Flipped Classroom as a pedagogical model in the teaching and learning process
Article Sidebar
Main Article Content
Abstract
Introduction: The flipped classroom is a pedagogical model that allows both students and teachers to optimize the teaching process, it seeks to exchange roles, the learner teaches the knowledge previously learned by reviewing texts, videos, readings, and other content outside the classroom to explain it. in the classroom environment. Objective: the general objective is to determine the importance of the double flipped classroom in the globalized educational context. Methodology: The design was applied research, according to its approach a quantitative, field, cross-sectional and longitudinal study was conducted. The descriptive scope. The methods applied were deductive, inductive, analytical, synthetic. The research technique applied was the survey, with the questionnaire instrument that allowed the variables of the study to be investigated. Results: The results confirm that students use an inverted classroom, taking advantage of it to conduct practical activities and solve potential problems. The possibility of implementing this method to contribute to active learning and encourage continuous participation in a collaborative manner was evident. Conclusion: It concludes in the fulfillment of the objectives, as well as the order of teaching is reversed in two moments, considering that the teacher teaches in class, the student learns and at a certain moment the student teaches what he investigated, deepens the contents. and encourages collaborative learning, which allows the application of the flipped classroom in the classroom context.
Downloads
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
References
Almeida, A. (2022, noviembre 30). El aula invertida y su influencia en el proceso de enseñanza-aprendizaje de sistemas de ecuaciones lineales, en décimo año de educación general básica. Universidad Central del Ecuador. http://www.dspace.uce.edu.ec/bitstream/25000/29060/1/UCE-FIL-CPO-ALMEIDA%20ANDRES.pdf
Bermúdez, J., Bolaños, D., & Villate, M. (2019). La enseñanza de la lectura: una mirada desde el dispositivo pedagógico en textos escolares de primer ciclo de básica. Universidad de Bogotá, 50. http://repository.pedagogica.edu.co/bitstream/handle/20.500.12209/11774/TE-23983.pdf?sequence=1&isAllowed=y
Bhat, S., Tripathi, A., & Kumar, A. (2010). Supermacroprous chitosan-agarose-gelatin cryogels. in vitro characterization and in vivo assessment for cartilage tissue engineering. Journal of the Royal Society Interface, 1-15.
Bossis, G., Marins, J., Kuzhir, P., Volkova, O., & Zubarev, A. (2015). Functionalized microfibers for field-responsive materials and biological applications. Journal of Intelligent Material Systems and Structures, 1-9.
Chuquimbalqui-Maslucán, N. (2021). Aula aumentada y aula invertida, los nuevos retos en educación superior universitaria. Scientific research journal, 1(1), 130-147. https://doi.org/10.53942/srjcidi.v1i1.52
Cortés, J., Puig, J., Morales, J., & Mendizábal, E. (2011). Hidrogeles nanoestructurados termosensibles sintetizados mediante polimerización en micro emulsión inversa. Revista Mexicana de Ingeniería Química., 10(3), 513-520.
Dias, A., Hussain, A., Marcos, A., & Roque, A. (2011). A biotechnological perspective on the application of iron oxide magnetic colloids modified with polysaccharides. Biotechnology Advances 29, 29, 142–155.
Estrada Guerrero, R., Lemus Torres, D., Mendoza Anaya, D., & Rodríguez Lugo, V. (2010). Hidrogeles poliméricos potencialmente aplicables en Agricultura. Revista Iberoamericana de Polímeros, 12(2), 76-87.
Fernández, A. (2022, diciembre 2). Metodología de aprendizaje y medio de evaluación | Universidad de Burgos. (s. f.). https://www.ubu.es/instituto-de-formacion-e-innovacion-educativa/destacados-de-instituto-de-formacion-e-innovacion-educativa/acciones-formativas-para-el-pdi-de-la-ubu-curso-20132014/el-portafolio-del#:~:text=El%20portafolio%20es%20un%20sistema,actividades.
Ferriman, J. (2023, 2 febrero). Interesting flipped classroom statistics. LearnDash. https://www.learndash.com/interesting-flipped-classroom-statistics/
Góngora, S. (2023, febrero 01). Impacto de la tecnología digital en las instituciones financieras en México: 3 ensayos de Gestión Tecnológica. UACH. https://ri-ng.uaq.mx/xmlui/bitstream/handle/123456789/7959/CADCC-233899.pdf?sequence=1&isAllowed=y
Grudin, J. (2018). Innovación e inercia: tecnología de la información y educación en los Estados Unidos. Ieee xplore, 51(10), 5. doi: 10.1109/MC.2018.3971346.
Lewitus, D., Branch, J., Smith, K., Callegari, G., Kohn, J., & Neimark, A. (2011). Biohybrid carbon nanotube/agarose fibers for neural tissue engineering. Advanced Functional Materials, 21, 2624-2632.
Lovato, G. (2023). La tecnología digital como determinante de la Inclusión Financiera en el Ecuador. FLACSO. https://repositorio.flacsoandes.edu.ec/bitstream/10469/19035/2/TFLACSO-2023GFLA.pdf
Muñoz, R. (2021). La Investigación Científica paso a paso. Guayaquil: Interprint. https://isbn.cloud/9789978310199/la-investigacion-cientifica-paso-a-paso/
Organización de las Naciones Unidades para la Educación, la Ciencia y la Cultura [UNESCO]. (2020). El enfoque estratégico sobre tics en educación en américa latina y el caribe. Chile: UNESCO.
Pacheco, O. (2019). Fundamentos de la Educación Educativa (Vol. 2). Guayaquil, Ecuador: Luz.
Pérez, Á. (2018). Educarse en la era digital. Madrid - España: Ediciones Morata S.L.
Pineda, I. (2020, mayo 01). Clase Invertida: Ventajas y desventajas. https://medium.com/@ilvinpatricia/clase-invertida-flipped-classroom-ventajas-y-desventajas-566e7bfbb1d6
Pujolà, J.-T. (2019). El portafolio digital en la docencia universitaria. Octaedro. ISBN: 978-84-17667-92-4
Ruíz, E., Galindo, L., Livier, N., & Galindo, R. (2018). El aprendizaje colaborativo en ambientes virtuales. México: Editorial Centro de estudios e investigaciones. ISBN: 978-607-8435-10-4
Song, J., King, S., Yoon, S., Cho, D., & Jeong, Y. (2014). Enhanced spinnability of narbon nanotube fibers by surfactant addition. Fiberes and Polymers, 15(4), 762-766.
Tartaj, P., Morales, M., González-Carreño, T., Veintemillas-Verdaguer, S., & Serna, C. (2005). Advances in magnetic nanoparticles for biotechnology applications. Journal of Magnetism and Magnetic Materials, 290, 28-34.
Gebera, O. T. (2013). Perspectiva de la convergencia pedagógica y tecnológica en la modalidad blended learning. https://revistas.um.es/red/article/view/234261
Villagas, A. (2020, abril 29). Flipped Classroom o aula invertida: http://www.e-historia.cl/e-historia/flipped-classroom-o-clase-invertida/
Zamora Mora, V., Soares, P., Echeverria, C., Hernández, R., & Mijangos, C. (2015). Composite chitosan/Agarose ferrogels for potential applications in magnetic hyperethermia. Gels., 1, 69-80.