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Fundamentals of Aerospace Engineering
This "is a textbook that provides an introductory, thorough overview of aeronautical engineering, and it is aimed at serving as reference for an undergraduate course on aerospace engineering. The book is divided into three parts, namely: Introduction (The Scope, Generalities), The Aircraft (Aerodynamics, matericals and Structures, Propulsion, Instruments and Systems, Flight Mechanics), and Air Transporation, Airports, and Air Navigation."--
Python for Mechanical and Aerospace Engineering
The traditional computer science courses for engineering focus on the fundamentals of programming without demonstrating the wide array of practical applications for fields outside of computer science. Thus, the mindset of “Java/Python is for computer science people or programmers, and MATLAB is for engineering” develops. MATLAB tends to dominate the engineering space because it is viewed as a batteries-included software kit that is focused on functional programming. Everything in MATLAB is some sort of array, and it lends itself to engineering integration with its toolkits like Simulink and other add-ins. The downside of MATLAB is that it is proprietary software, the license is expensive...
Fundamentals of Aerospace Engineering
Attention: This book requires no knowledge of math! During my career as an aerospace engineer, I have come to find that math is only one small prerequisite for being successful in the field - what's most important is passion. Aerospace engineering builds on several basic disciplines including mathematics, physics, chemistry, mechanics, electronics and communications. Even just a rudimentary understanding of these fields enables a more rapid and deep understanding of the advancements in aerospace engineering - whether you be an interested spectator or professional in the field, this is your textbook. Our real limits are far beyond our current perception and we will challenge them for many cen...
Building Aircraft and Spacecraft
Readers will love exploring a career as an aerospace engineer, a job where the sky is never the limit. This book explores both sides of aerospace engineering—aeronautical and astronautical. Readers will learn the different jobs and tasks that make up this important career, as well as the different technologies aerospace engineers use and design. This book provides all the tools readers need to start working towards a career in this exciting field, as well as inspiration through introductions to notable aerospace engineers. Engaging text and vivid photographs provide a dynamic reading experience, while sidebars and a graphic organizer present additional information in an accessible way. This book is a perfect addition to STEM and career-based instruction, and it is sure to be a hit with young engineers everywhere.
Aeronautical Engineer's Data Book
Aeronautical Engineer's Data Bookis an essential handy guide containing useful up to date information regularly needed by the student or practising engineer. Covering all aspects of aircraft, both fixed wing and rotary craft, this pocket book provides quick access to useful aeronautical engineering data and sources of information for further in-depth information. - Quick reference to essential data - Most up to date information available
AIAA Aerospace Design Engineers Guide
An indispensable reference for aerospace designers, analysts and students. This fifth revised and enlarged edition of this classic, indispensable, and practical guide provides a condensed collection of commonly used engineering reference data specifically related to aerospace design. New material on air breathing propulsion, systems engineering, and radar cross section has been added to reflect recent data in aircraft design. Features: New material on air breathing propulsion, systems engineering, and radar cross section Most commonly used formulas and data for aerospace design Convenient size and binding Large, easy-to-read tables, charts, and figures Handy reference for everyday use Developed by aerospace professionals AIAA Aerospace Design Engineers Guide is an essential tool for every design engineer and every aspiring aerospace engineering student.
The Logic of Microspace
Changing the focus of the multibillion-dollar global aerospace business toward smaller, lower-cost spacecraft is not happening solely due to technical, managerial, financial or market motivations. Rick Fleeter's second book on the small, low-cost space programmes which are the fastest-growing segment of aerospace activity, gives the reader a keen understanding of the full spectrum of factors driving this profound change. The text then goes beyond engineering technologies and management techniques to envision the tantalizing prospects microspace has in store for the industry, its present markets and those of the future.
Be an Aerospace Engineer
There is so much we still are still learning about outer space, and aerospace engineers are leading the way, helping to build the technology we use to guide the men and women who travel into the cosmos. It's a job that includes the study and use of math, physics, chemistry, biology, and even agriculture. Some aerospace engineers even decide to test their own work and become astronauts themselves. Through this book, readers learn what it takes to become part of this amazing world of STEM careers through science-curriculum supporting content and real-life photographs of scientists at work.
Aerospace Engineering on the Back of an Envelope
Engineers need to acquire “Back-of-the-Envelope” survival skills to obtain rough quantitative answers to real-world problems, particularly when working on projects with enormous complexity and very limited resources. In the case studies treated in this book, we show step-by-step examples of the physical arguments and the resulting calculations obtained using the quick-fire method. We also demonstrate the estimation improvements that can be obtained through the use of more detailed physics-based Back-of-the-Envelope engineering models. These different methods are used to obtain the solutions to a number of design and performance estimation problems arising from two of the most complex real-world engineering projects: the Space Shuttle and the Hubble Space Telescope satellite.
