Irma Cruz-Solis, C. L. González-Trevizo, David Gutierrez-Franco, Carmen G. Matamoros-Olvera, Martha Y. Díaz-Gallardo, Alma Cuellar-Sánchez, Silvia E. Estrada-Díaz, Alexander K. Alcántara-Contreras, Julián A. Yunes-Rojas
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引用次数: 0
摘要
分子生物学课程的一个关键问题是在课堂上解释分子机制时保持学生的妥协和动力。在这项工作中,我们开发了一种创新的方式,通过结合3D打印分子参与DNA复制,基于体验式学习来教授这些项目。我们评估了目前在Tecnológico de Monterrey学习项目的大学和高中学生。为了了解学生的学习动机和妥协,他们制作了一段讲解DNA复制的视频,并回答了三项调查。结果表明,当3D模型被纳入课堂活动时,大多数学生都有学习的动力,但在妥协方面,只有一组学生表现出显著的效果。3D打印生物分子的结合可以改善学习教学方法,创建可触摸的生物模型,有助于分析和理解生物工程中的分子相互作用、机制和结构。
Evaluation of motivation, compromise and knowledge, implementing an educational material printed in 3D in bioengineering
A key issue in molecular biology courses is to keep the compromise and motivation in students when molecular mechanisms are explained in class. In this work we developed an innovative way to teach these items based on experiential learning through the incorporation of 3D printed molecules involved in DNA replication. We evaluated students at college and high school level in current study programs at Tecnológico de Monterrey. To know the motivation and compromise of the students with their learning, they realized a video explaining DNA replication and they answered three surveys. The results showed that the most part of the students was motivated to learn when the 3D models are incorporated into their class activities but in compromise just a group showed significant results. The incorporation of 3D printing biomolecules allowed to improve the learning-teaching method to create biological models touchable and useful to analyze and understand molecular interactions, mechanisms, and structures in bioengineering.
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