To have a general knowledge on mathematics, mechanics and graphic expression.
The Resolución of 15 January of 2009, BOE of 29 January (Orden CIN / 351/2009, 9 February, BOE of 20 February 2009) establishes the requirements that must meet the new degree titles so that habilitate in the exercise of the profession of Technical Industrial Engineer.
This is a common subject of the Mechanical specialty in which students are initiated in the study of elastic solids. In the previous semester the subject of "Materials resistance” is studied, where the analysis of stresses and deformations of structural components subjected to fixed loads in time are studied, while in the current subject the theory of the elasticity and its applications to any type of solid are presented.
Course competences | |
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Code | Description |
A01 | To understand and have knowledge in an area of study that moves on from the general education attained at secondary level and usually found at a level that, while supported in advanced text books, also includes some aspects that include knowledge found at the cutting edge of the field of study. |
A02 | To know how to apply knowledge to work or vocation in a professional manner and possess the competences that are usually demonstrated by the formulation and defence of arguments and the resolution of problems in the field of study. |
A04 | To be able to transmit information, ideas, problems and solutions to a specialized audience. |
A07 | Knowledge of Information Technology and Communication (ITC). |
A08 | Appropriate level of oral and written communication. |
A09 | Ethical and professional commitment. |
A12 | Knowledge of basic materials and technologies that assist the learning of new methods and theories and enable versatility to adapt to new situations. |
A13 | Ability to take the initiative to solve problems, take decisions, creativity, critical reasoning and ability to communicate and transmit knowledge, skills and abilities in Mechanical Engineering. |
C08 | Knowledge and use of the principles of the resistance of materials. |
CB01 | Prove that they have acquired and understood knowledge in a subject area that derives from general secondary education and is appropriate to a level based on advanced course books, and includes updated and cutting-edge aspects of their field of knowledge. |
CB02 | Apply their knowledge to their job or vocation in a professional manner and show that they have the competences to construct and justify arguments and solve problems within their subject area. |
CB03 | Be able to gather and process relevant information (usually within their subject area) to give opinions, including reflections on relevant social, scientific or ethical issues. |
CB04 | Transmit information, ideas, problems and solutions for both specialist and non-specialist audiences. |
CB05 | Have developed the necessary learning abilities to carry on studying autonomously |
D04 | Knowledge and ability to apply the fundamentals of elasticity and resistance of materials to the behaviour of real solids. |
Course learning outcomes | |
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Description | |
Calculate the distribution of tensions in a section | |
Apply basic knowledge of elasticity and resistance of materials to real solids | |
Measure simple structural elements | |
Initiation in learning of the non-elastic behaviour of solids | |
Manual techniques for calculating displacement and strengths in structural elements | |
To know when a solid can be studied through geometrical and material simplifications | |
Additional outcomes | |
Not established. |
Training Activity | Methodology | Related Competences (only degrees before RD 822/2021) | ECTS | Hours | As | Com | R | Description * |
Class Attendance (theory) [ON-SITE] | Lectures | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.8 | 20 | N | N | N | |
Problem solving and/or case studies [ON-SITE] | Problem solving and exercises | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.4 | 10 | N | N | N | |
Laboratory practice or sessions [ON-SITE] | Practical or hands-on activities | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.48 | 12 | Y | N | N | |
Workshops or seminars [ON-SITE] | Workshops and Seminars | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.4 | 10 | Y | N | N | |
Individual tutoring sessions [ON-SITE] | Other Methodologies | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.16 | 4 | N | N | N | |
Final test [ON-SITE] | Assessment tests | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 0.16 | 4 | Y | Y | Y | |
Study and Exam Preparation [OFF-SITE] | Self-study | A01 A02 A04 A07 A08 A09 A12 A13 C08 CB01 CB02 CB03 CB04 CB05 D04 | 3.6 | 90 | N | N | N | |
Total: | 6 | 150 | ||||||
Total credits of in-class work: 2.4 | Total class time hours: 60 | |||||||
Total credits of out of class work: 3.6 | Total hours of out of class work: 90 |
As: Assessable training activity Com: Training activity of compulsory overcoming R: Rescheduling training activity
Grading System | |||
Evaluation System | Face-to-Face | Self-Study Student | Description |
Theoretical papers assessment | 30.00% | 0.00% | The reports of seminars, problems and / or papers presented as well as the attitude shown by the student will be evaluated. |
Final test | 70.00% | 0.00% | Two tests related with the application of theoretical-practical aspects. Each test must be passed at least 5 out of 10. |
Total: | 100.00% | 0.00% |
Not related to the syllabus/contents | |
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Hours | hours |
Laboratory practice or sessions [PRESENCIAL][Practical or hands-on activities] | 12 |
Individual tutoring sessions [PRESENCIAL][Other Methodologies] | 4 |
Final test [PRESENCIAL][Assessment tests] | 4 |
Study and Exam Preparation [AUTÓNOMA][Self-study] | 30 |
Unit 1 (de 3): Elastic behavior of three-dimensional solids. | |
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Activities | Hours |
Class Attendance (theory) [PRESENCIAL][Lectures] | 12 |
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] | 6 |
Workshops or seminars [PRESENCIAL][Workshops and Seminars] | 6 |
Study and Exam Preparation [AUTÓNOMA][Self-study] | 36 |
Unit 2 (de 3): Theory of elasticity application and resistance of materials to real solids. | |
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Activities | Hours |
Class Attendance (theory) [PRESENCIAL][Lectures] | 5 |
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] | 3 |
Workshops or seminars [PRESENCIAL][Workshops and Seminars] | 3 |
Study and Exam Preparation [AUTÓNOMA][Self-study] | 16.5 |
Unit 3 (de 3): Introduction to non-elastic behaviors. | |
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Activities | Hours |
Class Attendance (theory) [PRESENCIAL][Lectures] | 3 |
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] | 1 |
Workshops or seminars [PRESENCIAL][Workshops and Seminars] | 1 |
Study and Exam Preparation [AUTÓNOMA][Self-study] | 7.5 |
Global activity | |
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Activities | hours |
Author(s) | Title | Book/Journal | Citv | Publishing house | ISBN | Year | Description | Link | Catálogo biblioteca |
---|---|---|---|---|---|---|---|---|---|
López Cela, Juan José | Mecánica de los medios continuos | Ediciones de la Universidad de Castilla-La Manc | 84-8427-030-0 | 1999 | |||||
MASE, George E. | Teoría y problemas de mecánica del medio continuo | McGraw-Hill | 0-07-091668-3 | 1977 | |||||
Madhukar Vable | Mechanics of Materials | Michigan Technological University | http://madhuvable.org/wp-content/uploads/2016/04/Intro-2nd-Edition.pdf | ||||||
Mase, George E. | Theory and problems of continuum mechanics | McGraw-Hill | 0-07-040663-4 | 1970 | |||||
Oliver, J. (Javier Oliver Olivella) | Mecánica de medios continuos para ingenieros | Edicions UPC | 84-8301-582-X | 2002 | |||||
Ortiz Berrocal, Luis | Elasticidad | McGraw-Hill | 84-481-2046-9 | 2004 | |||||
Spencer, A.J.M. | Continuun mechanics | Dover | 0-486-43594-6 | 1980 |