ESTUDIAR INGENIERÍA ELECTRÓNICA: 50 VERDADES SOBRE ESTUDIAR INGENIERÍA ELECTRÓNICA 🔋📡

Orientación Es vocación

27 Feb 202009:48

Summary

TLDRThis video delves into 50 truths about studying electrical engineering, emphasizing the design and implementation of electrical devices. It highlights the importance of advanced mathematics, physics, and self-learning. The video busts myths about the field being male-dominated and stresses the need for resilience, safety, and practical lab experience. It also touches on the broad job prospects, especially in Europe, and the significance of English proficiency for global competitiveness. The script encourages viewers to consider the field if they envision impactful electrical projects.

Takeaways

😀 Engineering electronics involves the design and implementation of electrical devices, which can range from small to large.
📚 Advanced mathematics, including calculus and differential equations, is a core part of the curriculum.
🤓 Students must be self-taught, as not all aspects of electronic projects will be taught by professors.
🌍 There is a significant job market, especially in Europe and Germany, for electronic engineers.
🧲 A strong foundation in physics, particularly electricity and magnetism laws, is essential for understanding electronic concepts.
🔬 Chemistry is also important as electronic devices often involve semiconductors made from chemical elements like silicon.
💡 Resilience is key, as lab work and prototyping can involve a lot of trial and error.
⚠️ Safety is crucial during lab practices, and proper equipment usage is mandatory.
🔌 You don't need prior knowledge of electronics to enter the field of study.
🔩 'Less is more' is a principle to follow when starting with electronics; simpler and more stable circuits are better initially.
📈 Courses in electrical and electronic measurement are recommended before starting physical electronic projects to avoid common measurement errors.
👨‍🏫 It's important to treat teachers with respect and to take their criticism as a chance to improve.
🔍 Before connecting any components, check them thoroughly to ensure they function properly and understand their specifications from the datasheet.
👨‍💻 People often assume that electronic engineering students can fix TVs, computers, and cell phones, but university education focuses on designing and building electronic devices.
🚀 The field of communications and automation is central to electronic engineering, involving complex mathematics beyond high school level.
👩‍💼 Women are increasingly present in the field, debunking the myth that it's a male-dominated career.
🛠️ Students are equipped with toolboxes and test benches filled with cables and circuits.
🎓 The assumption that electronic engineering students neglect their physical appearance is often due to their focus on studying and project development.
📉 Be prepared to fail at least one subject; it's a common part of the learning process.
🕒 Time management and working under pressure are skills developed through project deadlines.
🛡️ Equipment can be lost or damaged, so it's important to take care of what you have.
🤝 There's a perception that electronic engineers know more than others, but all engineering fields are important and have their specialties.
🏢 Initially, you might not be designing equipment and may feel like you're doing monotonous work, but patience is key as you'll progress.
👨‍🏫 Some professionals find joy in teaching and sharing their knowledge.
🌐 English is fundamental for the field, as it's often required globally and for understanding manuals and instructions.
🌐 Being multilingual can be advantageous in the global field of electronics.
📚 The study of electronic engineering provides a broad mastery of mathematics and physics.
👨‍🏫 Some professionals choose to teach to impart their knowledge and experience.
💡 If you envision a project that impacts lives and requires electricity and electronics, this career path might be for you.