Framing a holistic model of reasoning in the design process in technology education

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ellinor Hultmark, Susanne Engström, Annica Gullberg
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Abstract

Understanding the reasoning in the design process is essential to comprehend design practice and promote students’ learning. Followingly, to effectively support students through the design process, it is crucial to pay attention to their reasoning. Therefore, in this study, we have built a model for students’ reasoning in the design process in technology education to be used as a utility in further research. Here, reasoning is viewed as the process of using premises to reach a conclusion. Drawing from philosophy of technology and philosophy of technology education, the model introduces relevant concepts that are particularly useful in technology education. The model incorporates two types of reasoning: means-end reasoning and cause-effect reasoning. Means-end reasoning involves identifying actions to achieve a desired end. While cause-effect reasoning leads to conclusions in the form of beliefs about causes, effects, consequences, and side-effects, which is important when predicting and evaluating in the design process. The model highlights the interplay between these two types of reasoning, where students would constantly move between them in the design process. The model involves a holistic view of the reasoning and the design process, rather than taking a purely instrumental approach. That the model fuse two types of reasoning, makes it applicable at any point in the design process and across different contexts in technology education. Overall, the model provides a comprehensive view of reasoning in the design process in technology education.

Abstract Image

构建技术教育设计过程中的整体推理模式
了解设计过程中的推理对于理解设计实践和促进学生的学习至关重要。因此,要有效地帮助学生完成设计过程,关注他们的推理至关重要。因此,在本研究中,我们建立了一个技术教育中学生设计过程中的推理模型,供进一步研究使用。在这里,推理被视为利用前提得出结论的过程。该模型借鉴了技术哲学和技术教育哲学,引入了对技术教育特别有用的相关概念。该模型包含两类推理:目的推理和因果推理。手段-目的推理涉及确定实现预期目的的行动。而因果推理则以对原因、效果、后果和副作用的信念的形式得出结论,这在设计过程中进行预测和评估时非常重要。该模型强调了这两种推理之间的相互作用,学生在设计过程中会不断地在这两种推理之间转换。该模型涉及推理和设计过程的整体观,而不是纯粹的工具性方法。该模型融合了两种类型的推理,因此适用于设计过程中的任何阶段和技术教育的不同环境。总之,该模型为技术教育设计过程中的推理提供了一个全面的视角。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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