Student satisfaction gains an increasingly central position in the context of quality measurements. However, student satisfaction can also be stipulated as an important motivational factor for students as learners. This study combines this perspective on student satisfaction with the notion of differences in students’ ability. We hypothesize that differences in ability result in differences in student satisfaction. In line with concepts of high ability education, it is additionally hypothesized that this relation is mediated by educational stimulation - divided in cognitive, creative and professional stimulation – as well as by participation in honours programs. A structural equation modelling (N=733) of factors affecting student satisfaction in higher education shows that cognitive, creative and professional stimulation are the largest influencers of bachelor students’ sense of satisfaction. The interrelation between these three aspects of educational stimulation also shows the complexity of higher educational practice, since it suggests that cognitive stimulation cannot be realized without a creative factor, and vice versa. Professional stimulation needs both. Furthermore, the results show that educational stimulation mediates the effect of students’ ability on their educational satisfaction. This implies that changes in education can indeed influence students’ educational satisfaction, especially by providing educational quality. Finally, considering students’ ability level, it is shown that especially cognitive abler students are less easy to satisfy. The combination of educational stimulation and ability suggests that especially the more cognitive able students do not feel themselves sufficiently cognitively or creatively stimulated, and hence are less satisfied in vocational higher education.
Background: Particulate matter (PM) exposure is an important health risk, both in daily life and in the workplace. It causes respiratory and cardiovascular diseases and results in 800,000 premature deaths per year worldwide. In earlier research, we assessed workers’ information needs regarding workplace PM exposure, the properties and effects of PM, and the rationale behind various means of protection. We also concluded that workers do not always receive appropriate risk communication tools with regards to PM, and that their PM knowledge appears to be fragmented and incomplete. Methods: We considered several concepts for use as an educational material based on evaluation criteria: ease of use, costs, appropriateness for target audiences and goals, interactivity, implementation issues, novelty, and speed. We decided to develop an educational folder, which can be used to inform employees about the properties, effects and prevention methods concerning PM. Furthermore, we decided on a test setup of a more interactive way of visualisation of exposure to PM by means of exposimeters. For the development of the folder, we based the information needs on our earlier mental models-based research. We adjusted the folder based on the results of ten semi-structured interviews evaluating its usability. Results: The semi-structured interviews yielded commentaries and suggestions for further improvement, which resulted in a number of alterations to the folder. However, in most cases the folder was deemed satisfactory. Conclusion: Based on this study, the folder we developed is suitable for a larger-scale experiment and a practical test. Further research is needed to investigate the efficacy of the folder and the application of the exposimeter in a PM risk communication system.
The research methodology will be developmental research, defined as The systematic study of designing, developing and evaluating instructional programs, processes and products that must meet the criteria of internal consistency and effectiveness. (Richey and Nelson, 1996, p. 1213). Using this kind of methodology will allow me to find outcomes on a Self-Direction Learning (SDL) design process together with colleagues and student teachers - and to carry out several designed learning arrangements from an educational perspective. From the pedagogic perspective I intend to improve the relation between teacher trainer and student teacher with the accent on development, stimulation and support of SDL. This will be done during the design and carrying out of learning arrangements and also by training teacher trainers in the necessary skills of SDL in the context of relational/pedagogic didactic. Looking from both related perspectives it will lead to a construction of an SDL-environment in which teacher trainers and student teacher will learn effectively together.
