2022
DOI: 10.46827/ejes.v9i10.4493
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Observing or Performing Actions? Understanding Circular Motion via Two Types of Learning Activities

Abstract: Decades of research support the benefits of movement for cognitive development however this link remains unexploited in educational practice. For this reason, embodied cognition serves as the theoretical underpinnings of this study proposing that thoughts and actions are influenced by sensory experience. Fifty-eight 6th-grade students were divided into two groups: The first group participated in activities designed for full-body movement and the second observed the haptic manipulation of materials by an educat… Show more

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Cited by 2 publications
(2 citation statements)
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“…After conducting a review of relevant literature, it was discovered that numerous studies have explored and documented the knowledge, perceptions, and alternative ideas of both students and teachers concerning various Physics concepts such as force and motion (Christonasis & Kotsis, 2022;Liu & Fang, 2016;Lopez, 2003;Rowlands et al, 2005;Stylos et al, 2008;Temiz & Yavuz, 2014), gravity (Gonen, 2008;Kikas, 2004;Sneider & Ohadi, 1998), energy (Lee, 2016;Kotsis & Panagou, 2023;Stylos & Kotsis, 2021;Stylos et al, 2017;Yeh et al, 2017), electricity (Metioui, 2022;Moodley & Gaigher, 2019;Widodo et al, 2018), and environment (Gontas et al, 2020(Gontas et al, , 2021Goulgouti et al, 2019;Gavrilakis et al, 2017;Papanikolaou et al, 2020Papanikolaou et al, , 2021. In contrast to engineering, which deals with tangible and concrete objects (Yalvac et al, 2007), electromagnetic fields, waves, and radiation are abstract and intangible concepts (Griffiths, 2017) that are challenging to comprehend through direct observation or sensory experiences (Papoulis, 1977).…”
Section: Didactics Of Physicsmentioning
confidence: 99%
“…After conducting a review of relevant literature, it was discovered that numerous studies have explored and documented the knowledge, perceptions, and alternative ideas of both students and teachers concerning various Physics concepts such as force and motion (Christonasis & Kotsis, 2022;Liu & Fang, 2016;Lopez, 2003;Rowlands et al, 2005;Stylos et al, 2008;Temiz & Yavuz, 2014), gravity (Gonen, 2008;Kikas, 2004;Sneider & Ohadi, 1998), energy (Lee, 2016;Kotsis & Panagou, 2023;Stylos & Kotsis, 2021;Stylos et al, 2017;Yeh et al, 2017), electricity (Metioui, 2022;Moodley & Gaigher, 2019;Widodo et al, 2018), and environment (Gontas et al, 2020(Gontas et al, , 2021Goulgouti et al, 2019;Gavrilakis et al, 2017;Papanikolaou et al, 2020Papanikolaou et al, , 2021. In contrast to engineering, which deals with tangible and concrete objects (Yalvac et al, 2007), electromagnetic fields, waves, and radiation are abstract and intangible concepts (Griffiths, 2017) that are challenging to comprehend through direct observation or sensory experiences (Papoulis, 1977).…”
Section: Didactics Of Physicsmentioning
confidence: 99%
“…This is because the experimentation mode yields better results on learning outcomes and attitudes toward physics compared to verification-type activity (Saputra et al, 2020). Appropriate instructional approaches involving students' engagement in firsthand experiences and not just passively observing (Christonasis & Kotsis, 2022), evidence collection, and multiple representations all help students to construct scientific understanding (Adadan & Yavuzkaya, 2018;Stevens et al, 2010).…”
Section: Discussionmentioning
confidence: 99%