Calculus is the study of change, but differential equations students need help quantifying it

IF 0.7 Q3 EDUCATION & EDUCATIONAL RESEARCH

International Journal of Mathematical Education in Science and Technology Pub Date : 2023-10-26 DOI:10.1080/0020739x.2023.2255205

Jennifer A. Czocher, Elizabeth Roan, Abigail Quansah, Andrew Baas

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引用次数: 0

Abstract

AbstractStudents exit calculus with understandings of change that want for conceptual depth and are disconnected from real-world contexts. In this paper, we present a problem that will develop their skills in using change concepts for learning differential equations through modelling. The problem comes from a qualitative study of how STEM majors approach and think about differential equations as models for real-world scenarios. Our purpose is to inform faculty who are using open, authentic, scenario-driven instructional materials about the ways their students think about what are often taken-for-granted concepts in advanced mathematics and to support faculty in ensuring their students get the most from their innovative instructional materials.KEYWORDS: Modellingdifferential equationsundergraduate educationconceptions of change Disclosure statementNo potential conflict of interest was reported by the authors.Notes1 In this paper, we share the task, its rationale, some supports and some samples of student work. It is not intended to be a research report, but we do provide some additional details on the qualitative methods used to generate the results in a supplement.2 The full Cancerous Mass and Weight Loss Problems, along with suggested prompts, are included in supplemental material, to help students reflect on their understanding of the developing model, are in a supplement.Additional informationFundingThis work was supported by the National Science Foundation under [grant number 1750813].

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微积分是研究变化的学科，但学习微分方程的学生需要帮助来量化变化

摘要学生退出微积分时，对变化的理解缺乏概念深度，与现实世界的背景脱节。在本文中，我们提出了一个问题，将发展他们的技能，使用变化的概念，通过建模学习微分方程。这个问题来自于一项关于STEM专业学生如何处理和思考微分方程作为现实世界场景模型的定性研究。我们的目的是让那些使用开放、真实、场景驱动的教学材料的教师了解他们的学生如何思考高等数学中通常被视为理所当然的概念，并支持教师确保他们的学生从他们的创新教学材料中获得最大收益。关键词:建模;微分方程;本科教育;在本文中，我们分享了这个任务，它的基本原理，一些支持和一些学生作业的样本。这不是一份研究报告，但我们确实在附录中提供了一些用于产生结果的定性方法的额外细节完整的癌性肿块和体重减轻问题，连同建议的提示，都包含在补充材料中，以帮助学生反思他们对发展模型的理解。本研究由美国国家科学基金会资助，基金号为1750813。

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来源期刊

International Journal of Mathematical Education in Science and Technology EDUCATION & EDUCATIONAL RESEARCH-

CiteScore

3.30

自引率

11.10%

发文量

123

期刊介绍： Mathematics is pervading every study and technique in our modern world, bringing ever more sharply into focus the responsibilities laid upon those whose task it is to teach it. Most prominent among these is the difficulty of presenting an interdisciplinary approach so that one professional group may benefit from the experience of others. The International Journal of Mathematical Education in Science and Technology provides a medium by which a wide range of experience in mathematical education can be presented, assimilated and eventually adapted to everyday needs in schools, colleges, polytechnics, universities, industry and commerce. Contributions will be welcomed from lecturers, teachers and users of mathematics at all levels on the contents of syllabuses and methods of presentation.