By the end of this course, students will be able to apply the disciplinary and interdisciplinary practices of the social sciences to the study of global and local dynamics.

By the end of this course, students will be able to use social science and interdisciplinary disciplines for the understanding of the society in which they are interacting, considering that the political and social environment and the interaction within a community is essential for every contemporary society.

After completing this course, students will be able to solve mechanical vibration problems that involve models with one and two degrees of freedom. They will also analyze forced and cushioned systems by using mathematical tools such as Laplace Transform and Fourier series.

By the end of this course, students will be able to analyze the interrelation between concepts of political science, social dynamics, citizen participation, democracy, and public policy for the understanding and improvement of society. This will foster in society a way to interact in harmony upon which society's survival and well-being depends.

The aim of this course is for students to learn and analyze the main concepts and methods of sociology and apply them to specific real problems.

The aim of this course is to determine students' readiness for professional practice. To this end, students are exposed to model situations which they are bound to face in their professional lives, assessing their responsibility, their methodological ability to search for, process, and use information, generate insights, design solutions, and apply the right method accordingly.

Upon completion of this course, students will be able to use and apply basic concepts and elements of automation in modern manufacturing systems, in the areas of pneumatics, electropneumatics, programmable logic controls, and robotics.

Upon completion of this course, students will demonstrate and apply knowledge of electronic and control systems that integrate microprocessors or microcontrollers, memory, input / output ports, and communication ports, so you can analyze and design flexible architectures, interconnection between components, and programs with specific application in fields such as the automotive, industrial, aerospace, telecommunications, and control areas.

Upon completion of this course, students will manage integrated multidisciplinary knowledge and expertise in the areas of electrical engineering, electronics, mechanics, and computer applications to develop automatic control functions, such as industria, commercial, or personal-use robots. They will integrate concepts of sensing, performance, materials, and programming. This course includes practical sessions where students complete exercises and teamwork to design and build mobile robots and sub​​-component systems.

The aim is for students to apply skills and tools acquired on the different techniques and methodologies of ITR problems in a real situation.