Upon completion of this course, students will apply concepts of mechanics to the analysis of living structures including cells, organs, and systems.

Upon conclusion of this course, students will be able to design basic electronic circuits with op amps and apply concepts such as feedback, analogical frequency compensation, filters, and frequency response analysis. Additionally, they will become acquainted with the operation of comparators as well as with the main ASICs. They will also use computer-aided simulation for the analysis of circuits using these devices.

Upon completion of this course, students will be able to manipulate signals by means ofthe Fourier, Laplace, and Z transform methods, applied to continuous and discreet linear systems. They will also apply computer tools for the analysis and simulation of these systems.

The aim of this course is for students to operate the basic principles and applications for the design of control systems: open loop and closed loop, optimal, discreet, adaptable bow, PID. Also, they will be able to analyze the stability of these systems by applying different techniques.

The aim of this course is for students to use basic concepts on both combinational and sequential digital systems, memory devices, and programmable logic devices. Similarly, they will develop skills to design and implement every-day digital systems using commercial components and computer simulation packages.   

The aim of this course is for students to manipulate the principles of operation, analysis and applications of semiconductor devices: diodes, bipolar transistors and field-effect transistors. They will also operate small-signal models and be introduced to computer-aided modeling and simulation.

By the end of this course, students will be able to solve electrical circuits in sine steady state, power analysis, magnetic feedbacks, electrical machines such as DC and AC motors, induction, synchronous, steps, and squirrel cage.

By the end of this course, students will be able to solve electrical circuits by using Ohm's Law, node analysis, and resistive circuit meshes. They will also be able to solve RC, RL, and RLC electrical circuits nalysis of nodes and mesh of resistivos circuits, also to solve electrical circuits RC, RL, RLC by the Laplace Transform.

The aim of this course is for students to: (1) Schematize the evolution and impact of IT on the operation of the supply chain. (2) Analyze relevant technology platforms to enable electronic logistic processes. (3) Understand technologies to share information across the chain supply and support its integration and decision-making.