Summary of Así es la Ingeniería en Mecatrónica

00:00:00 - 00:05:00

This video covers the engineering field of mechatronics, which is the union of electrical engineering, computer science, and mechanics. It covers what classes you need to pursue to become an engineer in mechatronics, and reminds viewers that depending on the university you attend, some of the classes mentioned in this video may not be part of your degree plan.

• 00:00:00 This video focuses on the engineering field of mechatronics, which is the union of electrical engineering, computer science, and mechanics. It covers what classes you need to pursue to become an engineer in mechatronics, and reminds viewers that depending on the university you attend, some of the classes mentioned in this video may not be part of your degree plan. In addition, this video is only for mechatronics, which is the classical branch of engineering that studies and analyzes the movement and rest of bodies, based on the principles of Newton's three laws of motion. Classes in mechatronics might include statics, dynamics, mechanics of fluids, engineering of materials, and statics, which is the classical branch of mechanics that studies the properties of materials. You would also take classical mechanics classes such as calculus, differential calculus, algebra, linear algebra, and physics 1 and 2 in some universities, which would teach you the basic concepts of physics in some cases. In electromagnetism, you would learn about the relationship between current and magnetic field, as well as the application of principles of Faraday's laws to real-world situations such as electrical circuits, rotors, and fans. You would also take a course in electrical engineering that would cover low-power
• 00:05:00 In this video, you will learn different methods for modeling real-world systems and it is based more on optimization in modern control. You will learn more modern methods for controlling systems, for example, faster responses for motors or actuators. You will also learn structured programming and object-oriented programming. You will learn the language c and its spaces, as well as placements and even a introduction to Peyton in programming. You will learn how to program the language oriented to objects normally used for Java or Visual Basic. You will learn software for simulation, for example, software for simulating electrical circuits such as Spice Proteus. You will also learn how to make simulations in Sortu Works. You will learn software that is normally used for Solidworks, Autocad, and sometimes both. You will also take classes that are related to mechanics, in this case, you will learn mechanical designs where you will learn to incorporate all your knowledge in mechanical applications such as robots. You will also take a class on robotic control, where you will learn methods for analyzing robot movements and position. This may involve the implementation of comfort and vision algorithms. You will also take automation classes, where you will learn methods for analyzing data obtained in laboratories or manufacturing plants. You will be responsible for