© 2025 SURF
De laatste jaren is er in het hbo veel aandacht voor de legitimering van de diploma’s. Het rapport “Vreemde ogen dwingen” heeft een impuls gegeven aan het verbeteren van de afstudeerprocessen bij vrijwel alle opleidingen. Onderdeel van de verbeterslag is het verbeteren van de modellen waarmee eindwerken worden beoordeeld. Deze modellen moeten bijdrage aan een valide, betrouwbaar en voor de student inzichtelijke beoordeling. Belangrijke vraag daarbij is hoe zo’n model kan worden vormgegeven en of een beoordelingsmodel specifiek is voor een opleiding of hetzelfde kan zijn voor meerdere opleidingen. Dit artikel beschrijft een project aan de Hogeschool Utrecht waarin een gezamenlijk beoordelingsmodel voor afstuderen in het economiedomein is ontwikkeld. Het bleek mogelijk een gezamenlijk beoordelingsformulier te ontwerpen waarin ruimte is voor het toetsen van opleidingsspecifieke eindkwalificaties. Het artikel beschrijft de manier waarop het beoordelingsmodel is ontwikkeld en het resultaat van deze ontwikkeling en geeft een aantal succesfactoren aan.
LINK
De laatste jaren is er in het hbo veel aandacht voor de legitimering van de diploma’s. Het rapport “Vreemde ogen dwingen” heeft een impuls gegeven aan het verbeteren van de afstudeerprocessen bij vrijwel alle opleidingen. Onderdeel van de verbeterslag is het verbeteren van de modellen waarmee eindwerken worden beoordeeld. Deze modellen moeten bijdrage aan een valide, betrouwbaar en voor de student inzichtelijke beoordeling. Belangrijke vraag daarbij is hoe zo’n model kan worden vormgegeven en of een beoordelingsmodel specifiek is voor een opleiding of hetzelfde kan zijn voor meerdere opleidingen. Dit artikel beschrijft een project aan de Hogeschool Utrecht waarin een gezamenlijk beoordelingsmodel voor afstuderen in het economiedomein is ontwikkeld. Het bleek mogelijk een gezamenlijk beoordelingsformulier te ontwerpen waarin ruimte is voor het toetsen van opleidingsspecifieke eindkwalificaties. Het artikel beschrijft de manier waarop het beoordelingsmodel is ontwikkeld en het resultaat van deze ontwikkeling en geeft een aantal succesfactoren aan.
LINK
Dissertatie met als onderwerp het ontwerp en evaluatie van de Hogere Beroepsopleidding Orthopedische Technologie in Nederland. In deze dissertatie wordt naast het ontwerp van de opleiding ingegaan op een vergelijking die is gemaakt met andere opleidingen op het gebied van hoger orthopedisch technologisch onderwijs in de wereld.
Dissertatie met als onderwerp het ontwerp en evaluatie van de Hogere Beroepsopleidding Orthopedische Technologie in Nederland. In deze dissertatie wordt naast het ontwerp van de opleiding ingegaan op een vergelijking die is gemaakt met andere opleidingen op het gebied van hoger orthopedisch technologisch onderwijs in de wereld.
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
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
Out-of-home placed children or adolescents can be placed in family-style group care, a promising alternative youth care setting. It provides children and Professional Foster Parents (PFPs) with the opportunity to create a continuous relationship. This relationship, in turn, is an important factor in building and maintaining attachment. Scientific literature shows that sensitivity and responsivity are crucial interactional elements for building and maintaining an attachment relationship, but little knowledge is available on how those concepts are displayed in mundane interactions. Therefore this dissertation studies dinner conversations between experienced PFPs and adolescents in family-style group care to find out how sensitivity and responsivity unfold in these conversations. The data consist of 300 hours of videorecordings coming from six family-style group care settings. The method of Conversation Analysis was used to analyse the conversations in detail. On the basis of four studies a better understanding is gained into how the dyadic concepts sensitivity and responsivity are displayed in daily interactions between PFPs and adolescents in family-style group care. The analysis of these specific phenomena disclose the PFPadolescent interaction from different perspectives: the verbal and non-verbal actions of both PFPs and adolescents and how PFPs and adolescents align. In short, this dissertation provides a detailed analysis of interaction and improves the understanding of the dyadic concepts sensitivity and responsivity. It reveals that adolescents are active participants in interactions and shows that PFPs are inventive in their conversations with the adolescents.
