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  • 1.
    Cronquist, Björn
    et al.
    Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Robotar utvecklar lärandet2018In: Förskoletidningen, ISSN 1402-7135, Vol. 43, no 6, p. 26-26Article in journal (Other (popular science, discussion, etc.))
  • 2.
    Cronquist, Björn
    et al.
    Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Robotics and early-years stem education: botSTEM framework, toolkit, and implemented activities in Sweden2019Conference paper (Refereed)
    Abstract [en]

    botSTEM is an ERASMUS+ project aiming to raise the utilisation of inquiry-based collaborative learning and robots-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 best practices that use integrated Science Technology Engineering Mathematics (STEM) and robot-based approaches, including code-learning, for enhancing scientific literacy in young children. Initial results from the project in terms of a collection of good educational practices summarized in a freely downloadable Toolkit and results from a qualitative analysis of implemented activities during science teaching in Swedish preschools are presented here. The preliminary analysis of the implementations indicate 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.

  • 3.
    Fridberg, Marie
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Forskningsmiljön Forskning Relationell Pedagogik (FoRP). Kristianstad University, Forskningsmiljön Arbete i skolan (AiS).
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola.
    Teaching chemistry and physics in preschool: a matter of establishing intersubjectivity2019In: International Journal of Science Education, ISSN 0950-0693, E-ISSN 1464-5289, Vol. 41, no 17, p. 2542-2556Article in journal (Refereed)
    Abstract [en]

    This paper describes analysis of teaching instances that are part of an in-service preschool teachers programme about chemistry and physics in preschool. The aim is to develop knowledge about the communication established between teacher and children in relation to an object of learning, specifically the role of intersubjective communication in relation to an object of learning. A set of science activities with a specified object of learning was developed in groups of teachers and researchers. A qualitative analysis of the communication in relation to the chosen object of learning was performed. The focus of the analysis was excerpts representing differences in intersubjectivity related to the object of learning and what can be said to characterise the communication between teachers and children in these situations. The results show that intersubjectivity can occur in different ways with different consequences for children’s opportunities to experience the intended object of learning. In connection to this, the importance of teachers having a mutual simultaneity in the communication with children about a specific content is highlighted. The teachers have to create links between the child’s perspective and the object of learning. Intermediary objects of learning are discussed as supporting elements in the conquest of new knowledge.

  • 4.
    Fridberg, Marie
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Research Platform Collaboration for Education.
    Steen, Ann
    Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Research Platform Collaboration for Education.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Undervisning och lärande i förskolan om kemi- och fysikrelaterade vardagsfenomen2018Conference paper (Refereed)
    Abstract [sv]

    Genom ett flerårigt projekt studeras modellbaserad undervisning och lärande i förskolor av kemiska reaktioner och fysikaliska fenomen relaterat till hållbarhet i samhällsfrågor. Forskare arbetar tillsammans med ledning och personal vid förskolor i ett skolområde. Undervisning och lärandeprocesser med och utan stöd av modern informationsteknik implementeras och analyseras. Projektet syftar till att utveckla en teoretisk ram för analys av olika erfarenheter under kemi- och fysikunder­visning i förskolan med fokus på lärarens förhållningssätt och barns agerande. I samverkan utvecklas nuvarande kunskap om hur ny digital teknik kan användas för att stödja samarbete och lärande om kemiska processer och fysikaliska fenomen relaterade till barns vardag och dagens samhälle. 

