The aim of this course is for students to use computational tools for the solution of numerical problems in Biomedical Engineering.

This course aims to provide students with a general overview of the field of Biomedical Engineering, including its scientific bases, specialties, and career areas so that they become aware of the knowledge and competencies they should acquire during their course of study and get acquainted with the field of work they will encounter.

This coure aims to provide students with essential knowledge to understand the structure, physical, chemical, and behavioral properties of organic compounds, carry out practices to distinguish them from one another and identify the main reactions in which they participate, as well as their reaction mechanisms.

This course aims to provide students with essential knowledge to understand the structure, physical, chemical, and behavioral properties of organic compounds, distinguish them from one another and identify the main reactions in which they participate, as well as their reaction mechanisms.

This course aims to provide students with essential knowledge to understand the composition, structures, and reactions of inorganic elements and compounds.

The aim of this course is for students to understand the laws and principles that act on bodies when they are exposed to the influence of electric and magnetic fields. By the end of the course, they should also understand the relation between electricity and magnetism.

The aim of this course is for students to develop the statistical abilities needed in the solution of problems associated with market analysis and research. These include the use of: sampling methods, multivariate analysis, variance and covariance analysis, multiple regressions, multiple variance analysis, factor analysis, discriminating analysis, conglomerate analysis, set analysis, and multidimensional scaling. They will apply these basic concepts in conjunction with computational resources in the solution of problems that  involve multivariate analysis.

Students will use the concepts of kinematics and dynamics in the development of computational simulations. The use of specialized software will be applied in the structuring of the projects.

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.