The purpose of this study is to gain insight in the development of student knowledge in PVSE-schools that differ in the way and extent in which they are implementing characteristics of competence-based education. The implementation of these characteristics was examined by means of a questionnaire.The development of student knowledge was investigated by means of the concept mapping method in the course of which a pretest was compared to a posttest. When looking at the general typifications of the learning environments the students were in, students developed slightly more knowledge in learning situations which corresponded less with the characteristics of competence-based learning environments. Student guidance and accompanying variables appeared to be distinguishing characteristics for the development of student knowledge. Students developed more knowledge in learning situations in which guidance was combined with students' self-direction and in which all forms of guidance were often provided during the whole educational trajectory.
The purpose of this study is to gain insight in the development of student knowledge in PVSE-schools that differ in the way and extent in which they are implementing characteristics of competence-based education. The implementation of these characteristics was examined by means of a questionnaire.The development of student knowledge was investigated by means of the concept mapping method in the course of which a pretest was compared to a posttest. When looking at the general typifications of the learning environments the students were in, students developed slightly more knowledge in learning situations which corresponded less with the characteristics of competence-based learning environments. Student guidance and accompanying variables appeared to be distinguishing characteristics for the development of student knowledge. Students developed more knowledge in learning situations in which guidance was combined with students' self-direction and in which all forms of guidance were often provided during the whole educational trajectory.
Numeracy and mathematics education in vocational education is under pressure to keep up with the rapid changes in the workplace due to developments in workplace mathematics and the ubiquitous availability of technological tools. Vocational education is a large stream in education for 12- to 20-years-olds in the Netherlands and the numeracy and mathematics curriculum is on the brink of a reform. To assess what is known from research on numeracy in vocational education, we are in the process of conducting a systematic review of the international scientific literature of the past five years to get an overview of the recent developments and to answer research questions on the developments in vocational educational practices. The work is still in progress. We will present preliminary and global results. We see vocational education from the perspective of (young) adults learning mathematics.
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Single-Use Plastics (SUPs) are at the centre of European Union Agenda aiming at reducing the plastic soup with the EU Directive 2019/904. SUPs reduction is pivotal also in the Dutch Government Agenda for the transition to a Circular Economy by 2050. Worldwide the data on SUPs use and disposal are impressive: humans use around 1.2 million plastic bottles per minute; approximately 91% of plastic is not recycled (www.earthday.org/fact-sheet-single-use-plastics/). While centralised processes of waste collection, disposal, and recycling strive to cope with such intense use of SUPs, the opportunities and constraints of establishing a networked grid of facilities enacting processes of SUPs collection and recycling with the active involvement of local community has remained unexplored. The hospitality sector is characterised by a widespread capillary network of small hospitality firms nested in neighbourhoods and rural communities. Our research group works with small hospitality firms, different stakeholders, and other research groups to prompt the transition of the hospitality sector towards a Circular Economy embracing not only the environmental and economic dimensions but also the social dimension. Hence, this project explores the knowledge and network needed to build an innovative pilot allowing to close the plastic loop within a hospitality facility by combining a 3D printing process with social inclusiveness. This will mean generating key technical and legal knowledge as well as a network of strategic experts and stakeholders to be involved in an innovative pilot setting a 3D printing process in a hospitality facility and establishing an active involvement of the local community. Such active involvement of the local inhabitants will be explored as SUPs collectors and end-users of upcycled plastics items realised with the 3D printer, as well as through opportunities of vocational training and job opportunities for citizens distant from the job market.
The SPRONG-collaboration “Collective process development for an innovative chemical industry” (CONNECT) aims to accelerate the chemical industry’s climate/sustainability transition by process development of innovative chemical processes. The CONNECT SPRONG-group integrates the expertise of the research groups “Material Sciences” (Zuyd Hogeschool), “Making Industry Sustainable” (Hogeschool Rotterdam), “Innovative Testing in Life Sciences & Chemistry” and “Circular Water” (both Hogeschool Utrecht) and affiliated knowledge centres (Centres of Expertise CHILL [affiliated to Zuyd] and HRTech, and Utrecht Science Park InnovationLab). The combined CONNECT-expertise generates critical mass to facilitate process development of necessary energy-/material-efficient processes for the 2050 goals of the Knowledge and Innovation Agenda (KIA) Climate and Energy (mission C) using Chemical Key Technologies. CONNECT focuses on process development/chemical engineering. We will collaborate with SPRONG-groups centred on chemistry and other non-SPRONG initiatives. The CONNECT-consortium will generate a Learning Community of the core group (universities of applied science and knowledge centres), companies (high-tech equipment, engineering and chemical end-users), secondary vocational training, universities, sustainability institutes and regional network organizations that will facilitate research, demand articulation and professionalization of students and professionals. In the CONNECT-trajectory, four field labs will be integrated and strengthened with necessary coordination, organisation, expertise and equipment to facilitate chemical innovations to bridge the innovation valley-of-death between feasibility studies and high technology-readiness-level pilot plant infrastructure. The CONNECT-field labs will combine experimental and theoretical approaches to generate high-quality data that can be used for modelling and predict the impact of flow chemical technologies. The CONNECT-trajectory will optimize research quality systems (e.g. PDCA, data management, impact). At the end of the CONNECT-trajectory, the SPRONG-group will have become the process development/chemical engineering SPRONG-group in the Netherlands. We can then meaningfully contribute to further integrate the (inter)national research ecosystem to valorise innovative chemical processes for the KIA Climate and Energy.
- MOTIVE: This project (NoSI) constitutes a first step towards a broader research aiming at counteracting the compartmentalization of Dutch education: WO-HBO-MBO. This first step focuses on vocational education and training (VET) in the creative industry (CI) to develop an incubator for an innovative and participatory VET system, that bridges the gap between the professional field and education. It starts from the pioneering experience of No School (NS) (http://noschool.nl/), where teachers and students already work together as co-creators. - RESULTS: 1) incubator of the new creative VET, based on the following activities: NS book-Manifesto; NS Pavilion; international VET movement /network of people working on educational change; 2) design of a large-scale subsidised study. - CONTENT: VET system needs a systematised renovation on both practical and theoretical level. We will furtherly develop the NS experiment into an incubator serving as operational example of co-creation between: HBO/MBO/WO; teachers/students; schools/professional field. We are in line with the CLICKNL agenda (The Human Touch) and NWA routes (Jeugd in ontwikkeling, opvoeding en onderwijs; Kunst: onderzoek en innovatie in de 21ste eeuw). - RELEVANCE: Starting directly from the practical needs of the professionals (VET teachers/students/professionals), NoSI bridges the gap between schools and the professional field towards a new educational system that can match the demands of the 21st century society. - METHODS: NoSI introduces Participatory Action Research (PAR) as on-going approach in which all the stakeholders (researchers, teachers, students/CI professionals) are actively involved in the decision-making process as co-creators in bringing an ‘idea’ directly into reality. It considers ‘action’ as the main criterion to validate any theory, prioritizing practical knowledges. PARTNERS: 1) ArtEZ lectoraat Kunst- en Cultuureducatie (AeCT), 2) No School (Cibap/SintLucas), 3) Studio INAMATT, 4) expert groups (UvA).