  • 5.
    Fridberg, Marie
    et al.
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Children’s collaborative learning in science scaffolded by tablets2017In: Digital Childhoods: technologies and children's everyday lives / [ed] Susan Jill Danby, Marilyn Fleer, Christina Davidson, Maria Hatzigianni, Singapore: Springer, 2017Chapter in book (Other academic)
  • 6.
    Fridberg, Marie
    et al.
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Naturvetenskap och datorplattor – i barnens regi2016In: Naturvetenskap i ett förskoleperspektiv: kreativa lärandeprocesser / [ed] Susanne Thulin, Malmö: Gleerups Utbildning AB, 2016, p. 105-124Chapter in book (Other academic)
  • 7.
    Fridberg, Marie
    et al.
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Thulin, Susanne
    Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Children’s collaborative learning of evaporation scaffolded by iPads2015Conference paper (Refereed)
    Abstract [en]

    This paper reports on a project aiming to extend the current understanding of how emerging technologies, i.e. iPads, can be used in pre-schools to support collaborative learning of real-life science phenomena. The importance of this is associated with the “west world” problem of current educational systems to respond to the needs of modern youth. Educational systems are currently in need of reform (Fullan, 2007, Thulin, 2011; Tytler, 2007). Research on the potential of web-based technologies to support collaborative inquiry-based science learning in schools, with a special interest in inquiry-based science learning is here continued by investigating the role of time-lapse and stop-motion animations in developing children’s understanding of science phenomena. We report on a study of groups of children working with evaporation. A video-based qualitative analysis of the communication in the pre-school groups has given rise to a number of categories used to distinguish and identify variations of children’s expressed experiences in discussions during group work in different contexts. An enhanced and focused reasoning about the natural science phenomenon in group discussions where the iPad is involved and used for stimulated recall is reported. Furthermore, it is shown that children communicate extensively about practical issues and problem solving, in stop-motion producing contexts, but less about the science phenomenon. However, when the children participate in real-time experimentation, the communication focuses more around the phenomenon itself and less about practical issues. Hence, again establishing the importance of real-time experimentation for children’s science learning. The analysis of the empirical data from the first phase of the project is on going and will be completed during the first months of 2015.  The final results will be presented at the conference.

  • 8.
    Fridberg, Marie
    et al.
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Thulin, Susanne
    Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Science in early childhood education: children and tablets2016Conference paper (Refereed)
    Abstract [en]

    Research aims

    To extend current understanding of how emerging technologies, i.e tablets, can be used in pre-schools to support collaborative learning of real-life science phenomena.

    Relationship to previous research works

    We continue our study of the potential of tablets as scaffolds in collaborative inquiry-based science

    learning in preschools. We investigate the role of Timelapse photography and Slowmation production in scaffolding communication and learning during work with light and shadow. The teaching attempts to synthesise the two domains defined by Eshach (2006) for children´s science learning: content and

    investigations.

    Theoretical and conceptual framework

    The theoretical framework is primarily based on phenomenography focusing on developmental pedagogy. (Marton & Booth, 1997, Pramling Samuelsson & Asplund Carlsson, 2008).

    Paradigm, methodology and methods

    Design-based research (Barab & Squire, 2004) is used to bridge the worlds of academia with the realities of educational practice, to foster viable practices. A mixed-methods approach, including video and qualitative and quantitative data measures is used.

    Ethical Considerations

    The research will adhere to the ethical guidelines of the Swedish Research Council. All participants and children’s caregivers are informed and agree to voluntary and anonymous participation with a right to abandon participation.

    Main finding or discussion

    In this paper we report on an on-going project where children investigate light and shadow by constructing, discussing, formulating and using explanatory models during work with time-lapse and Slowmations. (Fridberg et al. 2016).

    Implications, practice or policy

    The potential of teachers, students and researchers jointly developing, enacting and evaluating learning processes supported by ubiquitous technologies in pre-school will be discussed. Slowmation production focus explanatory models of science experiences and elicits critical aspects of the learning object.

