Educational escape rooms (EERs) are increasingly used in education as learning innovations for non-digital and game-based learning (GBL) since EERs positively influence student motivation. They are common in educational fields where skills developments are vital such as STEM subjects and healthcare. However, EERs are marginally implemented in entrepreneurship education (EE) because there is a lack of evaluated design elements to guide the creation of EER in this context, which hampers their wider adoption. Therefore, in this study, we evaluated design elements for EERs in EE. We are particularly concerned with experiential EE since EERs are well suited for experiential learning. We used a research-through-design approach and created an EER based on 11 design elements derived from the literature on social cognitive theory, entrepreneurship competence, and gamification. We created and evaluated the EER in two cycles with two diverse groups of students at a university of applied sciences in the Netherlands. We contribute to the literature and practice of experiential EE by presenting evaluated design elements for EERs. We show which design elements work well and which do not. We also present a comprehensively designed EER that educational professionals can implement in their experiential EE programs.
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.
Children with special educational needs included in Austrian mainstream schools are provided with special educational support, which aim to create learning environments, that meet the children’s needs on an individual level. Little is known about what adjustments children with special educational needs in mainstream school classes require to promote participation in school occupations. This is the first study in Austria exploring the student-environment-fit from self-perceived children’s perspective and comparing this to teachers’ perspective by using the School Setting Interview. In this cross-sectional matched pairs study twenty-five children (mean age 12.5 ± 1.4) with special educational needs and twenty-one teachers from six Austrian secondary schools were interviewed. Participants’ ratings were analyzed descriptively and statistically with Wilcoxon-Sign Rank Test. Reported adjustments from the child and teacher perspectives were analyzed with qualitative content analysis and presented using the occupational, social and physical environmental dimensions from the Model of Human Occupation. Results indicate perceived student-environment-fit differs between school activities as well as between children and teachers. Three out of 16 school activities showed a statistically significant difference between children and teacher matched-pair analysis. Children perceive more unmet needs then teachers. Most adjustments are reported in the social environment dimension and inform practitioners what adjustments are perceived to be useful for children with Special Educational Needs and their teachers. Both children’s and teacher’s perspectives provide valuable information. Significantly, children in this study were able to identify required needs and describe adjustments. To increase participation in school occupations, children can and need to be actively included in the decision-making process.
MULTIFILE
