The Effect of Visual Representation in Developing Conceptual Understanding of Magnetic Force

IF 1 Q3 EDUCATION & EDUCATIONAL RESEARCH
S. Shubha, B. N. Meera
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引用次数: 2

Abstract

Science learning in general and physics learning in particular are far perceived to be complex. Various physics education researchers have substantiated that traditional teaching methods accomplish simple transmission of the physics concepts. Hence, for real learning, this necessitates interactive-engagement instruction strategies. The study initiated to understand the augmented learning difficulties experienced by students with the concept of magnetic force on a charged particle in a uniform magnetic field. As a first step in understanding, we administered pre-investigation studies for first-year Master Physics Course students by using multiple choice questions to identify learning difficulties. Responses of pretest indicate vectorial nature of physical quantity and use of right-hand rule are the conceptual difficulties which impede learning. So, to reduce the learning difficulties and to develop the conceptual framework of magnetic force, we adopted interactive simulation as a learning tool and conducted detailed student interviews. Responses of pretest questions enabled us to tailor and design the activities for effective learning in a simulation-based environment. The analysis of student interviews probes the details of how a learner processes information about the concept and noticed an improvement in developing a good reasoning skill and a coherent conceptual framework of magnetic force. In the final stage, validation test results do indicate weak intermediate stages in learning even in post-simulation experience which present need for explicit instructional implication.
视觉表征在发展磁力概念理解中的作用
一般的科学学习,特别是物理学习,都被认为是复杂的。各种物理教育研究者已经证实,传统的教学方法完成了物理概念的简单传递。因此,对于真正的学习,这就需要交互式参与教学策略。本研究旨在了解学生在均匀磁场中对带电粒子的磁力概念时所经历的增强学习困难。作为理解的第一步,我们对硕士物理课程一年级的学生进行了调查前研究,使用多项选择题来确定学习困难。前测的反应表明物理量的向量性和右手定则的使用是阻碍学习的概念困难。因此,为了减少学习困难和发展磁力的概念框架,我们采用交互式模拟作为学习工具,并对学生进行了详细的访谈。预试问题的回答使我们能够在基于模拟的环境中定制和设计有效学习的活动。对学生访谈的分析探究了学习者如何处理有关概念的信息的细节,并注意到在发展良好的推理技能和连贯的磁力概念框架方面的改进。在最后阶段,验证测试结果确实表明在学习的中间阶段弱,甚至在模拟后的经验,需要明确的教学暗示。
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