Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations

Tessa Hoogma; Marco Kragten; Bert Bredeweg

Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations

Science and Mathematics Education

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

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Abstract

Understanding the behaviour of parallel circuits is challenging for many students. In this paper, we present a lesson designed to support students in learning about parallel circuits by constructing a qualitative representation. Qualitative representations are non-numerical models that focus on causal relationships and system states, aligning closely with human reasoning. The lesson consists of three units that help students understand both the specific system behaviour of parallel circuits and develop general qualitative reasoning skills. Students are guided through the modeling process using a structured workbook containing explanations and reflection prompts, and by built-in support functions within the modelling software. Results show that students make frequent use of these support functions and that most students are able to successfully construct a correct qualitative representation by the end of the lesson. This approach illustrates how learning through model construction can deepen conceptual understanding of system behaviour.

Original language	English
Title of host publication	22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings
Subtitle of host publication	Porto, Portugal November 1-3, 2025
Editors	Demetrios G. Sampson, Dirk Ifenthaler, Pedro Isaías
Publisher	IADIS Press
Pages	392-396
Number of pages	5
ISBN (Print)	9789898704726
Publication status	Published - 2025
Event	22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) - Porto, Portugal Duration: 1 Nov 2025 → 3 Nov 2025

Conference

Conference	22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025)
Country/Territory	Portugal
City	Porto
Period	1/11/25 → 3/11/25

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Hoogma, T., Kragten, M., & Bredeweg, B. (2025). Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations. In D. G. Sampson, D. Ifenthaler, & P. Isaías (Eds.), 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings: Porto, Portugal November 1-3, 2025 (pp. 392-396). IADIS Press. https://www.iadisportal.org/digital-library/fostering-conceptual-understanding-of-parallel-circuits-behaviour-by-constructing-qualitative-representations

Hoogma, Tessa ; Kragten, Marco ; Bredeweg, Bert. / Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations. 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings: Porto, Portugal November 1-3, 2025. editor / Demetrios G. Sampson ; Dirk Ifenthaler ; Pedro Isaías. IADIS Press, 2025. pp. 392-396

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abstract = "Understanding the behaviour of parallel circuits is challenging for many students. In this paper, we present a lesson designed to support students in learning about parallel circuits by constructing a qualitative representation. Qualitative representations are non-numerical models that focus on causal relationships and system states, aligning closely with human reasoning. The lesson consists of three units that help students understand both the specific system behaviour of parallel circuits and develop general qualitative reasoning skills. Students are guided through the modeling process using a structured workbook containing explanations and reflection prompts, and by built-in support functions within the modelling software. Results show that students make frequent use of these support functions and that most students are able to successfully construct a correct qualitative representation by the end of the lesson. This approach illustrates how learning through model construction can deepen conceptual understanding of system behaviour.",

keywords = "Qualitatitve Representations, Parallel Circuits, Support Functions",

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Hoogma, T , Kragten, M & Bredeweg, B 2025, Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations. in DG Sampson, D Ifenthaler & P Isaías (eds), 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings: Porto, Portugal November 1-3, 2025. IADIS Press, pp. 392-396, 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025), Porto, Portugal, 1/11/25. <https://www.iadisportal.org/digital-library/fostering-conceptual-understanding-of-parallel-circuits-behaviour-by-constructing-qualitative-representations>

Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations. / Hoogma, Tessa ; Kragten, Marco ; Bredeweg, Bert.
22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings: Porto, Portugal November 1-3, 2025. ed. / Demetrios G. Sampson; Dirk Ifenthaler; Pedro Isaías. IADIS Press, 2025. p. 392-396.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

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T1 - Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations

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AU - Kragten, Marco

AU - Bredeweg, Bert

PY - 2025

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N2 - Understanding the behaviour of parallel circuits is challenging for many students. In this paper, we present a lesson designed to support students in learning about parallel circuits by constructing a qualitative representation. Qualitative representations are non-numerical models that focus on causal relationships and system states, aligning closely with human reasoning. The lesson consists of three units that help students understand both the specific system behaviour of parallel circuits and develop general qualitative reasoning skills. Students are guided through the modeling process using a structured workbook containing explanations and reflection prompts, and by built-in support functions within the modelling software. Results show that students make frequent use of these support functions and that most students are able to successfully construct a correct qualitative representation by the end of the lesson. This approach illustrates how learning through model construction can deepen conceptual understanding of system behaviour.

AB - Understanding the behaviour of parallel circuits is challenging for many students. In this paper, we present a lesson designed to support students in learning about parallel circuits by constructing a qualitative representation. Qualitative representations are non-numerical models that focus on causal relationships and system states, aligning closely with human reasoning. The lesson consists of three units that help students understand both the specific system behaviour of parallel circuits and develop general qualitative reasoning skills. Students are guided through the modeling process using a structured workbook containing explanations and reflection prompts, and by built-in support functions within the modelling software. Results show that students make frequent use of these support functions and that most students are able to successfully construct a correct qualitative representation by the end of the lesson. This approach illustrates how learning through model construction can deepen conceptual understanding of system behaviour.

KW - Qualitatitve Representations

KW - Parallel Circuits

KW - Support Functions

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M3 - Chapter

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EP - 396

BT - 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings

A2 - Sampson, Demetrios G.

A2 - Ifenthaler, Dirk

A2 - Isaías, Pedro

PB - IADIS Press

T2 - 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025)

Y2 - 1 November 2025 through 3 November 2025

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Hoogma T , Kragten M , Bredeweg B. Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations. In Sampson DG, Ifenthaler D, Isaías P, editors, 22nd International Conference on Cognition and Exploratory Learning in the Digital Age (CELDA 2025) Proceedings: Porto, Portugal November 1-3, 2025. IADIS Press. 2025. p. 392-396

Fostering Conceptual Understanding of Parallel Circuits Behaviour by Constructing Qualitative Representations

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