Upon completion of this course, students will be able to use hydrological databases for planning, designing, and building the hydraulic works necessary for the control, capture, storage and conduction of water resources.

Upon completion of this course, students will be able to design the infrastructure required for the different modes of transport: road, rail, air, sea, using the information provided for troubleshooting.

The aim of this course is for students to apply theoretical knowledge related to Project Evaluation based on financial terms in order to argue decision-making regarding the acceptance or rejection of a construction project in accordance with the studies conducted during project development.

Upon completion of this course, students will be able to carry out the experimental measurements of different water quality parameters such as suspended and dissolved solids, pH, biochemical oxygen demand (BOD), chemical oxygen demand (COD), dissolved oxygen, turbidity, chlorine, etc. They will also be able to interpret the experimental measurements and evaluate the efficiency of a water treatment process.

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.

Upon completion of this course, students will be able to (1) Substantiate the impact of logistics on international trade. (2) Define logistics strategies to improve a company's competitiveness and market share within an international context considering the impact of cultural, political and economic conditions of the nations involved. (3) Understand the most relevant international security programs.

Upon completion of this course, students will be able to: (1) Categorize the evolution and impact of information technology 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.

The aim of this course is for students to: (1) Design logistics systems applying the necessary tools to define the chain supply structure that is most cost-effective and provides the desired customer service level. (2) Understand the relevant aspects of transport and inventory management. (3) Improve the operating performance of the supply chain by identifying opportunity areas and defining the projects and programs required to this end.

This course aims for students to design, analyze, and improve production planning and control systems that support the operation of the production system of a company at the desired level of competitiveness.

Upon completion of this course, students will be able to identify, find the mathematical model and solve problems whose variables are linearly related, trying to optimize an objective that is subject to restrictions.