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Alber I.E. Aerospace Engineering on the Back of an Envelope
- Файл формата pdf
- размером 6,11 МБ
- Добавлен пользователем Silver
- Описание отредактировано
Springer Heidelberg Dordrecht London New York, 2012. XXI, 326 p. 98 illus., 73 illus. in color. - ISBN: 978-3-642-22536-9, e-ISBN: 978-3-642-22537-6, DOI 10.1007/978-3-642-22537-6.Shows how to very quickly estimate solutions for complex problems Puts the focus on real world problems
Includes many examples of actual problems like the Space Shuttle and the Hubble Telescope
Useful as a basic resource tool and set of skill for practitioners and students
Assists in developing quick tests of new design conceptsEngineers 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.Content Level » Professional/practitioner
Keywords » BotE - Columbia Shuttle Accident - Hubble Space Telescope - Solenoid Robot Kicker- Space Shuttle Performance
Related subjects » Extraterrestrial Physics, Space Sciences - Mechanical EngineeringContents
Includes many examples of actual problems like the Space Shuttle and the Hubble Telescope
Useful as a basic resource tool and set of skill for practitioners and students
Assists in developing quick tests of new design conceptsEngineers 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.Content Level » Professional/practitioner
Keywords » BotE - Columbia Shuttle Accident - Hubble Space Telescope - Solenoid Robot Kicker- Space Shuttle Performance
Related subjects » Extraterrestrial Physics, Space Sciences - Mechanical EngineeringContents
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