Out-of-school science educational activities, such as school visits to a science center, aim at stimulating pupils’ science talent. Science talent is a developmental potential that takes the form of talented behaviors such as curiosity and conceptual understanding. This dissertation investigates whether and how out-of-school science activities contribute to the elicitation, emergence, and development of pupils’ science talent. The context of this thesis is the Northern Netherlands Science Network, an alliance of primary schools, out-of-school science facilities, the university of Groningen, and the Hanze University of Applied Sciences (www.wknn.nl). Interviews with the schools on their starting position showed that adequate communication between schools and out-of-school facilities is necessary to coordinate the participants’ educational goals. Secondly, the elicitation and expression of science talent was studied in the micro-interactions between pupils and their educator (classroom teacher or facility instructor). To do so, a multivariate coding scheme was developed to measure Pedagogical Content Knowledge expressed in real-time interaction (EPCK). The interaction shows a variable pattern over time. Sometimes episodes of high-level EPCK — so-called talent moments — emerge, in which talented pupil behavior in the form of pupils’ conceptual understanding, and talent elicitation by the educator in the form of open teaching focused on conceptual understanding, determine one another. These talent moments only occur in activities that were prepared in the classroom and with educators who were trained to evoke conceptual understanding. Under these conditions, out of school science activities can contribute to the elicitation and development of science talent in primary school pupils.AB - Out-of-school science educational activities, such as school visits to a science center, aim at stimulating pupils’ science talent. Science talent is a developmental potential that takes the form of talented behaviors such as curiosity and conceptual understanding. This dissertation investigates whether and how out-of-school science activities contribute to the elicitation, emergence, and development of pupils’ science talent. The context of this thesis is the Northern Netherlands Science Network, an alliance of primary schools, out-of-school science facilities, the university of Groningen, and the Hanze University of Applied Sciences (www.wknn.nl). Interviews with the schools on their starting position showed that adequate communication between schools and out-of-school facilities is necessary to coordinate the participants’ educational goals. Secondly, the elicitation and expression of science talent was studied in the micro-interactions between pupils and their educator (classroom teacher or facility instructor). To do so, a multivariate coding scheme was developed to measure Pedagogical Content Knowledge expressed in real-time interaction (EPCK). The interaction shows a variable pattern over time. Sometimes episodes of high-level EPCK — so-called talent moments — emerge, in which talented pupil behavior in the form of pupils’ conceptual understanding, and talent elicitation by the educator in the form of open teaching focused on conceptual understanding, determine one another. These talent moments only occur in activities that were prepared in the classroom and with educators who were trained to evoke conceptual understanding. Under these conditions, out of school science activities can contribute to the elicitation and development of science talent in primary school pupils.
LINK
Dit Trendrapport Open Educational Resources 2013 beschrijft de trends op het gebied van open educational resources (OER) en open onderwijs in binnen- en buitenland, geschreven vanuit de context van het Nederlandse hoger onderwijs. Dat gebeurt aan de hand van vijftien artikelen van Nederlandse experts op het gebied van open en online onderwijs. Ook bevat het vijftien korte intermezzo’s met spraakmakende voorbeelden.
DOCUMENT
During the 2024 Open Science Retreat, the Measuring Open Science team collected, reviewed, and analyzed existing research into open science practices. As a team, we developed an interactive overview of open science surveys, which may be used e.g. to reuse questionnaire items on different open science practices.
