Developing undergraduate engineering mathematics students’ conceptual and procedural knowledge of complex numbers using GeoGebra

IF 0.3 Q4 EDUCATION, SCIENTIFIC DISCIPLINES Pythagoras Pub Date : 2023-12-21 DOI:10.4102/pythagoras.v44i1.763
Philemon M. Seloane, Sam Ramaila, Mdutshekelwa Ndlovu
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Abstract

This study explored the utilisation of GeoGebra as a modelling tool to develop undergraduate engineering mathematics students’ conceptual and procedural knowledge of complex numbers. This mission was accomplished by implementing GeoGebra-enriched activities, which provided carefully designed representational support to mediate between students’ initially developed conceptual and procedural knowledge gains. The rectangular and polar forms of the complex number were connected and merged using GeoGebra’s computer algebra systems and dynamic geometric systems platforms. Despite the centrality of complex numbers to the undergraduate mathematics curriculum, students tend to experience conceptual and procedural obstacles in mathematics-dependent physics engineering topics such as mechanical vector analysis and electric-circuit theory. The study adopted an exploratory sequential mixed methods design and involved purposively selected first-year engineering mathematics students at a South African university. The constructivist approach and Realistic Mathematical Education underpinned the empirical investigation. Data were collected from students’ scripts. Implementing GeoGebra-enriched activities and providing carefully designed representational support sought to enhance students’ conceptual and procedural knowledge of complex numbers and problem representational competence. The intervention additionally helped students to conceptualise and visualise a complex rectangular number. Implications for technology-enhanced pedagogy are discussed.Contribution: The article provides exploratory insights into the development of undergraduate engineering mathematics students’ conceptual and procedural knowledge of complex numbers using GeoGebra as a dynamic digital tool. Key findings from the study demonstrated that GeoGebra appears to be an effective modelling tool that can be harnessed to demystify the complexity of mathematics students’ conceptual and procedural knowledge of complex numbers.
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使用 GeoGebra 开发本科工程数学学生的复数概念和程序知识
本研究探讨了如何利用 GeoGebra 作为建模工具,来发展本科工程数学专业学生对复数的概念性和程序性知识。这项任务是通过实施 GeoGebra 丰富的活动来完成的,这些活动提供了精心设计的表征支持,在学生初步形成的概念性知识和程序性知识之间起到了中介作用。利用 GeoGebra 的计算机代数系统和动态几何系统平台,复数的矩形和极性形式被连接和合并。尽管复数在本科数学课程中占据核心地位,但在机械矢量分析和电路理论等依赖数学的物理工程课题中,学生往往会遇到概念和程序方面的障碍。本研究采用了探索性顺序混合方法设计,有目的地选取了南非一所大学工程数学专业的一年级学生作为研究对象。建构主义方法和现实数学教育是实证调查的基础。数据从学生的答卷中收集。实施 GeoGebra 丰富的活动并提供精心设计的表征支持,旨在提高学生对复数的概念性和程序性知识以及问题表征能力。此外,干预措施还有助于学生将复杂的矩形数概念化和可视化。文章讨论了技术强化教学法的意义:文章利用 GeoGebra 这一动态数字工具,对本科工程数学专业学生复数概念性和程序性知识的发展进行了探索性研究。研究的主要结果表明,GeoGebra 似乎是一种有效的建模工具,可用于消除数学专业学生对复数概念和程序知识的复杂性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pythagoras
Pythagoras EDUCATION, SCIENTIFIC DISCIPLINES-
CiteScore
1.50
自引率
16.70%
发文量
12
审稿时长
20 weeks
期刊介绍: Pythagoras is a scholarly research journal that provides a forum for the presentation and critical discussion of current research and developments in mathematics education at both national and international level. Pythagoras publishes articles that significantly contribute to our understanding of mathematics teaching, learning and curriculum studies, including reports of research (experiments, case studies, surveys, philosophical and historical studies, etc.), critical analyses of school mathematics curricular and teacher development initiatives, literature reviews, theoretical analyses, exposition of mathematical thinking (mathematical practices) and commentaries on issues relating to the teaching and learning of mathematics at all levels of education.
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