Improving mobile learning in secondary mathematics and science: Listening to students

Background Mobile learning studies often focus on teachers' perspectives. This study instead considers students' experiences of learning with mobile devices (i.e., m‐learning) in secondary school mathematics and science. Objectives The research aims to describe the m‐learning experiences o...

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Bibliographic Details
Published in:Journal of computer assisted learning Vol. 38; no. 1; pp. 137 - 151
Main Authors: Burke, Paul F., Kearney, Matthew, Schuck, Sandy, Aubusson, Peter
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Inc 01.02.2022
Wiley
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Subjects:
Authentic Learning
Authenticity
Cognitive tasks
Collaboration
Context
Cooperative Learning
cooperative/collaborative learning
Customization
Educational Technology
Electronic devices
Handheld Devices
improving classroom teaching
Individualized Instruction
iPAC
Learning
Learning Activities
Lenses
Mathematical analysis
Mathematics
Mathematics Instruction
mobile learning
Multivariate statistical analysis
Online instruction
pedagogical issues
Pedagogy
Science
Science Instruction
Science Teachers
secondary education
Secondary School Mathematics
Secondary School Science
Secondary School Students
Student Attitudes
Students
Teachers
Teaching Methods
Technology Uses in Education
Telecommunications
ISSN:0266-4909, 1365-2729
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Summary:Background Mobile learning studies often focus on teachers' perspectives. This study instead considers students' experiences of learning with mobile devices (i.e., m‐learning) in secondary school mathematics and science. Objectives The research aims to describe the m‐learning experiences of secondary mathematics and science students, and to determine the extent to which distinctive pedagogical dimensions impact students' perceived learning. Methods A survey instrument using the iPAC mobile pedagogical framework as a theoretical lens is developed and validated. This framework highlights three pedagogical dimensions: personalization, authenticity, and collaboration. Structural equation modelling is used to investigate how each dimension predicts students' perceived improvement in learning, whilst accounting for usage context, among a sample of students in schools where mobile devices are used extensively. Results and Conclusions Students were in agreement that personalization was a characteristic of their m‐learning experiences, but authentic and collaborative learning were not as strongly featured. M‐learning activities fostering personalization were most important for improving perceived learning; authenticity and collaboration were also significant, but no differences in perceived learning improvement due to location were found. Authentic m‐learning and perceived improvement in learning with mobile devices were significantly higher in science than mathematics subjects. Implications When teachers design m‐learning tasks that enhance personalization, collaboration, and authenticity, students are predicted to perceive improvements in their learning. The findings suggest that teachers should consider designing technology‐enhanced tasks that improve students' experiences of collaborative and authentic learning, particularly in mathematics for greatest gains in students' perceived improvement in learning. Lay Description What is already known about this topic: Mobile learning studies often focus on teachers' perspectives and practices or expert commentaries. Issues of usability, access, engagement, motivation, and potential risk are often highlighted rather than pedagogical factors. Mobile technologies provide students with opportunities for more personalized and autonomous seamless experiences across learning contexts. Science teachers frequently use authentic and project‐based m‐learning opportunities, whilst mathematics teachers prefer didactic, drill and practice approaches. What this paper adds: This study focuses on students' m‐learning in secondary mathematics and science. A multi‐item scale considering aspects of authenticity, personalization, collaboration and context is developed and validated. Personalization in m‐learning activities are most important for perceived learning, followed by authenticity and collaboration. Science students report greater authenticity and perceived learning in m‐learning than mathematics students. Implications for practice and/or policy: Highlighting the student perspective is a valued lens to evaluate m‐learning pedagogy and outcomes in student learning. Efforts should be made to develop mobile pedagogies, particularly with respect to authenticity and collaboration. Teachers in mathematics would benefit most from examining practices that improve authenticity.
Bibliography:Funding information
Australian Research Council Discovery Project ‘Optimising Teaching and Learning with Mobile Intensive Pedagogies’, Grant/Award Number: ARC‐DP 150101214
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0266-4909
1365-2729
DOI:10.1111/jcal.12596