  • 9.
    Fridberg, Marie
    et al.
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Thulin, Susanne
    Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    The role of science in Swedish pre-schools: children’s collaborative learning scaffolded by iPads2014Conference paper (Refereed)
    Abstract [en]

    To extend current understanding of how emerging technologies, i.e. iPads, can be used in pre-schools to support collaborative learning of real-life science phenomena. Research on the potential of web-based technologies to support collaborative inquiry-based science learning in schools (Redfors et al. 2013) is continued by investigating the role of stop-motion animations (Fleer, 2013, Hoban, 2007) in developing children’s understanding of science phenomena, by synthesising the two domains defined by Eshach (2006) for kids’ science learning, content and investigations. The theoretical framework is primarily based on phenomenography focusing on developmental pedagogy (Marton & Booth, 1997, Pramling Samuelsson & Asplund Carlsson, 2008). Design-based research (Barab & Squire, 2004) is used to bridge the worlds of academia and theory with the realities, complexities, and constraints of educational practice, and foster viable practices. A mixed-methods approach, including video and qualitative and quantitative data measures is used. The research adheres to the ethical guidelines of the Swedish Research Council. All participants and children’s caregivers are informed and agree to voluntary and anonymous participation with a right to abandon participation. In this paper we report on the first phase of the project where videos of children’s work with constructing and discussing time-lapse and stop motion sequences of science phenomena have been analysed within our theoretical framework. Stop-motion animations (Fleer 2013) help children, teachers and students to more consciously consider concepts. We see a great potential in work where teachers, students and researchers jointly develop, enact and evaluate learning processes supported by ubiquitous technologies in pre-school.

  • 10.
    Fridberg, Marie
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU).
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Preschool children's collaborative science learning scaffolded by tablets2017In: Research in science education, ISSN 0157-244X, E-ISSN 1573-1898, Vol. 48, no 5, p. 1007-1026Article in journal (Refereed)
    Abstract [en]

    This paper reports on a project aiming to extend the current understanding of how emerging technologies, i.e. tablets, can be used in preschools to support collaborative learning of real-life science phenomena. The potential of tablets to support collaborative inquiry-based science learning and reflective thinking in preschool is investigated through the analysis of teacher-led activities on science, including children making timelapse photography and Slowmation movies. A qualitative analysis of verbal communication during different learning contexts gives rise to a number of categories that distinguish and identify different themes of the discussion. In this study, groups of children work with phase changes of water. We report enhanced and focused reasoning about this science phenomenon in situations where timelapse movies are used to stimulate recall. Furthermore, we show that children communicate in a more advanced manner about the phenomenon, and they focus more readily on problem solving when active in experimentation or Slowmation producing contexts.

  • 11.
    Fridberg, Marie
    et al.
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Thulin, Susanne
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Forskningsmiljön Barndom, Lärande och Utbildning (BALU).
    Redfors, Andreas
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Preschool children’s collaborative science learning scaffolded by tablets: a teachers view2017Conference paper (Other academic)
  • 12.
    Fridberg, Marie
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU).
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Jonsson, Agneta
    Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU).
    Chemistry and physics in preschool –: teaching and learning through socio-scientific issues2018Conference paper (Other academic)
  • 13.
    Greca, Ileana
    et al.
    Spain.
    García Terceño, Eva
    Spain.
    Cronquist, Björn
    Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Robotics and STEM education for 4-8 y.o. children in Spanish Pre and Primary schools.2019Conference paper (Refereed)
    Abstract [en]

    botSTEM is an ERASMUS+ project aiming to raise the utilisation of inquiry-based collaborative learning and robots-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 best practices that use integrated Science, Technology, Engineering, Mathematics (STEM) and robot-based approaches, including code-learning, for enhancing scientific literacy in young children. Initial results from the project from a qualitative analysis of implemented activities during science teaching in preschools in Spain are presented here. Despite the possible obstacles that preschool teachers initially expressed, the preliminary analysis of the implementations indicates that the proposed STEM integrated framework, including inquiry teaching and engineering design methodologies, can be used with kids as young as 4 y.o. In the case of a project about magnets, the children seem to have improved/used? some scientific ideas, applied these ideas to design a magnetic toy and learnt about spatial orientation through use of robots. Also, the development of the project seems have allowed a fruitful intersubjective communication between teachers and students.

