An integrated e-learning approach for teaching statics to undergraduate engineering students

Shameel Abdulla, Muhammad Nafees, Sami El-Borgi, Arun Srinivasa
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Abstract

Free body diagrams are a pictorial representation of a body with forces acting on it. Developing the skill to draw and interpret free body diagrams is imperative in an engineering curriculum as it helps students visualize and comprehend the problem. Engineering students tend to have difficulty using free body diagrams due to a lack of spatial understanding, especially when dealing with three-dimensional static problems. Students are often required to draw free body diagram on paper as part of their problem solutions. While this approach is adequate, it still does not allow students to interact with and develop a deeper understanding of free body diagrams. Educational tools developed to build on the understanding of free body diagrams are either limited to a two-dimensional space or does not provide students a comprehensive platform to completely solve a static problem. In this paper, the authors propose a digital platform that allows students to solve both two and three-dimensional free body diagrams for unknown forces. The platform incorporates Merrill’s Principles of Learning and a clear workflow diagram to assist students in better understanding free body diagrams. The proposed solution also presents an improved feedback system to improve the learning experience of students. Furthermore, the proposed solution addresses the needs of instructors by providing them the means to analyze their students’ performance at different stages of the problems.
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工程本科学生静力学教学的综合电子学习方法
自由物体图是物体受力作用的图形表示。开发绘制和解释自由体图的技能在工程课程中是必不可少的,因为它可以帮助学生可视化和理解问题。由于缺乏对空间的理解,工科学生在使用自由体图时往往会遇到困难,尤其是在处理三维静态问题时。学生经常被要求在纸上自由绘制身体图,作为解决问题的一部分。虽然这种方法是足够的,但它仍然不允许学生与自由身体图进行交互并发展更深层次的理解。基于对自由体图的理解而开发的教育工具要么局限于二维空间,要么不能为学生提供一个全面的平台来完全解决静态问题。在本文中,作者提出了一个数字平台,允许学生解决未知力的二维和三维自由体图。该平台结合了美林的学习原理和一个清晰的工作流程图,以帮助学生更好地理解免费的身体图。提出的解决方案还提出了一个改进的反馈系统,以改善学生的学习体验。此外,提出的解决方案通过为教师提供分析学生在问题的不同阶段的表现的方法来满足教师的需求。
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Implementation and benefits of hybrid methodology: Flipped classroom and project-based learning in mechanical engineering courses An integrated e-learning approach for teaching statics to undergraduate engineering students Active learning modules for a numerical methods course Enhancing user experience and usability in engineering education: A comparative analysis of multiple functions and tangible user interfaces Impact of 3D-printed laboratory equipment in vibrations and controls courses on student engineering identity, motivation, and mindset
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