| 1. |
- Cronquist, Björn, 1956-, et al.
(author)
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Robotics and early-years stem education – the botSTEM project
- 2021
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Conference paper (other academic/artistic)abstract
- botSTEM is an ERASMUS+ project aiming to raise the utilisation of inquiry-based collaborative learning and robot-enhanced education. The project outputs are specifically aimed to provide in- and pre-service teachers in Childhood and Primary Education, and children aged between 4 and 8, with research-based materials and practices that use integrated Science Technology Engineering Mathematics (STEM) and robot-based approaches, including code-learning, for enhancing scientific literacy in young children. This presentation presents initial results in terms of a collection of tested educational practices summarized in a freely downloadable Toolkit, and results from a qualitative analysis of implemented activities in Swedish preschools. The preliminary analysis of the implementations indicates that robots function as motivation factors in young children’s inquiry of science and engineering design technology, in both teacher and children initiated learning situations.. Also, when compared, digital programming with a use of robots promotes discussions among teachers and children that involve more versatile robotic words then un-plugged programming does.
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| 2. |
- Fridberg, Marie, 1972-, et al.
(author)
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Digitalization in early years chemistry and physics
- 2021
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Conference paper (other academic/artistic)abstract
- This paper describes an analysis of teaching instances that were part of an in-service preschool teachers programme. The overall aim of the project was – together with teachers – to study model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena in preschool, in relation to an object of learning. Central was the teaching of science in preschool, with particular focus on use of digital tools and the verbal communication as well as obstacles ‘threatening’ the intersubjectivity between teachers and children during learning situations in preschool. Our results show the need for the teacher to address what we call ‘intermediary objects of learning’ and the role of chosen wording andabstract models are emphasised. In addition, the paper highlights different communication categories used by teachers and children during science activities. How the communication varies with e.g. children’s age during teaching will be discussed at the conference.
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| 3. |
- Fridberg, Marie, 1972-, et al.
(author)
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Spanish and Swedish teachers’ perspective of teaching STEM scaffolded by robotics in preschool : results from the botSTEM project
- 2021
-
In: International journal of technology and design education. - 0957-7572 .- 1573-1804.
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Journal article (peer-reviewed)abstract
- This article describes outcomes from the Erasmus+ project botSTEM, involving a theoretical framework for Science, Technology, Engineering & Technology (STEM) and robotics and teaching activities for preschool teachers and teachers educating children four-eight years old. Spanish and Swedish preschool teachers’ self-efficacy and views of teaching STEM and robotics are presented, using a mixed methodology based on a questionnaire and focus group interviews. The three-year long project has improved the preschool teachers’ self-efficacy in STEM and robotics teaching, as described in a questionnaire answered by the preschool teachers after the project. Possibilities in STEM and robotics teaching experienced by them include an increase in children’s agency, knowledge and interest, and the obstacles are mainly structural or technical. Robotics teaching also supports children with special needs when interacting with peers. The results from the botSTEM project point to the benefit of supported long-term professional development for STEM and robotics teaching in preschools.
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| 4. |
- Fridberg, Marie, 1972-, et al.
(author)
-
Undervisning om kemi- och fysik relaterade vardagsfenomen i förskolan : Samverkan med ett skolområde kring kompetensutveckling och forskning
- 2021
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Reports (other academic/artistic)abstract
- Avsikten med denna rapport är att presentera ett treårigt samverkansprojekt mellan forskare vid Högskolan Kristianstad och ledning med personal på samtliga förskolor i ett skolområde. Projektet rör undervisning av naturvetenskap med särskilt fokus på kemi och fysik i förskolan.Ett skolområde i en medelstor skånsk kommun initierade ett samarbete med forskare vid Högskolan Kristianstad kring undervisning om naturvetenskap i förskolan, speciellt kopplat till det läroplanen benämner som enkla kemiska processer och fysikaliska fenomen. Projektet syftade till att studera modellbaserad undervisning och lärande i förskolan om kemiska processer och fysikaliska fenomen relaterat till hållbarhet i samhällsfrågor och barns vardagsliv. Traditionellt har arbete med naturvetenskap i förskolan handlat om naturen, om växter och djur och om miljörelaterade frågor. I samband med att den reviderade läroplanen trädde i kraft 2011 vidgades emellertid kunskapsområdet till att också omfatta kemiska processer och fysikaliska fenomen (Skolverket, 2010). Att undervisa om kemi och fysik i ett förskoleperspektiv kan av många förskollärare upplevas som svårt och behovet av kompetensutvecklingsinsatser har visat sig vara stort (Skolinspektionen, 2018). Utvärderingar visade att så var också fallet i det aktuella skolområdet.1 juli 2019 trädde ännu en reviderad läroplan i kraft i vilken användning av digital teknik lyfts fram som ett nytt målområde att sträva mot (Skolverket, 2018). Mot den bakgrunden och i takt med projektets genomförande har kunskap som rör såväl innehåll som lärandeprocesser och undervisningsstrategier implementerats med och utan stöd av modern informationsteknik.Projektet kan delas upp i två delar. Del I är den kompetensutvecklingssatsning som ovan kort beskrivits och del II är ett forskningsprojekt med fokus på fysik- och kemiundervisningens genomförande i barngrupp samt på projektets övergripande genomförande.Det övergripande syftet med projektet är att, tillsammans med arbetslag och rektorer i förskolan utveckla kunskap om FyKe-undervisning i förskolan, med respektive utan stöd av digitala verktyg, samt att 8longitudinellt följa utvecklingen hos deltagande arbetslag och rektorer under ett flerårigt kompetensutvecklingsprojekt.Flera delstudier har genomförts i projektet. Tre artiklar har hittills publicerats i vetenskapliga tidskrifter, ytterligare studier har genomförts med fokus på rektorers och arbetslags upplevelser relaterat till projektets innehåll och genomförande och delvis relaterat till digital teknik. Rapporten avslutas med några sammanfattande punkter med relation till projektets utfall.
