IMEC - Mechanical Engineering
Credits
3
Distribution
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Credits
0
Distribution
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This course presents the student with a general vision of the most important areas in Mechanical Engineering, and also their impact on the current technological society. Topics about fundamentals of engineering design, materials engineering, manufacturing processes, energy,English,-
conversion, machine design and construction are discussed from several points of view, both empirical and analytical.
Credits
2
Distribution
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Credits
3
Distribution
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Credits
3
Distribution
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This course gives the student a conceptual framework for understanding the behavior of materials in engineering: metals, polymers, ceramics and composites. This course emphasizes in the relation between the structure at several scales (nano, micro and macro scale) and the physical and mechanical properties of materials in order to understand the mechanical processes of fabrication as well as treatments to modify properties.
Credits
0
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
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Course administered by the department for outstanding students selected as academic supervisors, based on Article 89 of the General Undergraduate Program Students Regulation (January 2007)
Credits
2
Distribution
-
Course administered by the department for outstanding students selected as academic supervisors, based on Article 89 of the General Undergraduate Program Students Regulation (January 2007)
Credits
0
Distribution
-
Course administered by the department for outstanding students selected as academic supervisors, based on Article 89 of the General Undergraduate Program Students Regulation (January 2007)
Credits
3
Distribution
-
Course administered by the department for outstanding students selected as academic supervisors, based on Article 89 of the General Undergraduate Program Students Regulation (January 2007)
Credits
3
Distribution
-
Credits
3
Distribution
-
Having learned the properties and basic applications of the main material families, this course seeks to introduce the student into the world of structures control in its most relevant scales. This approach allows giving more precision to the selection criteria for the design of processes and products, taking into account the internal structure of the material. It is also desired that the knowledge acquired is contextualized with the national technological reality and that it is used to motivate innovation. The objective of the course will be achieved through the study of the different families of materials, particularly metals, ceramics and polymers. This study will be carried out with the following sequence: i. Generalities-introduction, ii. Structures, iii. Properties, iv. Manipulation-volumetric and superficial properties, v. Composites from this material family. The execution of projects will be the application center and contextualization of the gained knowledge.
Credits
0
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
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This course deals with the study of the dynamic behaviour of one degree of freedom mechanical systems. The course enables the capacity to analize the rigid body dynamics in two dimensions as well as the vibration dynamcs of mechanical systems.
Credits
0
Distribution
-
Credits
3
Distribution
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This course approaches the analysis and synthesis of mechanisms and machines, from the motion point of view. In the course, the associated forces and required power for the operation of those machines are estimated, analyzing the power transmission elements used to move them.
Credits
0
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
0
Distribution
-
Credits
3
Distribution
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The main objective of this course is to give the student an integral vision of the industrial systems and equipment of energy conversion (be it for supply or consumption), and to make us of the basic principles of engineering to analyze the behavior of those systems and equipment. The course is oriented toward the development of knowledge that allow the analysis, design and selection of energy conversion equipment that are frequently used in industry.
Credits
3
Distribution
-
The main objective of this course is to give the student an integral vision of the industrial systems and equipment of energy conversion (be it for supply or consumption), and to make us of the basic principles of engineering to analyze the behavior of those systems and equipment. The course is oriented toward the development of knowledge that allow the analysis, design and selection of energy conversion equipment that are frequently used in industry.
Credits
0
Distribution
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The course deals with topics related to the manufacturing of industry’s secondary sector products. Emphasis will be given to the fundamental principles of manufacturing processes. Required technologies for the transformation of materials into products will be presents, with a generic focus constituted by the following questions: what systems are there?, what are their specifications?, and what are the functional elements of the system in a manufacturing facility. The students will develop skills to estimate flow of materials, energy and time, as well as the costs of required personnel for the fabrication of elements and products; basic tools to compete in the market. Coursework includes workshops and a project that demands organization and execution of administrative tasks, along with teamwork management.
Credits
3
Distribution
-
The course deals with topics related to the manufacturing of industry’s secondary sector products. Emphasis will be given to the fundamental principles of manufacturing processes. Required technologies for the transformation of materials into products will be presents, with a generic focus constituted by the following questions: what systems are there?, what are their specifications?, and what are the functional elements of the system in a manufacturing facility. The students will develop skills to estimate flow of materials, energy and time, as well as the costs of required personnel for the fabrication of elements and products; basic tools to compete in the market. Coursework includes workshops and a project that demands organization and execution of administrative tasks, along with teamwork management.
Credits
0
The purpose of this course is to expose students to problematic situations that simulate, with some limitations, the conditions in which mechanical systems are designed during the professional practice. That is, situations that must be solved from the best possible information that can be collected, and within a determined timeframe and available budget. In this course, the projects are developed in work teams, which is common in professional working environments.
Credits
3
Distribution
-
The purpose of this course is to expose students to problematic situations that simulate, with some limitations, the conditions in which mechanical systems are designed during the professional practice. That is, situations that must be solved from the best possible information that can be collected, and within a determined timeframe and available budget. In this course, the projects are developed in work teams, which is common in professional working environments.
Credits
0
Credits
1
Distribution
-
Credits
3
Distribution
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Credits
3
Distribution
-
Credits
4
Distribution
-
Credits
3
Distribution
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Credits
3
Distribution
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Credits
6
Distribution
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The objective of this course is to introduce students to the experiment design theory and practice, the apparatuses used to measure the most important physical variables, the methodology used to measure such variables, the management of signals and the analysis of errors. The course contents include: Experimental design (basic statistics), probability distributions, hypothesis testing, median comparison, variance analysis and trust intervals), quality control applications. Manipulation, transmission and data recording (regressions, frequency analysis, filtering). Measuring systems (applications, set-up and description of measuring instruments, and instrument performance characteristics) Basic programming and algorithms. Practical projects.
Credits
4
Distribution
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Vectorial n-dimensional spaces. Lineal operators, self-value theory, Jordan forms and application to ordinary equations. Differential vectorial operations: escalation and vectorial field gradients, divergence and rotational, total derivatives, vectorial operators in mechanics. Balance problems: discrete, continuous, orthogonal expansion solution, non-linear problems and linearization. Dynamic problems: symmetric and continuous problem solving, modal analysis, orthogonal expansion solution for diffusion problems, Fourier transform. Finite elements: variational problems on spaces with discrete functions.
Credits
4
Distribution
-
Credits
0
Distribution
-
Credits
4
Distribution
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Credits
8
Distribution
-
Credits
4
Distribution
-
Credits
4
Distribution
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Credits
0
Distribution
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The student enrolled in this course is developing an international research experience.
Credits
0
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