Marie Fridberg scite author profile

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.

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Teaching chemistry and physics in preschool: a matter of establishing intersubjectivity

Fridberg

Jönsson

Redfors

et al. 2019

International Journal of Science Education

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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.

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The Role of Intermediary Objects of Learning in Early Years Chemistry and Physics

Fridberg

Jönsson

Redfors

et al. 2020

Early Childhood Educ J

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The overall aim of the present study is to study model-based teaching and the collaborative inquiry learning of chemical processes and physical phenomena in preschool, with a specific focus on the verbal communication established between teachers and children (4–5 years old). According to variation theory, learning is always directed at a specific content, called the object of learning. This study aims at highlighting what ‘threatens’ the teacher’s and preschool children’s intersubjectivity during the teaching of chemistry and physics content, and at discussing possible ways to continue the teaching of an object of learning, once sufficient intersubjectivity in a teaching/learning situation has been lost. The result shows the need for the teacher to divide and split a larger object of learning, such as water purification, into smaller learning steps ‘on the way’ in order to hinder breaks in intersubjectivity that otherwise may arise. We introduce the notion of ‘overarching object of learning’ and ‘intermediary object of learning’, and the intermediary objects of learning identified in this study are categorized as belonging to three different themes: the role of words, the role of theoretical models and science concepts, and the role of analogies and abstractions. The teacher’s awareness of intermediary objects of learning as critical aspects for children’s individual learning is crucial for the teaching of everyday science in a preschool setting.

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Robotics and Early-years STEM Education: The botSTEM Framework and Activities

Greca

Terceño

Fridberg

et al. 2020

European Journal of STEM Education

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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 four-eight years old, 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 article presents the outputs from the botSTEM project; the didactical framework underpinning the teaching material, addressing pedagogy and content. It is a gender inclusive pedagogy that makes use of inquiry, engineering design methodology, collaborative work and robotics. The article starts with a presentation of the botSTEM toolkit with assorted teaching practices and finishes with examples of preliminary results from a qualitative analysis of implemented activities during science teaching in preschools. It turns out that despite perceived obstacles that teachers initially expressed, the analysis of the implementations indicates that the proposed STEM integrated framework, including inquiry teaching and engineering design methodologies, can be used with children as young as four years old.

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Spanish and Swedish teachers’ perspective of teaching STEM and robotics in preschool – results from the botSTEM project

Fridberg

Redfors

Greca

et al. 2022

Int J Technol Des Educ

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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 4–8 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 3-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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Marie Fridberg

Preschool children’s Collaborative Science Learning Scaffolded by Tablets

Teaching chemistry and physics in preschool: a matter of establishing intersubjectivity

The Role of Intermediary Objects of Learning in Early Years Chemistry and Physics

Robotics and Early-years STEM Education: The botSTEM Framework and Activities

Spanish and Swedish teachers’ perspective of teaching STEM and robotics in preschool – results from the botSTEM project

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