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| 5. |
- Leden, Lotta, et al.
(author)
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Teachers discussing, planning and implementing NOS-aspects in their teaching
- 2014
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Conference paper (other academic/artistic)abstract
- The inclusion of "nature of science" (NOS) in science education has for a long time been regarded as a crucial component in the teaching for scientific literacy. The aim of this study is to investigate how in-service science teachers plan, implement, and afterwards reflect on a NOS teaching session. The participants in the study are Swedish in-service science teachers (n=4) in grades 4-9. Sources of data are teacher-group discussions (before and after the NOS-session), classroom observations, and teachers’ reflective notes. The analytical framework used in this study is developed with a point of departure in the NOS tenets described by Lederman (2007). The preliminary results indicate that although the teachers in different ways explicitly address many different aspects of NOS during the teaching sessions, and they believe that their students are interested in the provided tasks, the teachers themselves are having a hard time coping with the clash between the implemented NOS-session and more traditional views of science teaching.
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| 6. |
- Redfors, Andreas, 1961-, et al.
(author)
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Physics teaching and the role of mathematics in Swedish upper-secondary school
- 2021
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Conference paper (other academic/artistic)abstract
- The aim of this three-year study is to further contribute to the understanding of how relations between Reality – Theoretical models – Mathematics are communicated in Swedish upper-secondary physics. A developed analytical framework (Hansson, Hansson, Juter, & Redfors, 2015; 2019) is used to focus the analysis of the classroom communication on relations made (by teachers and students) between Reality – Theoretical models – Mathematics. The framework, results from an online survey to Swedish upper-secondary teachers on views of physics, mathematics and physics teaching, and results from classroom studies at upper secondary school will be reported on and discussed at the conference.
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| 7. |
- Redfors, Andreas, 1961-, et al.
(author)
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Socio-scientific collaborative inquiry in astrobiology : the design and implementation of a digital learning environment
- 2010
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In: Contemporary science education research. ; , s. 231-241
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Conference paper (peer-reviewed)abstract
- In a European project – CoReflect – researchers in seven countries are developing, implementing and evaluating teaching sequences using a web-based platform (STOCHASMOS). The interactive web-based inquiry materials support collaborative and reflective work. The project methodology is based on the idea of design-based research, which seeks to bridge the often disconnected worlds of academia and educational practices. Hence, the teachers are engaged throughout the project. The learning environments will be iteratively tested and refined, first as pilot projects, then during local implementations, and finally during implementations and synthesis work at the European level. All learning environments are focusing “socio-scientific” issues. In this article we report from the pilot of the Swedish learning environment with an Astrobiology context. The socio-scientific driving questions were “Should we look for, and try to contact, extraterrestrial life?”, and “Should we transform Mars into a planet where humans can live in the future?” The students are in their last year of compulsory school (16 years old), and worked together in triads. We report from the groups’ decisions and arguments used. A majority of the groups express reluctance towards both the search of extraterrestrial life and the terraforming of Mars.
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| 8. |
- Cronquist, Björn, et al.
(author)
-
Robotics and early-years stem education : the botSTEM project
- 2021
-
Conference paper (peer-reviewed)abstract
- botSTEM is an ERASMUS+ project aiming to raise the utilisation of inquiry-based collaborative learning and robot-enhanced education. The project outputs are specifically aimed to provide in- and pre-service teachers in Childhood and Primary Education, and children aged between 4 and 8, with research-based materials and practices that use integrated Science Technology Engineering Mathematics (STEM) and robot-based approaches, including code-learning, for enhancing scientific literacy in young children. This presentation presents initial results in terms of a collection of tested educational practices summarized in a freely downloadable Toolkit, and results from a qualitative analysis of implemented activities in Swedish preschools. The preliminary analysis of the implementations indicates that robots function as motivation factors in young children’s inquiry of science and engineering design technology, in both teacher and children initiated learning situations.. Also, when compared, digital programming with ause of robots promotes discussions among teachers and children that involve more versatile robotic words then un-plugged programming does.
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| 9. |
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| 10. |
- Fridberg, Marie, et al.
(author)
-
Digitalization in early years chemistry and physics
- 2021
-
Conference paper (other academic/artistic)abstract
- This paper describes an analysis of teaching instances that were part of an in-service preschool teachers programme. The overall aim of the project was – together with teachers – to study model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena in preschool, in relation to an object of learning. Central was the teaching of science in preschool, with particular focus on use of digital tools and the verbal communication as well as obstacles ‘threatening’ the intersubjectivity between teachers and children during learning situations in preschool. Our results show the need for the teacher to address what we call ‘intermediary objects of learning’ and the role of chosen wording andabstract models are emphasised. In addition, the paper highlights different communication categories used by teachers and children during science activities. How the communication varies with e.g. children’s age during teaching will be discussed at the conference.
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