  • 14.
    Greca, Ileana M.
    et al.
    Spanien.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Cronquist, Björn
    Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Robotics and STEM education for children and primary schools – botSTEM2018Conference paper (Other academic)
    Abstract [en]

    BotSTEM is an ERASMUS+ project aiming to raise the utilisation of inquiry-based collaborative learning and robots-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 best practices that use integrated Science Technology Engineering Mathematics (STEM) and robot-based approaches, including  code-learning, for enhancing scientific literacy in young children. Initial results from the project will be presented at the conference. 

  • 15.
    Greca, Ileana
    et al.
    Spain.
    Redfors, Andreas
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Cronquist, Björn
    Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Robotics and STEM education for 4-8 y.o children and primary schools2019In: EU corner, 2019Conference paper (Other academic)
  • 16. O'Connor, Jane
    et al.
    Fotakopolou, Olga
    England.
    Hatzigianni, Maria
    Australien.
    Fridberg, Marie
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Parents' perspectives on the use of touchscreen technology by 0-3 year olds in the UK, Greece, Sweden and Australia2017Conference paper (Other academic)
  • 17.
    Redfors, Andreas
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Research Platform Collaboration for Education.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Research Platform Collaboration for Education.
    Chemistry and physics in preschool: teaching and learning through socio-scientific issues2018In: AERA - Online Paper Repository, 2018Conference paper (Refereed)
    Abstract [en]

    This paper reports on model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena related to socio-scientific issues (SSI) in Swedish preschools (ages 1-5 years). A special focus is children's learning related to intended and enacted objects of learning, and the research discusses teaching and learning processes with and without scaffolding by contemporary information technologies. A developed theoretical framework for analysis of different referential meanings experienced during work with chemistry and physics in preschool will be presented at the conference. Results describe in detail how reasoning and questioning during modelbased teaching and collaborative inquiry learning engage children and preschool teachers. The role of tablet computers, in supporting collaborative learning of chemical processes and physical phenomena related to children's everyday life will be discussed.

  • 18.
    Redfors, Andreas
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Forskningsmiljön Forskning Relationell Pedagogik (FoRP). Kristianstad University, Forskningsmiljön Arbete i skolan (AiS).
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola.
    Early years physics –: teaching with digital support in preschool.2019Conference paper (Refereed)
    Abstract [en]

    This paper describes an analysis of teaching instances that are part of an in-service preschool teachers programme. The overall aim of the project is – together with teachers – to study model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena in preschool. Our interest is directed towards the teaching of science in preschool, with particular focus on use of digital tools and the verbal communication and intersubjectivity established, or not established, between teachers and children during learning situations in preschool. Teaching activities were jointly developed by work teams in preschools and researchers. A qualitative analysis of video recordings of enacted teaching activities has been performed. The focus was excerpts representing qualitative differences in intersubjectivity related to the object of learning, and what characterised the communication in these situations – the roles of teacher, children and scaffolding digital technology. The focus of this report will be teaching activities developed  with air resistance as the object of learning. The result indicates the importance of intermediary objects of learning and place them on the science teaching agenda indicating that they can constitute a supporting element in the conquest of new knowledge. Further, children’s understanding of abstractions and physics concepts when designing a digital movie about investigated phenomena is discussed. The three-year professional development (PD) programme is ongoing and analysis of several instances during the first and second years will be discussed at the conference.