MULTIFILE
Corrigendum to original article: Elwin R. Savelsbergh, Gjalt T. Prins, Charlotte Rietbergen, Sabine Fechner, Bram E. Vaessen, Jael M. Draijer, Arthur Bakker Effects of innovative science and mathematics teaching on student attitudes and achievement: A meta-analytic study Educational Research Review, Volume 19, November 2016, Pages 158-172 https://doi.org/10.1016/j.edurev.2016.07.003
LINK
Het strategisch project Citizen Science for a Healthy Lifestyle is gestart op 1 november 2019. Het project had als doel: kennis, ervaring, scholing en internationalisering op het thema Citizen Science for Healthy Lifestyle bevorderen. Deze strategische fonds heeft op concrete wijze vorm en inhoud gegeven aan de visie en doelen van het CoE HA. Deze aanvraag heeft mede geleid tot het benoemen van Citizen Science als belangrijke enabler/versneller binnen de visie van het CoE HA. In jaar 1 lag het accent op scholing (expert conference/workshop etc.) en de opzet van een 3-tal pilots. In jaar 2 werd de opgedane kennis en ervaring verwerkt in ontwikkelde onderwijs modules Citizen Science. De Hanzehogeschool stelt zich tot doel waarde en impact te cre ren in Noord-Nederland, met de inzet van onderwijs, onderzoek en innovatie. De strategie van het Centre of Expertise Healthy Ageing (CoE HA) belicht drie thema’s: 1) gelijkheid en participatie in gezondheidszorg, 2) gezonde leefstijl en omgeving, en 3) kwetsbaarheid en passende zorg. Zowel als onderzoek/innovatiestrategie en als middel om burgers en gemeenschappen te betrekken, speelt Citizen Science for health een belangrijke rol in het mogelijk maken en versnellen van processen binnen de drie thema’s. Citizen Science kan gedefinieerd worden als een vorm van onderzoekssamenwerking en co-creatie die burgers betrekt bij onderzoek en innovatie om concrete vraagstukken aan te pakken, en die dus vereist dat niet-professionele bijdragers onderdeel van de samenwerking zijn.Belangrijkste resultaten:• Citizen Science is mede door deze strategische fonds aanvraag en van de drie enablers geworden in de nieuwe CoE HA strategische koers 2021-2026;• Opstart pilots van Living Lab Beweegvriendelijk Vinkhuizen, Living Lab Oldambt Tijd voor Toekomst en Meer Gezonde Jaren Appingedam. Mede door blijvende investering en honorering van Living Labs Sport en Bewegen van ZonMw; Het gaat hier om een netwerksubsidie (8 maanden), lokale verankering (12 maanden) en experiment subsidie (5 maanden);• Integratie Citizen Science in Erasmus+ capacity building project Sustainable Wellbeing (SUSWELL);• Ontwikkeling SPRONG-aanvraag op het thema Citizen Science (deadline 31 mei 2022);• Diverse scholingsactiviteiten en workshops (master HAP, bachelor, docent-onderzoekers van de Healthy Ageing schools, studiedagen) hebben in 2020, 2021 en 2022 plaatsgevonden;• Studie tweedaagse over Citizen Science gehouden voor studenten en docent-onderzoekers CoE HA en KC Noorderruimte;• Samenwerking met Stanford University en Our Voice: Citizen Science for Health Equity network gerealiseerd;• Positioning statement Citizen Science geschreven in NL en EN;• Lid geworden van European Citizen Science Association (ECSA);• Scholingsmateriaal ontwikkeld voor studenten en docent-onderzoekers van de vijf schools vallend onder Healthy Ageing;• Ontwikkeling NWO-subsidie aanvraag maatschappelijk verdien vermogen over citizen-student Science voor studenten welzijn tijdens en na de Corona pandemie (deadline voorjaar 2022);• Postdoc aanstelling Citizen Science vanuit het CoE HA.• Met de Citizen Science scholingsactiviteiten zijn in totaal 270 bachelor studenten, 145 master studenten, 279 docent-onderzoekers, 109 professionals en 180 burgers bereikt verspreid over de verschillende pilots.Aanbevelingen:• Mede op basis van de impact van praktijkgericht onderzoek op praktijk, onderwijs en onderzoek (PRIME-model pagina 29), doorgaan met onderwijs en praktijk ontwikkelingen. De bijdrage aan het wetenschappelijke/onderzoeksdomein op Citizen Science verdient dekomende jaren extra aandacht;• Mede op basis van bevindingen visitatie terugkoppeling CoE HA (6-7 april 2022), verder doorontwikkelen tot herkend en erkend expertisecentrum op Citizen Science in de context van (publieke) gezondheidsdomein;• De komende jaren verder investeren in mensen en middelen in Citizen Science zodat het een van de leidende aanpakken wordt binnen onderwijs-onderzoek binnen het CoE HA zodat de Hanze zich ontwikkelt tot een expertisecentrum (o.a. m.b.v. SPRONG);• Komende jaren verder kennis en expertise ontwikkelen op Citizen Science door eigenonderzoek (promovendi/postdocs) en scholing;• Citizen Science integreren in relevante onderzoeksprojectaanvragen;• Citizen Science verder integreren in de drie inhoudelijke thema’s van het CoE HA;• Citizen Science onderwijsmodules en scholingen implementeren in het onderwijs van studenten (bachelors, masters) en bij- en nascholing van docent-onderzoekers.
