IMEC - Mechanical Engineering
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
3
Distribution
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Instructor
Beltran Pulido Rafael
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0
This course trains students in the planning and execution of experiments in the context of real practice of Engineering and discusses topics such as systems of units, basic measurement of phenomena, collecting data, sampling and basic signal analysis, among others.
Credits
3
Distribution
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Instructor
Briceno Triana Juan
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0
Thermodynamics is the first of four courses required in the energy conversion area. This course focuses on the understanding and application of the first and second law of thermodynamics to the analysis of basic macroscopic thermodynamic systems. Thus, it deals with the study of the various energy forms and its transference through the system boundaries in the forms of heat and work. Additionally, pure substances are studied and closed and open systems are analyzed. The course is complemented with the study of the Otto, Diesel, and Brayton power cycles.
Credits
3
Distribution
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Instructor
Gonzalez Mancera Andres
Credits
0
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
3
Distribution
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Instructor
Hormaza Wilson
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0
This is a project-based course that approaches technical drawing as an Engineering language and shows how it is a powerful tool for design and communication. The projects challenge the student and require that he or she use graphic means to communicate technical ideas. Freehand drawing and the use of contemporary CAD techniques are especially encouraged.
Credits
3
Distribution
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Instructor
Polanco Gutierrez Ana
Credits
0
This is the first course of a series of three courses in the area of Mechanical Systems in the Mechanical Engineering Program. This course focuses on the basic concepts of applied mechanics in engineering (free body diagram, degrees of freedom, Newton’s laws, etc). This course is structured in three parts: the first part is dedicated to fundamentals; the second part is dedicated to statics of particles, bodies and systems; the third part is dedicated to dynamics of particles (kinematics and kinetics; motion in a plane, conservation of energy and linear momentum).
Credits
3
Distribution
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0
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0
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0
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Automation and production research group seminar where participants demonstrate their progress in the research topics they are working on.
Credits
0
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Instructor
Rodriguez Herrera Carlos
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0
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)
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0
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This introductory course belongs to the basic engineering sciences. It focuses in the study physical properties of fluids, in the application of principles of conservation, and in the study of mathematical and experimental tools that describe and analyze flows.
Credits
3
Distribution
-
Credits
0
This course focuses on the key topics of conduction, convection, and radiation. One- dimension conduction is studied analytically for steady and transient state conditions whereas twodimension conduction problems are analyzed basically using numerical and graphical methods. Forced convection analyses are considered for internal and external (turbulent and laminar) flows while natural and mixed convection conditions are considered only for external flows. Additionally, the course is complemented with the analysis of radiation problems for black and gray surfaces separated by nonparticipating media. During the development of the course, the students are encouraged to use the Engineering Equation Solver (EES) software in the Engineering problem solutions.
Credits
3
Distribution
-
Credits
0
This course introduces the student, who is already familiar with the basic properties and applications of the different kinds of materials, into materials property modification at different length scales,. Such approximation allows improving the criteria for process and product design based on materials structure. Furthermore, such knowledge would be contextualized in the national technological reality.
Credits
3
Distribution
-
Instructor
Medina Periilla Jorge
Credits
0
One of the most common problems for an engineer is to decide proportions, shape and materials for an element of a machine or structure, which have to support external forces during a lifespan without excessive wear, deformation or fracture. The purpose of this course is to provide at the student with bases on structural design unifying concepts from applied mechanics and science of materials.
Credits
3
Distribution
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Instructor
Mateus Sandoval Luis
Credits
0
Mechanics of Dynamical Systems is the second course in a series of three required courses in the area of Mechanical Systems in the Mechanical Engineering Program. This course focuses on the study of the behavior of dynamical systems with one and two degrees of freedom. It allows the student to perform basic analysis of the vibration dynamics of mechanical systems, while also introducing the basic concepts of rigid body dynamics in two dimensions.
Credits
3
Distribution
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Instructor
Mu?Oz Camargo Luis
Credits
0
This course introduces the design of machinery from the point of view of motion. This course discusses design of machinery in order to develop specific movements, the estimation of associated forces and required power for its operation and the power transmission elements to moving the machines. In this course, mathematical models to evaluate the dynamic behavior of machines are developed and simple mechanisms based on analysis and synthesis methodologies are designed and optimized
Credits
3
Distribution
-
Credits
0
This course establishes a bridge between Introduction to Mechanical Engineering and Undergraduate thesis, considering that the future engineer will probably have to carry out projects during his professional life. This course contributes to the achievement of the following purposes of the career:,English,-
1. The exploration of the context in which an engineering project is developed (local industrial environment, social, legal, economic, environmental, etc.). 2. Learning and peer feedback. 3. Contextual application of concepts, models and techniques learned during the first half of the undergraduate program. 4. The presentation of project results (reports, oral presentations, etc.).
