Listening to or looking at models: learning about dynamic complex systems in science among learners who are blind and learners who are sighted
Listening to or looking at models: learning about dynamic complex systems in science among learners who are blind and learners who are sighted
Background: students who are blind are integrated into public schools in many countries, yet are often excluded from full participation in science since most learning materials are visual. To create a compensatory route, an existing model-based inquiry-learning environment was adapted by means of sonification (addition of non-speech sounds that represent dynamic information). The learning environment uses agent-based models and a complex systems approach to teach the Kinetic Molecular Theory and Gas Laws. The models are accompanied by a workbook consisting of text (printed or auditory) and images (printed or tactile).
Objectives: the current research examined whether such perceptual compensation creates a comparable learning environment for learners who are blind compared with learners who are sighted using the original learning environment. The aim of the study is to expand knowledge about how the auditory channel may compensate the visual channel among individuals who are blind.
Methods: conceptual learning in science and reasoning about complex systems were assessed using pre- and post-questionnaires. To explore learners' learning progression throughout the unit, four progression analysis “windows” were selected. These were groups of adjacent or nearly adjacent items in the workbook that permitted a glimpse of learners' progression.
Results: the sonified environment not only supported the learning of learners who are blind compared with the learning of learners who are sighted using visual material, but even furthered their learning with respect to diffusion, one of the more challenging concepts in Kinetic Molecular Theory. It seems the types of sonified representations used in this study increased listeners’ sensitivity to the micro-level interactions in a way less accessible in visual representations.
Takeaways: sonified environments can be provide learners who are blind with equitable participation by compensating and complementing the visual channel. Sonification can have implications for students who are blind as well as students who are sighted.
agent-based models, blind, complex systems, science learning, sonification
Peleg, Ran
99135615-235e-4bd3-a58e-12bab19fdd8c
Lahav, Orly
c4b610df-f1b2-4608-a670-15eecba7d4a7
Hagab, Noha
ce986529-323e-473c-a3ab-798ab44e99c9
Talis, Vadim
83d6680d-386e-43fd-8d40-20f7f1cad864
Levy, Sharona T.
8cd9d31e-855d-4f66-998e-8e4d8dfd40c8
Peleg, Ran
99135615-235e-4bd3-a58e-12bab19fdd8c
Lahav, Orly
c4b610df-f1b2-4608-a670-15eecba7d4a7
Hagab, Noha
ce986529-323e-473c-a3ab-798ab44e99c9
Talis, Vadim
83d6680d-386e-43fd-8d40-20f7f1cad864
Levy, Sharona T.
8cd9d31e-855d-4f66-998e-8e4d8dfd40c8
Peleg, Ran, Lahav, Orly, Hagab, Noha, Talis, Vadim and Levy, Sharona T.
(2023)
Listening to or looking at models: learning about dynamic complex systems in science among learners who are blind and learners who are sighted.
Journal of Computer Assisted Learning.
(doi:10.1111/jcal.12886).
Abstract
Background: students who are blind are integrated into public schools in many countries, yet are often excluded from full participation in science since most learning materials are visual. To create a compensatory route, an existing model-based inquiry-learning environment was adapted by means of sonification (addition of non-speech sounds that represent dynamic information). The learning environment uses agent-based models and a complex systems approach to teach the Kinetic Molecular Theory and Gas Laws. The models are accompanied by a workbook consisting of text (printed or auditory) and images (printed or tactile).
Objectives: the current research examined whether such perceptual compensation creates a comparable learning environment for learners who are blind compared with learners who are sighted using the original learning environment. The aim of the study is to expand knowledge about how the auditory channel may compensate the visual channel among individuals who are blind.
Methods: conceptual learning in science and reasoning about complex systems were assessed using pre- and post-questionnaires. To explore learners' learning progression throughout the unit, four progression analysis “windows” were selected. These were groups of adjacent or nearly adjacent items in the workbook that permitted a glimpse of learners' progression.
Results: the sonified environment not only supported the learning of learners who are blind compared with the learning of learners who are sighted using visual material, but even furthered their learning with respect to diffusion, one of the more challenging concepts in Kinetic Molecular Theory. It seems the types of sonified representations used in this study increased listeners’ sensitivity to the micro-level interactions in a way less accessible in visual representations.
Takeaways: sonified environments can be provide learners who are blind with equitable participation by compensating and complementing the visual channel. Sonification can have implications for students who are blind as well as students who are sighted.
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Listening versus Looking - JCAL - authors accepted manuscript
- Accepted Manuscript
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Computer Assisted Learning - 2023 - Peleg - Listening to or looking at models Learning about dynamic complex systems in
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Listening versus Looking - JCAL - figures for supp material - new file
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Translated questionnaire-sighted students
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Translated questionnaire-blind students
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More information
Accepted/In Press date: 24 September 2023
e-pub ahead of print date: 18 October 2023
Additional Information:
Funding Information:
This research was supported by a grant from The Israel Science Foundation (ISF) (Grant No. 536/11). We thank our anonymous participants for their time, efforts and ideas.
Keywords:
agent-based models, blind, complex systems, science learning, sonification
Identifiers
Local EPrints ID: 483404
URI: http://eprints.soton.ac.uk/id/eprint/483404
ISSN: 0266-4909
PURE UUID: c8e8acac-cc3c-496a-8143-ebd67a642842
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Date deposited: 30 Oct 2023 17:37
Last modified: 18 Mar 2024 03:54
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Contributors
Author:
Orly Lahav
Author:
Noha Hagab
Author:
Vadim Talis
Author:
Sharona T. Levy
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