  • 19.
    Redfors, Andreas
    et al.
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU).
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola.
    Intersubjective communication and digitalization in early years chemistry and physics2019Conference paper (Refereed)
    Abstract [en]

    This paper describes an analysis of teaching instances that are part of an in-service preschool teachers programme. The overall aim of the project is – together with teachers – to study model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena in preschool. Our interest is directed towards the teaching of science in preschool, with particular focus on use of digital tools and the verbal communication and intersubjectivity established, or not established, between teachers and children during learning situations in preschool. A phenomenographic analysis of the enacted object of learning was performed. The focus is excerpts representing qualitative differences in intersubjectivity related to the object of learning and what characterised the communication in these situations – the roles of teacher and children. From our results we state that mutual simultaneity may be seen as a variation of intersubjectivity. The result also places the intermediary object of learning on the science teaching agenda and shows that it can constitute a supporting element in the conquest of new knowledge. Further, children’s understanding of abstractions and concepts when designing a digital movie about science phenomena are discussed. The three-year professional development (PD) programme is ongoing and analysis of several instances during the first years will be discussed at the conference

  • 20.
    Redfors, Andreas
    et al.
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Research Platform Collaboration for Education.
    Fridberg, Marie
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, Faculty of Education, Avdelningen för matematik- och naturvetenskapernas didaktik. Kristianstad University, Research Platform Collaboration for Education.
    Jonsson, Agneta
    Kristianstad University, Faculty of Education, Avdelningen för utbildningsvetenskap inriktning fritidshem och förskola. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Research Platform Collaboration for Education.
    Thulin, Susanne
    Kristianstad University, Faculty of Education, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Faculty of Education, Forskningsmiljön Barndom, Lärande och Utbildning (BALU). Kristianstad University, Research Platform Collaboration for Education.
    Physics and tablets in preschool2018Conference paper (Refereed)
    Abstract [en]

    This paper reports on model-based teaching and collaborative inquiry learning of chemical processes and physical phenomena related to socio-scientific issues (SSI) in Swedish preschools (1-5 years). A special focus is children's learning related to intended and enacted teaching, and the research contrasts teaching and learning processes with and without scaffolding by tablets. A developed theoretical framework for analysis of different referential meanings experienced during work with chemistry and physics in preschool will be presented. Results describe in detail how reasoning and questioning during teaching engage children and preschool teachers. The role of tablets in collaborative physics learning will be discussed.

  • 21.
    Redfors, Andreas
    et al.
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Fridberg, Marie
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    Thulin, Susanne
    Kristianstad University, School of Education and Environment, Avdelningen för Pedagogik. Kristianstad University, Research environment Learning in Science and Mathematics (LISMA).
    On the potential of mobile and ubiquitous technologies to support collaborative processes with a science content in pre-schools2014Conference paper (Refereed)
    Abstract [en]

    We will present on a project that sets out to extend current understanding of how emerging technologies can be used by children and their pre-school teachers as socio-cognitive tools to support collaboration and reflection in investigating complex, real-life problems. The research group LISMA has previously been involved in work situated at the intersection of new information and communication technologies (ICTs), social cognition, and learning with research focused on examining the potential of web-based technologies to support social and psychological processes which are at the centre of learning, with a special interest in inquiry-based science learning to support active involvement, collaboration, cognitive flexibility, reflective and critical thinking, and the development of adaptive expertise (Redfors et al. 2013). Hence, we will synthesise the two domains defined by Eshach (2006) for kids’ science learning; content (concepts, explanatory models) and investigations (hypothesis, problematizing, questions, experiments). With this project we will take this line of work further and focus on the role of ubiquitous technologies in pre-schools.

     

    The project methodology is based on the idea of design-based research (Barab & Squire, 2004). This approach seeks to bridge the often disconnected worlds of academia and theory with the realities, complexities, and constraints of educational practice. Design-based research is the most suitable methodological approach to the goals of this project, since its iterative, participatory, and evidence-based philosophy can foster the development of viable, empirically tested practices. The collaborative activities that we will create will be iteratively tested and refined, first as pilot projects, then during local implementations, and finally during implementations and synthesis work at a global level. This approach can ensure that the outcomes of such work can be used in other similar learning contexts. In the context of this approach, we will follow a mixed-methods approach, which will include qualitative and quantitative data collection measures.