DOCUMENT
The evolving landscape of science communication highlights a shift from traditional dissemination to participatory engagement. This study explores Dutch citizens’ perspectives on science communication, focusing on science capital, public engagement, and communication goals. Using a mixed-methods approach, it combines survey data (n = 376) with focus group (n = 66) insights. Findings show increasing public interest in participating in science, though barriers like knowledge gaps persist. Trust-building, engaging adolescents, and integrating science into society were identified as key goals. These insights support the development of the Netherlands’ National Centre of Expertise on Science and Society and provide guidance for inclusive, effective science communication practices.
LINK
Beschrijving van toegevoegde waarde van een meer geïntegreerde benadering van openheid bij open science en open education.
DOCUMENT
Using socio-scientific issues as a learning context is an effective approach to achieve an important goal in science education, which is to enhance scientific literacy. It involves strengthening skills such as argumentation while also improving an understanding of the Nature of Science and imparting content knowledge. The present study evaluates the impact of a web-based educational instrument consisting of a unique combination of features designed to promote students’ development of skills and knowledge as well as to address the challenges faced by teachers in teaching socio-scientific issues. Participants included 423 students in secondary education. Students in the experimental condition received a three-lesson intervention with the educational instrument, and students in the control condition followed their regular science lessons. Findings indicated that the instrument proves effective in fostering learning outcomes while teachers benefit from the shift of managing classroom discussion to individual guidance of students. Applying the educational instrument in the classroom demonstrates promise in improving student engagement and their comprehension of socio-scientific issues.
DOCUMENT
Abstract Despite the numerous business benefits of data science, the number of data science models in production is limited. Data science model deployment presents many challenges and many organisations have little model deployment knowledge. This research studied five model deployments in a Dutch government organisation. The study revealed that as a result of model deployment a data science subprocess is added into the target business process, the model itself can be adapted, model maintenance is incorporated in the model development process and a feedback loop is established between the target business process and the model development process. These model deployment effects and the related deployment challenges are different in strategic and operational target business processes. Based on these findings, guidelines are formulated which can form a basis for future principles how to successfully deploy data science models. Organisations can use these guidelines as suggestions to solve their own model deployment challenges.
DOCUMENT
How lecturers in higher education handle, or curate, educational resources during course design, has become increasingly important with the growing amount of digitally available educational materials. Despite the recognition of curation in educational literature and the development of two conceptual models, there is a lack of empirical knowledge of lecturers' actual curational practices. Through 23 semi-structured interviews at a Dutch University of Applied Sciences, this study identified six categories of distinguishable but interconnected activities that constitute lecturers' curational behaviour, taking place within the context of course design. These activities are: searching for resources, assessing and selecting resources, creating and editing resources, structuring resources, sharing resources, and soliciting feedback. The findings suggest that lecturers underemphasize the construction of a narrative that relates the resources and are providing students with little didactical support when sharing the resources. This paper offers an empirical a foundation for educational curation and suggests directions for future research to inform lecturers’ course design practices and enhance support for lecturers in this critical task.
DOCUMENT
