Bibliographic citations
Gorostiaga, V., Palma, A., Urbano, J. (2024). Propuesta de guía de prácticas de laboratorio para fortalecer el autoaprendizaje en electrónica analógica en un Instituto Superior Tecnológico [Universidad Peruana Cayetano Heredia]. https://hdl.handle.net/20.500.12866/16173
Gorostiaga, V., Palma, A., Urbano, J. Propuesta de guía de prácticas de laboratorio para fortalecer el autoaprendizaje en electrónica analógica en un Instituto Superior Tecnológico []. PE: Universidad Peruana Cayetano Heredia; 2024. https://hdl.handle.net/20.500.12866/16173
@mastersthesis{renati/911568,
title = "Propuesta de guía de prácticas de laboratorio para fortalecer el autoaprendizaje en electrónica analógica en un Instituto Superior Tecnológico",
author = "Urbano Alva, Jorge Luis",
publisher = "Universidad Peruana Cayetano Heredia",
year = "2024"
}
The content in educational curricula helps students develop a professional profile, enabling them to adapt to the labor market. Organizations, such as UNESCO, have researched and provided recommendations to enhance students' skills and competencies in response to technological advances and changes resulting from the COVID-19 pandemic. In engineering, these subjects are categorized into two sections: the technological aspect and laboratory practice. The increasing significance of artificial intelligence and Industry 4.0 has made the latter particularly relevant, especially in dual educational models. Therefore, paying attention to educational materials that enable more effective learning progress evaluation for students is important. In a higher technological institution in Lima, in the technics of Electronic Engineering career, now Mechatronics Engineering, a guide of laboratory practices, was developed to help teachers and students achieve part of the goals proposed in the professional training program of the analog electronics course. Each topic of this content is conducted in three sections or moments, which are reflected in the guide. The first consists of an earlier investigation and circuit simulation, strengthening the student's self-learning. The second considers the development of systematic and personal-social skills and the third promotes the progress of technical or cognitive skills. In the end, it is proposed to analyze and evaluate the progress of the process using an appreciation list or observation guide with twenty aspects to see, each with six evaluation criteria. The results of applying for this guide allow for the necessary feedback and obtain information about the student's learning progress.
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