Educational guide | ||||||||||||||||||||||
IDENTIFYING DATA | 2023_24 | |||||||||||||||||||||
Subject | AEROSPACE TECHNOLOGY | Code | 00710012 | |||||||||||||||||||
Study programme | ||||||||||||||||||||||
Descriptors | Credit. | Type | Year | Period | ||||||||||||||||||
6 | Compulsory | Second | ||||||||||||||||||||
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Web | http:// | |||||||||||||||||||||
General description | ||||||||||||||||||||||
Tribunales de Revisión |
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Competencias |
Code | |
C2 | CMECES2 That students know how to apply their knowledge to their work or vocation in a professional manner and possess the skills that are usually demonstrated through the development and defense of arguments and the resolution of problems within their area of study. |
C3 | CMECES3 That students have the ability to gather and interpret relevant data (normally within their area of study) to make judgments that include reflection on relevant issues of a social, scientific or ethical nature. |
C4 | CMECES4 That students can transmit information, ideas, problems and solutions to both a specialised and non-specialised audience |
C5 | CMECES5 That students have developed those learning skills necessary to undertake further studies with a high degree of autonomy |
Learning aims |
Competences | |||
Consistent knowledge, applied to engineering, on major aerospace concepts | A8699 A8719 A8752 A8827 A8896 A8942 A8956 A8960 A8977 |
B958 B962 B964 |
C2 C3 C4 |
Consistent knowledgo, applied to engineering, on the major elements of the different kinds of airplanes | A8719 A8827 A8851 A8942 A8956 A8960 A8977 |
B959 B960 B961 B962 B964 |
C2 C3 C4 C5 |
Contents |
Topic | Sub-topic |
History | I. Aeronautics and Space history |
Atmosphere | II. Standard atmosphere, real atmosphere, meteorology basics |
Flight principles | III. Fubdamentals of Fluid Mechanics |
Aircrafts and subsystems | VI: Structural elements and aerospace materials |
Propulsion systems | X: Piston engines |
Airports and Navigation | XII: Airports |
Space | XIV: Solar systems, Kepler laws and space environment |
Planning |
Methodologies :: Tests | |||||||||
Class hours | Hours outside the classroom | Total hours | |||||||
Lecture | 0 | 0 | 0 | ||||||
Mixed tests | 3 | 3 | 6 | ||||||
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Description | |
Lecture |
Personalized attention |
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Assessment |
Description | Qualification | ||
Mixed tests | 100% | ||
Other comments and second call | |||
Sources of information |
Access to Recommended Bibliography in the Catalog ULE |
Basic |
S. Franchini y O. López, Introducción a la ingeniería aeroespacial, Garceta, 2010 |
Complementary |
J.Fay, Helicópteros, Paraninfo, 1983 T. Elices, Introducción a la dinámica espacial, INTA Madrid, 1991 M.Ledesma & G. Baleriola, Meteorología aplicada a la aviación, Paraninfo, 1983 M. Muñoz, Motores de combustión interna alternativos, ETSI Industriales Madrid, 1989 M. Cuesta, Motores de reacción, Paraninfo, 1980 EUIT Aeronáutica, Problemas de Tecnología Aeroespacial I, II y III, EUIT Aeronáutica, 1994 Cuttler, Sistemas de Navegación, Paraninfo, 1980 R.Aran & J.R.Aragonés, Sistemas de navegación aérea, Paraninfo, 1992 G.Alarcón, Técnicas aeroportuarias, EUIT Aeronáutica Madrid, C.E. Dober, Teoría de Vuelo y Aerodinámica, Paraninfo, 1985 Rolls Royce, The Jet Engine, Rolls Royce Derby, 1986 |
Recommendations |
Subjects that it is recommended to have taken before | ||
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