     

    We will report on the first phase of the project where we will work with pre- and in-service pre-school teachers developing Slowmations (Fleer, 2013; Hoban, 2007) to develop their own and children’s understanding of science phenomena. Slowmations (“SlowAnimation”) are software generated simple stop-motion animations played slowly at two frames per second. Children photograph objects, creating a sequence of photographic images, which they put together as a video clip, with self-generated narration to explain the phenomena. Research suggests that slowmations (Fleer 2013) helps children to more consciously consider concepts. Teachers and students (during VFU) will in collaboration with researchers in a design-based process develop, enact and evaluate slow-mations. Through a future international group we will be able to identify the critical attributes, the important constraints and the crucial characteristics of successful research-based activities.

  • 22.
    Stanezai, S.
    et al.
    Malmö University.
    Sahlen, E.
    Malmö University.
    El-Schich, Z.
    Fridberg, Marie
    Kristianstad University, Research environment Learning in Science and Mathematics (LISMA). Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Fredriksson, G. N.
    Lund University.
    Anagnostaki, L.
    Skåne University Hospital.
    Tassidis, Helena
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Man & Biosphere Health (MABH).
    Persson, L.
    Lund University.
    Gjorloff Wingren, Anette
    Malmö University.
    Higher intensity of Low Molecular Weight Protein Tyrosine Phosphatase/ ACP-1 in survivors of patients diagnosed with Diffuse Large B Cell Lymphoma (DLBCL) compared to non-survivors2016In: Austin Biology, no 2, article id 1009Article in journal (Refereed)
    Abstract [en]

    Adult Diffuse Large B Cell Lymphoma (DLBCL) is a heterogeneous form of hematopoietic cancer and difficult to treat. In order to find a better diagnostic indication for the disease, we analyzed Low Molecular Weight Protein Tyrosine Phosphatase (LMWPTP) that in humans is encoded by the ACP1 gene. LMWPTP is an enzyme shown to counteract Protein Tyrosine Kinases (PTK) and was suggested to be a negative growth factor regulator. However, the 18 kDa PTP can also have a positive effect on cell growth and proliferation, indicating a controversial role in the tumorigenic process. LMWPTP exists in different isoforms which are electrophoretically, kinetically and immunologically distinct. We have studied two subgroups of DLBCL consisting of a Germinal Center B cell like (GCB) and a non-Germinal Center B cell like (non-GCB) group. The two subgroups have been defined by gene-expressing profiling and are associated with differential outcome. The expression levels of LMWPTP protein was compared and showed significant differences between the GCB and non- GCB subgroups (p=0.012). Interestingly, when the samples were divided into survivors and non-survivors, and thereafter analyzed for LMWPTP expression, the samples from patients with a higher survival rate showed increased staining intensity, whereas the samples from patients with lower intensity of LMWPTP did not survive the disease (p=0.001). In conclusion, we have shown that DLBCL patients with worse outcome express LMWPTP with a lower intensity, suggesting a tumor suppressor role for this form of the enzyme.

  • 23.
    Stanezai, S.
    et al.
    Malmö University.
    Sahlén, E.
    Malmö University.
    El-Schich, Z.
    Malmö University.
    Fridberg, Marie
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap.
    Fredrikson, G.N.
    Malmö University.
    Anagnostaki, L.
    Skane University Hospital.
    Tassidis, Helena
    Kristianstad University, School of Education and Environment, Avdelningen för Naturvetenskap. Kristianstad University, Research environment Man & Biosphere Health (MABH).
    Persson, J.L.
    Lund University.
    Gjörloff Wingren, Anette
    Malmö University.
    Tyrosine Phosphatase/ ACP-1 in survivors of patients diagnosed with Diffuse Large B Cell Lymphoma (DLBCL) compared to non-survivors2016In: Austin Biology, Vol. 1, no 2, article id 1009Article in journal (Refereed)
1 - 23 of 23
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