Open Access. Powered by Scholars. Published by Universities.®
Science and Mathematics Education Commons™
Open Access. Powered by Scholars. Published by Universities.®
- Institution
- Keyword
-
- Aphantasia (1)
- Brain network (1)
- British curriculum forum (1)
- Educational effectiveness and improvement (1)
- FMRI (1)
-
- Force Concept Inventory (1)
- Functional connectivity (1)
- Mathematics (1)
- Mental imagery (1)
- Meta-analysis (1)
- Mobile learning (1)
- Modeling instruction (1)
- Neuroeducation (1)
- Neuroimaging (1)
- Physics education (1)
- Problem solving (1)
- Research methods (1)
- STEM learning (1)
- Science reasoning (1)
- Spatial imagery (1)
- Visualization (1)
- Publication
- Publication Type
Articles 1 - 3 of 3
Full-Text Articles in Science and Mathematics Education
Mobile Learning And Cognition, Helen Crompton, Diane Burke
Mobile Learning And Cognition, Helen Crompton, Diane Burke
Teaching & Learning Faculty Publications
The rise of mobile learning in schools during the past decade has led to promises about its power to extend and enhance student cognitive development – for example, by providing greater pedagogical opportunities for students (Mifsud, 2014). However, others claim that mobile devices are most often used to support traditional pedagogical approaches whereby students only passively consume content (Cochrane & Antonczak, 2014; Frohberg, Goth & Schwabe, 2009; Rushby, 2012). As schools invest resources in providing students with opportunities to use mobile devices as tools for learning, it is important to critically examine their use in practice.
Exploring The Neural Mechanisms Of Physics Learning, Jessica E. Bartley
Exploring The Neural Mechanisms Of Physics Learning, Jessica E. Bartley
FIU Electronic Theses and Dissertations
This dissertation presents a series of neuroimaging investigations and achievements that strive to deepen and broaden our understanding of human problem solving and physics learning. Neuroscience conceives of dynamic relationships between behavior, experience, and brain structure and function, but how neural changes enable human learning across classroom instruction remains an open question. At the same time, physics is a challenging area of study in which introductory students regularly struggle to achieve success across university instruction. Research and initiatives in neuroeducation promise a new understanding into the interactions between biology and education, including the neural mechanisms of learning and development. These …
Differences In Spatial Visualization Ability And Vividness Of Spatial Imagery Between People With And Without Aphantasia, Anita Crowder
Differences In Spatial Visualization Ability And Vividness Of Spatial Imagery Between People With And Without Aphantasia, Anita Crowder
Theses and Dissertations
Mathematics education researchers have examined the relationship between visualization and mathematics for decades (e.g., Arcavi, 2003; Bishop, 1991; Duval, 1999; Fennema & Tartre, 1985; Presmeg, 1986). Studies have linked spatial visualization ability, such as measured in mental rotation tasks, directly to mathematics self-efficacy (Pajares & Kranzler, 1995; Weckbacher & Okamoto, 2014), which in turn influences mathematics achievement (Casey, Nuttall, & Pezaris, 1997). With the important role that spatial visualization plays in learning mathematics, the recent identification of congenital aphantasia (Zeman, Dewar, & Della Sala, 2015), which is the lack of mental imagery ability, has raised new questions for mathematics education …