Resolution Of September 22, 2015, Of The Rey Juan Carlos University, Publishes Curriculum Of Graduated In Engineering In Industrial Technologies.

Original Language Title: Resolución de 22 de septiembre de 2015, de la Universidad Rey Juan Carlos, por la que se publica el plan de estudios de Graduado en Ingeniería en Tecnologías Industriales.

Read the untranslated law here: http://www.boe.es/buscar/doc.php?id=BOE-A-2015-10723

In accordance with what feature article 35.4 of the organic law 6/2001, of 21 December, on universities, the sixth additional provision of Royal Decree 1393 / 2007, of 30 October, which establishes the planning of official university education and the agreement of the Council of Ministers of 7 October 2011 by which establishes the official nature of certain degrees of the University Rey Juan Carlos , and once approved the positive verification of the proposal for a Bachelor's degree in engineering in industrial technologies by the Universidad Rey Juan Carlos, this Chancellor has resolved to order the publication of the curriculum (5.1 structure of the teachings) of the degree in engineering in industrial technologies as an annex to the present resolution.

Móstoles, 22 September 2015.-El Rector, Fernando Suárez Bilbao.

ANNEX 5.1 structure the teachings table 1.1 Summary of materials and distribution credits ECTS basic commodity credits training type 78 126 mandatory optional 18 Externships - credits 6 work end of grade 12 240 total credits learning path of education.

Course subject matter 1 character credits physical.





Physics i.





FBR





6






Física.





Physics ii.





FBR 6 chemical.





Chemistry.





FBR 7.5 linguistic.





The language in the company.





Right 6 BCF.





Basic legal principles, professional ethics and equality.





FBC 6 computer.





Computer applied.





FBC 6 mathematics.





Mathematics I.





FBR 6 mathematics.





Mathematics II.





FBR 7.5 expression graphics.





Graphic expression.





FBR 9 Total of credits to pursue: 60.

2nd field course.





Subject.





Character credits electricity and electrical engineering.





Fundamentals of electricity and magnetism.





4.5 statistical OB.





Statistics.





FBR 6 enterprise.





Introduction to the company.





FBR 6 modern language.





Language modern.





FBC 6 science and engineering of materials.





Science and engineering of materials.





OB 6 mathematics.





Complements mathematical I.





Mathematics 3 OB.





Complements mathematical II.





OB 3 electricity and electrical engineering.





Electrical engineering.





OB 4.5 technologies of manufacture.





I manufacturing process technology.





OB 4.5 engineering mechanics.





Technical mechanics.





OB 6 thermal engineering.





Applied thermodynamics.





OB 6 engineering thermal.





Transmission of heat.





OB 4.5 Total of credits to pursue: 60.

3rd matter subject character credits electronic, automatic and control course.





Control and automation.





OB 6 mechanical engineering.





Design mechanical and structural integrity.





OB 4.5 solid mechanics.





Elasticity and resistance of materials.





Electronic 6 OB, automation and control.





Digital and electronic systems.





OB 6 manufacturing technologies.





II manufacturing process technology.





Electronic 4.5 OB, automation and control.





Electronic technology.





OB 4.5 mechanical engineering.





Theory of machines.





OB 6 fluids engineering.





Fluids engineering.





OB 7.5 engineering and process management.





Process engineering.





OB 6 thermal engineering.





Energy engineering.





OB 4.5 environment.





Engineering and environmental management.





OB 4.5 Total of credits to pursue: 60.

Course 4th matter subject character credits recognition academic of credits.





Academic recognition of credits.





OB 6 end of degree work.





End of degree work.





OB 12 engineering and process management.





Economics and industrial organization.





OB 4.5 science and engineering of materials.





Corrosion and degradation.





Electronic 4.5 OP, automation and control.





Design of electronic systems.





OP 4.5 electricity and electrical engineering.





Electrical machines.





OB 4.5 theory of structures and buildings industrial.





Theory of structures and industrial constructions.





OB 4.5 thermal engineering.





Renewable energy.





OP 4.5 solid mechanics.





Modelling of materials and structures.





OP 4.5 engineering and process management.





Quality and industrial safety.





OB 4.5 projects.





Engineering projects.





OB 6 Total credits to study: 60.