ReleQuant – Improving teaching and learning in quantum physics through educational design research
Quantum physics and relativity are demanding for teachers and students, but have the potential for students to experience physics as fascinating and meaningful. Project ReleQuant engaged in educational design research to improve teaching and learning in these topics in Norwegian upper secondary sch...
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| Format: | Article |
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University of Oslo
2015-05-01
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| Series: | Nordina: Nordic Studies in Science Education |
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| Online Access: | https://journals.uio.no/nordina/article/view/2043 |
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doaj-7f5d2b9380bc44d2944ba4e2151e8b4e2020-11-25T03:40:16ZdanUniversity of OsloNordina: Nordic Studies in Science Education1504-45561894-12572015-05-0111210.5617/nordina.2043ReleQuant – Improving teaching and learning in quantum physics through educational design researchBerit BungumEllen K. HenriksenCarl AngellCathrine W. TellefsenMaria Vetleseter Bøe Quantum physics and relativity are demanding for teachers and students, but have the potential for students to experience physics as fascinating and meaningful. Project ReleQuant engaged in educational design research to improve teaching and learning in these topics in Norwegian upper secondary schools. The paper focuses on the first cycle of development of a teaching module on quantum physics and how design principles were developed. We construct the design principles by reviewing relevant research literature and conducting three pilot studies. The process resulted in the following principles for designing the quantum physics teaching module: 1) clarify how quantum physics breaks with classical physics; 2) use simulations of phenomena that cannot be experienced directly; 3) provide students to use written and oral language; 4) address and discuss wave-particle duality and the uncertainty https://journals.uio.no/nordina/article/view/2043quantum physicsupper secondary schooleducational design researchvisualisationlanguage in learning |
| collection |
DOAJ |
| language |
Danish |
| format |
Article |
| sources |
DOAJ |
| author |
Berit Bungum Ellen K. Henriksen Carl Angell Cathrine W. Tellefsen Maria Vetleseter Bøe |
| spellingShingle |
Berit Bungum Ellen K. Henriksen Carl Angell Cathrine W. Tellefsen Maria Vetleseter Bøe ReleQuant – Improving teaching and learning in quantum physics through educational design research Nordina: Nordic Studies in Science Education quantum physics upper secondary school educational design research visualisation language in learning |
| author_facet |
Berit Bungum Ellen K. Henriksen Carl Angell Cathrine W. Tellefsen Maria Vetleseter Bøe |
| author_sort |
Berit Bungum |
| title |
ReleQuant – Improving teaching and learning in quantum physics through educational design research |
| title_short |
ReleQuant – Improving teaching and learning in quantum physics through educational design research |
| title_full |
ReleQuant – Improving teaching and learning in quantum physics through educational design research |
| title_fullStr |
ReleQuant – Improving teaching and learning in quantum physics through educational design research |
| title_full_unstemmed |
ReleQuant – Improving teaching and learning in quantum physics through educational design research |
| title_sort |
relequant – improving teaching and learning in quantum physics through educational design research |
| publisher |
University of Oslo |
| series |
Nordina: Nordic Studies in Science Education |
| issn |
1504-4556 1894-1257 |
| publishDate |
2015-05-01 |
| description |
Quantum physics and relativity are demanding for teachers and students, but have the potential for students to experience physics as fascinating and meaningful. Project ReleQuant engaged in educational design research to improve teaching and learning in these topics in Norwegian upper secondary schools. The paper focuses on the first cycle of development of a teaching module on quantum physics and how design principles were developed. We construct the design principles by reviewing relevant research literature and conducting three pilot studies. The process resulted in the following principles for designing the quantum physics teaching module: 1) clarify how quantum physics breaks with classical physics; 2) use simulations of phenomena that cannot be experienced directly; 3) provide students to use written and oral language; 4) address and discuss wave-particle duality and the uncertainty
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| topic |
quantum physics upper secondary school educational design research visualisation language in learning |
| url |
https://journals.uio.no/nordina/article/view/2043 |
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AT beritbungum relequantimprovingteachingandlearninginquantumphysicsthrougheducationaldesignresearch AT ellenkhenriksen relequantimprovingteachingandlearninginquantumphysicsthrougheducationaldesignresearch AT carlangell relequantimprovingteachingandlearninginquantumphysicsthrougheducationaldesignresearch AT cathrinewtellefsen relequantimprovingteachingandlearninginquantumphysicsthrougheducationaldesignresearch AT mariavetleseterbøe relequantimprovingteachingandlearninginquantumphysicsthrougheducationaldesignresearch |
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