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       Series Editor

       Jean-Paul Bourrières

      Dynamics of Aircraft Flight

      Gilles Louis

      First published 2022 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc.

      Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address:

      ISTE Ltd

      27-37 St George’s Road

      London SW19 4EU

      UK

       www.iste.co.uk

      John Wiley & Sons, Inc.

      111 River Street

      Hoboken, NJ 07030

      USA

       www.wiley.com

      © ISTE Ltd 2022

      The rights of Gilles Louis to be identified as the author of this work have been asserted by him in accordance with the Copyright, Designs and Patents Act 1988.

      Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s), contributor(s) or editor(s) and do not necessarily reflect the views of ISTE Group.

      Library of Congress Control Number: 2022932439

      British Library Cataloguing-in-Publication Data

      A CIP record for this book is available from the British Library

      ISBN 978-1-78630-719-4

      Foreword

      When Gilles invited me to preface his book on the mechanics of flight systems, I immediately accepted. My interest in his work is not only the result of our collaboration on multiple subjects and technical projects over the past 12 years but is also based on the way he has dealt with the subject.

      This book is not simply a collection of mathematical formulas; it is the fruit of experience coupled with an ability to conceptualize. Following a general guideline, each step is described in great detail, with a number of concrete examples to which mathematical formulations are added. The latter are of course the fundamental elements leading to the sizing and optimization of the systems.

      The mathematics used in this context is not accessible without prior understanding. It is therefore out of a pedagogical spirit that Gilles first takes up all the definitions of the mathematical elements: lift, drag, aerodynamic focus and so on.

      In conclusion, this book offers a global vision of what flight mechanics is and it is therefore of great interest to all engineers and scientists who are called upon to work in this field.

      Serge ZANINOTTI

      February 2022

      Introduction

      What characterizes the mechanics of flight in relation to other branches of rational mechanics is that, among the various forces present, the aerodynamic forces intervene, and they themselves result from the relative movement of the aircraft in relation to the surrounding atmosphere. It is therefore essential to define the characteristics of the atmosphere.

      The notion of a standard atmosphere meets this need. Air is considered an ideal gas, represented by the three state parameters (pressure, density and temperature), heavy and still.

      Just as it is necessary to define the atmosphere in which the airplane is traveling, so it is necessary to be able to measure the velocity on board the aircraft, especially the velocity in relation to the air.

      The velocity of an aircraft is often given by the Mach number. This value is the ratio at a specific point between the velocity of the flow V and the speed of sound at that point. The “aircraft” Mach number is the ratio M0 between the aerodynamic velocity V0 (relative velocity of the airplane with respect to the air, assumed, for example, to be stationary at infinity) and the speed of sound at infinity upstream a0.

      A US Congress report highlights the heavy financial pressure on Boeing and the 737 Max program to get ahead of the release of Airbus’ new aircraft, the A320 Neo, which affected the MCAS collision avoidance system implicated in the two accidents, as well as the culture of concealment that prevailed in the manufacturer and that prevented it from sharing crucial information with the authorities, its customers and the pilots of the 737 Max.

      We must learn from the consequences of these disasters in order to prevent them from happening again, and engineers have a major role to play, in the sense that they are the guarantors of the safety and reliability of manufactured aircraft and must do everything possible to manage risks in order to minimize the occurrence of such disasters.

      NOTE.–

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