Credits
3
Distribution
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Instructor
Casas Juan
Credits
3
Distribution
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The general objective of this course is to give the students an integral view of systems and general industrial equipment for energy conversion (be it supply or consumption equipment). The student will use the general engineering fundamentals to analyze the performance of such systems and prime movers. The course is oriented towards the knowledge development for analysis, design of energy conversion systems, frequently used in industry.
Credits
3
Distribution
-
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0
This course introduces common technological methods involved in manufacturing and processing of products, made with different engineering materials. In order to achieve these objectives, the student will attend tutorials and discussion classes and will make guided investigations in the commercial and industrial environment. He also will participate in laboratory practice guided by the professor, class monitor or specialized technicians.
Credits
3
Distribution
-
Credits
0
The design of mechanical systems is the activity in which a Mechanical Engineer uses the principles of science to develop a product. This product can be a structure, a mechanism, a machine, a plant, etc., that satisfies the needs or desires of a customer. Such need define the design objective, requirements, restrictions, and/or criteria. Additionally, the system’s operating conditions and the capital available for its development must be considered.,English,-
The purpose of this course is to expose the students to the conditions under which mechanical systems are designed in a professional environment. Engineering problems must be solved in teams using the best information available, within a certain timestamp and with a limited budget. With this in mind, the course’s projects will be developed by teams of students.
Credits
3
Distribution
-
Credits
0
In this seminar the student defines the ME degree Project, which is to be carried out the semester,English,-
following this seminar. The student submits a proposal of the ME degree project, as a final,English,-
requirement for graduation
Credits
0
Distribution
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Instructor
Pinilla Sepulveda Alvaro
Individual work of students in their last semester, which implies the study of special problems within the mechanical engineering area, under the direction of an advisor professor.
Credits
3
Distribution
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Instructor
Sanabria Pinilla Yan
This course is a short project led by a department full-time professor, who authorizes a student to conduct it.
Credits
3
Distribution
-
Instructor
Polanco Gutierrez Ana
Credits
6
Distribution
-
Credits
0
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
-
Instructor
Mu?Oz Camargo Luis
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
-
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0
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Instructor
Sanabria Pinilla Yan
Credits
4
Distribution
-
Credits
4
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Credits
4
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Credits
4
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This is a first course of computer networks. Under a top-down approach, it presents each one of the levels that compose the protocol stack of a network, with special emphasis in TCP/IP that is in the base of the Internet. TCP/IP is used like example of real implementation of the fundamental concepts of networks, without forgetting the protocols and implementations of different network architectures. Specificities are additionally introduced to understand how to adapt these concepts to new technologies like wireless networks. Special emphasis is put to understand the impact on both security and performance of current networking implementations.,English,-
The course has two equally important components: theoretical lectures and practical laboratories. Laboratories not only illustrate the practical part of the most important concepts seen in the theoretical classes, but also they complement in themes that seek to give to students new skills useful in the practice of the profession.
Credits
4
Distribution
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Instructor
Gordillo Ariza Gerardo
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Credits
4
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4
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4
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4
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4
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The scientific research is derived from a question or problem that has not been studied before, or the response of which is not satisfactory yet. A research is far more than a simple search for information, it is the consequence of the systematic application of the scientific method, with the final purpose of contributing to the solution of problems that affect society. A research requires goals, planning, hypotheses, critical assumptions and information generation and interpretation. The general purpose of this course is to provide students the tools for the sound exercise of research, within the framework of the scientific method. The articulation of these tools by students will be evaluated based on the research proposal and its defense before a panel of evaluators.
Credits
0
Distribution
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Instructor
Gonzalez Mancera Andres
Under the direction of an advisor professor, the engineer must become familiar with the research project topic and must conduct a search and a study of the bibliography material. During this course, students will gain technique knowledge and skills to conduct research i.e.- they will develop mathematical models, analytical methods, etc. In the event of experimental research, students will design equipment, experiments, etc.
Credits
4
Distribution
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Instructor
Gonzalez Mancera Andres
Purpose: The student must fully build and / or develop the algorithms and analytical techniques to achieve research objectives. Likewise, the student must build and conduct the assembly needed to verify the proposed model from an experimental point of view.
Credits
8
Distribution
-
Instructor
Gonzalez Mancera Andres
Credits
8
Distribution
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Project individually solved by the student under the advise of professors in the field of interest.
Credits
4
Distribution
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Instructor
Gonzalez Mancera Andres
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0
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0
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4
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4
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0
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0
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0
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4
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8
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12
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0
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0
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