Learning differences and eye fixation patterns in virtual and physical science laboratories

This project analyzed high school students' performance and eye movement while learning in a simulation-based laboratory (SBL) and a microcomputer-based laboratory (MBL). Although the SBL and the MBL both used computers to collect, graph, and analyze data, the MBL involved manual manipulation o...

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Published inComputers and education Vol. 82; pp. 191 - 201
Main Authors Chien, Kuei-Pin, Tsai, Cheng-Yue, Chen, Hsiu-Ling, Chang, Wen-Hua, Chen, Sufen
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2015
Subjects
Applications in subject areas
Computer simulation
Correlation
Eye movements
Fixation
Learning
Manuals
Mathematical models
Monitors
Secondary education
Simulations
Students
Applications in subject areas
Simulations
Secondary education
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Abstract This project analyzed high school students' performance and eye movement while learning in a simulation-based laboratory (SBL) and a microcomputer-based laboratory (MBL). Although the SBL and the MBL both used computers to collect, graph, and analyze data, the MBL involved manual manipulation of concrete materials, whereas the SBL displayed everything on a monitor. Fifty senior high school students at three urban public high schools in Taipei were randomly assigned to the MBL and SBL settings. The participants conducted the Boyle's Law experiment with an accompanying worksheet and completed pre- and post-conceptual tests. FaceLAB and ASL MobileEye were used to record each participant's eye movements in the SBL and MBL settings, respectively. The results showed that lower achievers improved significantly from the pre-to post-conceptual tests. The SBL group tended to carry out more experiments. Moreover, the MBL group's performance on the worksheet was moderately correlated with their post-test. However, this correlation was not found for the SBL group. Furthermore, at the beginning of the laboratories, the SBL group had a higher percentage of fixations with longer fixation duration, which implies more attention to and deeper cognitive processing of the equipment and running experiments, while the MBL group focused on the worksheet. This study concludes that, for e-learning like SBLs, students tend to start off doing an experiment, and then think about the questions on the worksheets, whereas for physical laboratories like MBLs, they tend to think before doing. •We compared students' learning and eye moving in virtual and physical labs.•They pay attention to and have cognitive processing of different zones.•In simulation-based labs, students tend to act before thinking.•In physical labs, students tend to think before doing.•Worksheet affects learning outcomes in physical labs, but not in virtual labs.
AbstractList This project analyzed high school students' performance and eye movement while learning in a simulation-based laboratory (SBL) and a microcomputer-based laboratory (MBL). Although the SBL and the MBL both used computers to collect, graph, and analyze data, the MBL involved manual manipulation of concrete materials, whereas the SBL displayed everything on a monitor. Fifty senior high school students at three urban public high schools in Taipei were randomly assigned to the MBL and SBL settings. The participants conducted the Boyle's Law experiment with an accompanying worksheet and completed pre- and post-conceptual tests. FaceLAB and ASL MobileEye were used to record each participant's eye movements in the SBL and MBL settings, respectively. The results showed that lower achievers improved significantly from the pre-to post-conceptual tests. The SBL group tended to carry out more experiments. Moreover, the MBL group's performance on the worksheet was moderately correlated with their post-test. However, this correlation was not found for the SBL group. Furthermore, at the beginning of the laboratories, the SBL group had a higher percentage of fixations with longer fixation duration, which implies more attention to and deeper cognitive processing of the equipment and running experiments, while the MBL group focused on the worksheet. This study concludes that, for e-learning like SBLs, students tend to start off doing an experiment, and then think about the questions on the worksheets, whereas for physical laboratories like MBLs, they tend to think before doing.
This project analyzed high school students' performance and eye movement while learning in a simulation-based laboratory (SBL) and a microcomputer-based laboratory (MBL). Although the SBL and the MBL both used computers to collect, graph, and analyze data, the MBL involved manual manipulation of concrete materials, whereas the SBL displayed everything on a monitor. Fifty senior high school students at three urban public high schools in Taipei were randomly assigned to the MBL and SBL settings. The participants conducted the Boyle's Law experiment with an accompanying worksheet and completed pre- and post-conceptual tests. FaceLAB and ASL MobileEye were used to record each participant's eye movements in the SBL and MBL settings, respectively. The results showed that lower achievers improved significantly from the pre-to post-conceptual tests. The SBL group tended to carry out more experiments. Moreover, the MBL group's performance on the worksheet was moderately correlated with their post-test. However, this correlation was not found for the SBL group. Furthermore, at the beginning of the laboratories, the SBL group had a higher percentage of fixations with longer fixation duration, which implies more attention to and deeper cognitive processing of the equipment and running experiments, while the MBL group focused on the worksheet. This study concludes that, for e-learning like SBLs, students tend to start off doing an experiment, and then think about the questions on the worksheets, whereas for physical laboratories like MBLs, they tend to think before doing. •We compared students' learning and eye moving in virtual and physical labs.•They pay attention to and have cognitive processing of different zones.•In simulation-based labs, students tend to act before thinking.•In physical labs, students tend to think before doing.•Worksheet affects learning outcomes in physical labs, but not in virtual labs.
Author Chien, Kuei-Pin
Tsai, Cheng-Yue
Chen, Sufen
Chang, Wen-Hua
Chen, Hsiu-Ling
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  issue: 1–2
  year: 2011
  ident: 10.1016/j.compedu.2014.11.023_bib8
  article-title: Self-directed learning and the sensemaking paradox
  publication-title: Human-Computer Interaction
  doi: 10.1080/07370024.2011.556552
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Snippet This project analyzed high school students' performance and eye movement while learning in a simulation-based laboratory (SBL) and a microcomputer-based...
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SubjectTerms Applications in subject areas
Computer simulation
Correlation
Eye movements
Fixation
Learning
Manuals
Mathematical models
Monitors
Secondary education
Simulations
Students
Title Learning differences and eye fixation patterns in virtual and physical science laboratories
URI https://dx.doi.org/10.1016/j.compedu.2014.11.023
https://www.proquest.com/docview/1677984827
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