Here's a list of some of the must-have books for aeronautical engineering. Introduction to Flight: John D. Anderson Jr.- This book is a good introduction to the various aspects of aeronautical engineering, going through. The book is divided into three parts, namely: Introduction, The Aircraft, and Air Transportation, Airports, and Air Navigation. The first part is divided in two.
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The objective of this Aeronautical Engineer's. Data book is to provide a concise and useful source of up-to-date information for the student or. 14 books based on 19 votes: Aircraft Propulsion by Saeed Farokhi, Aircraft Structures for Engineering Students by T.H.G. Megson, Flight Stability and Aut. PDF Drive is your search engine for PDF files. As of today we have 78,, eBooks for you to download for free. No annoying ads, no download limits, enjoy .
Hill and Carl Peterson Source: site.
The book is very useful both for mechanical as well as aeronautical engineering students to have a deep understanding of all modes. Dynamics of Atmospheric Flight by Bernard Etkin This book is specially written for upper-level undergrads, graduate, as well as the practicing engineers.
Advertisement It deals with the information about the comprehensive treatment of the dynamics for the atmospheric flight which focuses majorly on the stability and methods of control which applicable for airplanes.
The book contains enough numerical examples to explain STOL airplanes, hypersonic flight, subsonic jet transports, stability augmentation, and also gradients of wind and density.
Aircraft Structures for Engineering Students by T. Megson Source: site. Students can learn how to relate technical concepts and apply the same in the real world.
The book presents a detailed aircraft designing project case study. It describes the method of application of major fundamental techniques. Advertisement The author of this book T. The book discusses all the important aspects of an aircraft.
It includes both rotary craft and fixed-wing aircraft. The book is full of chemistry, physics and engineering but Gordon conveys the underlying physical insights using simple analogies that will stay with you for a long time. The Jet Engine — This is one of my all time favourite engineering books.
So even if equations are not your thing, you would still learn a ton from this book as the significance of the equations are always explained in plain English. Finally, in my opinion the art work and picture collection in this book make it worth the price of entry alone.
Failure Is Not an Option: Mission Control from Mercury to Apollo 13 and Beyond — I have been meaning to read this book for a very long time, and after a friend lend me his copy there was little to stop me. In hindsight it seems a miracle that the U.
Of course, this was not so. Early failures during the Apollo program meant that the schedule to reach the moon had to be shortened considerably, combining multiple mission into larger single missions, which resulted in the U. When this knowledge was combined with the multidisciplinary skills of the mission team and the integrated risk assessments developed through the mission rules, the Flight Control team had the foundation needed to succeed in the new environment of space.
Flight control rapidly became the dominant systems engineering cadre in the U.
He is the most-decorated pilot of the Royal Navy, having flown most of the RAF category planes, and achieved a number of accomplishments in naval aviation, including the first landing on an aircraft carrier with a twin-engined aircraft, a jet propelled aircraft and a rotary-wing aircraft. After the war he was an enthusiastic pioneer of jet aircraft and throughout the book he recounts some terrifying flights in very primitive jets. Due to his pre-war experiences as a student in Germany, he also became an expert in evaluating surrendered German planes.
The book is, perhaps, a bit thin on technical details and the book reads more like an episodal anthology than a well-constructed novel. But the stories Eric Brown does tell are entertaining and remind us of a time when technological advances in aviation were part of a daring adventure. Clark, is one of the early pioneers of American rocketry, and as chief chemist at the Naval Rocket Air Test Station, was involved in developing a number of liquid rocket fuels and tinkering with exotic chemicals to characterise which combinations are, basically, just right for a controlled explosion and which combinations are too explosive.
The book describes the research behind developing new liquid rocket fuels, and provides a good amount of detail on the chemistry involved. Clark was also a science fiction writer and is a natural at weaving the technicalities into funny anecdotes about other scientists and their antics, as well as other explosive events. The book comes highly recommended by no other than Isaac Asimov who wrote the foreword to the book.
In this short and very readable book, he provides a brief introduction to what engineering is all about: turning an idea into reality. The book covers multiple centuries of the engineering profession, from the early Greeks, to the industrial revolution, and then to the modern information driven age. What I particularly cherished about the book is how Prof. Blockley manages to boil down the essentials of the different disciplines of engineering, and thereby provides an overview of the key factors that govern each discipline and how they relate to each other.
He ends the book with a chapter on the importance of systems thinking in the 21st century, i. He is best known for his ambitious goals of retiring on Mars, manufacturing the first mass-market electric car, making solar panels affordable and designing the innovative Hyperloop transportation system.
He is a physicist by training and what I find most instructive about him is what he calls thinking from fundamentals rather than by analogy. Hence, understanding the fundamental physics behind a problem, isolating the key drivers of a problem and then engineering a solutions from this basic understanding, rather than trying to bootstrap a solution to an existing system.
Such an analysis led to the conclusion that a re-usable rocket would reduce the cost of spaceflight by orders of magnitude, and therefore SpaceX is working hard to design such a rocket. New materials with very specific properties are invented, or existing ones are modified to improve their performance. The basis of most of these elements lies in theoretical physics , such as fluid dynamics for aerodynamics or the equations of motion for flight dynamics.
There is also a large empirical component.
Historically, this empirical component was derived from testing of scale models and prototypes, either in wind tunnels or in the free atmosphere. More recently, advances in computing have enabled the use of computational fluid dynamics to simulate the behavior of the fluid, reducing time and expense spent on wind-tunnel testing.
Those studying hydrodynamics or Hydroacoustics often obtained degrees in Aerospace Engineering.