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 was to gain insight into the development of student knowledge in Pre-Vocational Secondary Education schools which differ in the manner and extent to which they have implemented characteristics of competence-based education. The implementation of these characteristics was examined using a teacher questionnaire. The development of knowledge was investigated using the method of concept mapping. The results showed students to develop slightly more knowledge in learning situations with fewer characteristics of competence-based education. The organizational characteristics of the learning situations were further found to be distinctive for the development of knowledge.
TheUniversity of Twente, SaxionUniversityofAppliedSciences, ROCofTwente(vocationaleducation), centre of expertise TechYourFuture and the H2Hub Twente, in which various regional hydrogen interested corporations are involved, work together to shape a learning community (LC) for the development of innovative hydrogen technology. The cooperation between company employees, researchers and students provides a means to jointly work on solutions for real-life problems within the energy transition. This involves a cross-chain collaboration of technical programs, professorships and (field) experts, supported by human capital specialists. In the LC, a decentralized hydrogen production unit with storage of green hydrogen is designed and built. The main question for this research is: how can the design and construction process of an alkaline electrolyzer be arranged in a challenge based LC in which students, company employees (specialists) and researchers from the three educational institutions can learn, innovate, build-up knowledge and benefit? In this project the concept of a LC is developed and implemented in collaboration with companies and knowledge institutions at different levels. The concrete steps are described below: 1. Joint session between Human Resource and Development (HRD) specialists and engineers/researchers to explore the important factors for a LC. The results of this session will be incorporated into a blueprint for the LC by the human capital specialists. 2. The project is carried out according to the agreements of the blueprint. The blueprint is continuously updated based on the periodic reflections and observed points for improvement. 3. Impact interviews and periodic reflection review the proceeding of the LC in this engineering process. The first impact interview reveals that the concept of the LC is very beneficial for companies. It increases overall knowledge on hydrogen systems, promotes cooperation and connection with other companies and aids to their market proposition as well. Students get the opportunity to work in close contact with multiple company professionals and build up a network of their own. Also the cooperation with students from different disciplines broadens their view as a professional, something which is difficult to achieve in a mono-disciplinary project.
MULTIFILE
