The aim of this course is for students to understand the basic notions of experimental physics through a set of practical laboratory exercises which include different measurement techniques commonly used in Physics.

The aim of this course is for students to learn the methodology used to develop a videogame project, discover three-dimensional object modeling, and learn the mapping techniques that will allow any imaginable world to be created.

The aim of this course is for students to master the principles of "motion tracking" to design an application that integrates digital elements with relative motion, representing reality as closely as possible. They will design and produce environments that surround an animation to accomplish a correspondence between motion characters and environments.

The aim of this course is for students to: (1) Understand and apply methodologies and techniques for designing and developing object-oriented software. (2) Identify and specify objects, classes, behaviors, relationships, rules and formal techniques for software development. (3) Use modeling tools such as UML to illustrate analysis and design (software testing, metrics, reuse and ease of software maintenance, and recursion).

The aim of this laboratory is for students to design and to develop practical applications for projects with microprocessors.

By the end of this course, students will be able to design electromechanical systems that include sensors, microprocessors, communications and programming, with the aim of increasing the productivity, quality and reliability of productive processes in industrial, commercial, and service organizations.

The aim of this course is for students to: (1) Design logistics strategies to improve supply chain competitiveness and market share in a global context considering social, cultural, political and economic aspects. (2) Understand the relevant principles and regulation for the commercial among the members of the NAFTA agreement: Mexico, Canada, and the United States of America.

The aim of this laboratory is for students to understand the operating principles and applications of semiconductor devices: diodes, bipolar transistors and field-effect transistors. They will also be introduced to computer-aided modeling and simulation of analog circuits.

The aim of this laboratory is for students to use the basic principles for the design of control systems and its application by means of PLCs.