr Range Rates Velocity Rates Range Dr = r2–r1 Velocity Dv = v2–v1 Radial Range rr = r---1----⋅---D----r- Radial Velocity rv = -D----r----⋅---D----v-- r r 1 1 Tangential Range tr = (Dr)2–rr2 Tangential Velocity tv = (Dv)2–rv2 Dr×Dv Angular Rate v = -------------------- vel Dr⋅Dr v = TAN –1----------t--v------------   vel Dr +rvt Acceleration tmust first be specified Dr×Da 2(Dr⋅Dv)(Dr×Dv) v = --------------------–---------------------------------------------------- Angular acceleration accel Dr⋅Dr (Dr)4 FUNDAMENTALS OF ASTRODYNAMICS AND APPLICATIONS Fourth Edition THE SPACE TECHNOLOGY LIBRARY Published jointly by Microcosm Press and Springer An Introduction to Mission Design for Geostationary Satellites, J. J. Pocha Space Mission Analysis and Design, 3rd edition, James R. Wertz and Wiley J. Larson Space Mission Engineering, James R. Wertz Handbook of Geostationary Orbits, E. M. Soop Spacecraft Structures and Mechanisms, From Concept to Launch, Thomas P. Sarafin Spaceflight Life Support and Biospherics, Peter Eckart Reducing Space Mission Cost, James R. Wertz and Wiley J. Larson The Logic of Microspace, Rick Fleeter Space Marketing: A European Perspective, Walter A. R. Peeters Orbit and Constellation Design and Management, James R. Wertz Influence of Psychological Factors on Product Development, Eginaldo Shizuo Kamata Essential Spaceflight Dynamics and Magnetospherics, Boris Rauschenbakh, Michael Ovchinnikov, and Susan McKenna-Lawlor Space Psychology and Psychiatry, Nick Kanas and Dietrich Manzey Fundamentals of Space Medicine, Gilles Clément Fundamentals of Space Biology, Gilles Clément and Klaus Slenzka Microgravity Two-Phase Flow and Heat Transfer, Kamiel Gabriel Artificial Gravity, Gilles Clément and Angelia Buckley The Space Technology Library Editorial Board Managing Editor: James R. Wertz, Microcosm, Inc., Hawthorne, CA Editorial Board: Roland Doré, International Space University, Strasbourg, France Wiley J. Larson, United States Air Force Academy Tom Logsdon, Rockwell International (retired) Landis Markley, Goddard Space Flight Center Robert G. Melton, Pennsylvania State University Keiken Ninomiya, Institute of Space & Astronautical Science, Japan Jehangir J. Pocha, Matra Marconi Space, Stevenage, England Gael Squibb, Jet Propulsion Laboratory Martin Sweeting, University of Surrey, England About the Author David Vallado is currently a Senior Research Astrodynamicist with Analytical Graphics, Inc. in Colorado Springs, Colorado. He holds a BS degree in Astrodynamics Engineering from the U. S. Air Force Academy and MS from the Air Force Institute of Technology. He also holds an MS in Systems Management from the University of Southern California. He is a retired Air Force Lieu- tenant Colonel. His Air Force experience includes: Stage 1 Project Manager for MX missile, SAC Headquarters Analysis Division, U. S. Air Force instructor, Air Force Research Laboratory Scien- tist, and Headquarters U. S. Space Command Analysis Office. He has also worked as a principal engineer with Raytheon in Denver, Colorado. Fundamentals of Astrodynamics and Applications Fourth Edition David A. Vallado Analytical Graphics Inc. with technical contributions by Wayne D. McClain Charles Stark Draper Laboratory Space Technology Library Published by Microcosm Press Hawthorne, CA Library of Congress Cataloging-in-Publication Data A C.I.P. Catalogue record for this book is available from the Library of Congress ISBN 978-1881883180 (pb) (acid-free paper) ISBN 978-1881883197 (hb) (acid-free paper) ISBN 978-1881883203 (ebook) (acid-free paper) Published by Microcosm Press 4940 West 147th Street, Hawthorne, CA 90250-6708 USA Sold and distributed by Microcosm, Inc. 4940 West 147th Street, Hawthorne, CA 90250-6708 USA. Printed on acid-free paper All Rights Reserved © 2013 David A. Vallado First Printing, 2013 No part of the material protected by this copyright notice may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, or by any information storage and retrieval system, without written permission from the publishers. Printed in the United States of America To God from whom all blessings and wisdom flow, For the free gift of salvation through His true and only Son, Jesus Christ, To the dedication of one’s life to the pursuit of wisdom, To my parents for their devotion and example, To my wife’s support through this long task, and especially to my lovely children, Simone, Kathleen, and Samuel

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