2018
DOI: 10.1088/1361-6552/aaed62
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Teaching physics by magic

Abstract: In this paper we describe the results of some experiments about using surprising physics demonstrations, presented as magical phenomena followed by scientific explanations, for introducing physics topics in several teaching contexts. All the demonstrations have been designed to be implemented with easy to get and cheap materials, so that students can reproduce them at home. This approach has been exploited in Italian high schools, Italian elderly people education and French primary schools, with good results.

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Cited by 6 publications
(4 citation statements)
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“…Similarly, Bagnoli, Guarino & Pacini (2019) delivered 'science magic' lectures to 15 to 20 year old students, with subsequent surveys and interviews suggesting that the lectures were positively received, had acted as a catalyst for additional study, and that some students had re-staged the demonstrations in their own time. Researchers involved in the 'cs4fn' initiative staged live 'computing magic' shows for teenage students, with feedback indicating that the students had found the shows enjoyable and had an increased understanding of key concepts (Curzon & McOwan, 2008;Curzon, McOwan & Black, 2009).…”
Section: Promoting Science and Mathematicsmentioning
confidence: 99%
“…Similarly, Bagnoli, Guarino & Pacini (2019) delivered 'science magic' lectures to 15 to 20 year old students, with subsequent surveys and interviews suggesting that the lectures were positively received, had acted as a catalyst for additional study, and that some students had re-staged the demonstrations in their own time. Researchers involved in the 'cs4fn' initiative staged live 'computing magic' shows for teenage students, with feedback indicating that the students had found the shows enjoyable and had an increased understanding of key concepts (Curzon & McOwan, 2008;Curzon, McOwan & Black, 2009).…”
Section: Promoting Science and Mathematicsmentioning
confidence: 99%
“…Based on the evidence mentioned in previous research (Bagnoli et al, 2018;Camarao & Nava, 2017;Erinosho, 2013;Martin et al, 2015;OECD, 2015;Ornek et al, 2008;Sarı & Madlazim, 2015;Sari et al, 2019), it seems that there is a need to improve student learning of physics by overcoming the difficulties students face in learning physics. The Ministry of Education (MOE) of the United Arab Emirates (UAE) recommended that physics teachers improve their educational methods to make physics more attractive and less abstract.…”
Section: Introductionmentioning
confidence: 96%
“…In these examples, programs that convert the videotaped movements into graphics were used. As for the studies focusing on stationary bodies, examples were as follows: a two-dimensional triangular shape was hung from different corners, and drawings were made with the help of a plumb line [6], a two-dimensional rectangular shape was pushed out from the edge of a table by its short and long sides respectively, and drawings were made of its position at the moment of falling, two-dimensional triangular and rectangular geometric bodies were hung on a stick and drawings were made [7], and an attempt was made to determine the support point where the body remained in balance [3,8]. However, these sample applications for both moving and stationary bodies were structured for cases where the CM is inside the body.…”
Section: Introductionmentioning
confidence: 99%