Teachers and students need good learning environments to perform well. In this study it is pre-supposed that the spatial properties of classrooms can contribute to the quality of the educational process. Thermal, acoustic and visual conditions and indoor air quality (IAQ) may be extremely powerful in order to support the in-class tasks of teachers and students. But what are the optimal conditions? And do schools provide optimal indoor 2019 ISES ISIAQ Joint Annual Meeting – Abstracts | 362 environmental conditions? Research shows that adequate ventilation and thermal comfort in classrooms could improve academic performance of students. However, different studies also suggest that poor indoor environmental quality in classrooms are common and, in some cases, even unhealthy. This study investigates the relationship between indoor air quality (IAQ), perceived indoor air quality (PIAQ) and building-related symptomsof students in university classrooms via subjective assessment and objective measurement. This study was carried out in 59 classrooms of a university of applied sciences in the northern part of the Netherlands during heatingseason. Responses from 366 students were obtained through a questionnaire. Results shows that carbon dioxide concentrations (CO2) exceed minimum Dutch guidelines in 36% of the observed classrooms. Moreover, after a 40 minute class this raised to 45% of the observed classes. Poor IAQ can affect teachers and students level of attention, cause arousal and increase the prevalence of building-related symptoms. A significant correlation was found between CO2 concentrations and PIAQ and between PIAQ and the ability to concentrate, tiredness and dry skin. The research findings imply that increased CO2 concentrations will affect the PIAQ of students and may cause inability to concentrate, increased tiredness and dry skin. These building-related symptoms can cause distraction and affect the academic performance of students negatively. It is highly recommended to improve IAQ in classrooms by offering better indoor environmental conditions through reducing CO2 concentrations.
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This paper reports on a multiple-case study of five participants in a school-university research network in a Dutch master's program. Outcomes indicate that use of existing network structures in master's programs is complex, but could be a promising avenue for creating succesful school-university networks.
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This study explores if multiple alterations of the classrooms' indoor environmental conditions, which lead to environmental conditions meeting quality class A of Dutch guidelines, result in a positive effect on students' perceptions and performance. A field study, with a between-group experimental design, was conducted during the academic course in 2020–2021. First, the reverberation time (RT) was lowered in the intervention condition to 0.4 s (control condition 0.6 s). Next, the horizontal illuminance (HI) level was raised in the intervention condition to 750 lx (control condition 500 lx). Finally, the indoor air quality (IAQ) in both conditions was improved by increasing the ventilation rate, resulting in a reduction of carbon dioxide concentrations, as a proxy for IAQ, from ~1100 to <800 ppm. During seven campaigns, students' perceptions of indoor environmental quality, health, emotional status, cognitive performance, and quality of learning were measured at the end of each lecture using questionnaires. Furthermore, students' objective cognitive responses were measured with psychometric tests of neurobehavioural functions. Students' short-term academic performance was evaluated with a content-related test. From 201 students, 527 responses were collected. The results showed that the reduction of the RT positively influenced students' perceived cognitive performance. A reduced RT in combination with raised HI improved students' perceptions of the lighting environment, internal responses, and quality of learning. However, this experimental condition negatively influenced students' ability to solve problems, while students' content-related test scores were not influenced. This shows that although quality class A conditions for RT and HI improved students' perceptions, it did not influence their short-term academic performance. Furthermore, the benefits of reduced RT in combination with raised HI were not observed in improved IAQ conditions. Whether the sequential order of the experimental conditions is relevant in inducing these effects and/or whether improving two parameters is already beneficial, is unknown.
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This study reports the outcomes of a systematic literature review, which aims to determine the influence of four indoor environmental parameters — indoor air, thermal, acoustic, and lighting conditions —on the quality of teaching and learning and on students' academic achievement in schools for higher education, defined as education at a college or university. By applying the Cochrane Collaboration Method, relevant scientific evidence was identified by systematically searching in multiple databases. After the screening process, 21 publications of high relevance and quality were included. The collected evidence showed that the indoor environmental quality (IEQ) can contribute positively to the quality of learning and short‐term academic performance of students. However, the influence of all parameters on the quality of teaching and the long‐term academic performance could not be determined yet. Students perform at their best in different IEQ conditions, and these conditions are task‐dependent, suggesting that classrooms which provide multiple IEQ classroom conditions facilitate different learning tasks optimally. In addition, the presented evidence illuminates how to examine the influence of the IEQ on users. Finally, this information supports decision‐makers in facility management and building systems engineering to improve the IEQ, and by doing so, allow teachers and students to perform optimally.
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This study reports the outcomes of a systematic literature review, which aims to determine the influence of four indoor environmental parameters — indoor air, thermal, acoustic, and lighting conditions —on the quality of teaching and learning and on students' academic achievement in schools for higher education, defined as education at a college or university. By applying the Cochrane Collaboration Method, relevant scientific evidence was identified by systematically searching in multiple databases. After the screening process, 21 publications of high relevance and quality were included. The collected evidence showed that the indoor environmental quality (IEQ) can contribute positively to the quality of learning and short‐term academic performance of students. However, the influence of all parameters on the quality of teaching and the long‐term academic performance could not be determined yet. Students perform at their best in different IEQ conditions, and these conditions are task‐dependent, suggesting that classrooms which provide multiple IEQ classroom conditions facilitate different learning tasks optimally. In addition, the presented evidence illuminates how to examine the influence of the IEQ on users. Finally, this information supports decision‐makers in facility management and building systems engineering to improve the IEQ, and by doing so, allow teachers and students to perform optimally.
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Collaborative learning in a culturally diverse secondary vocational education. By K. Tielman (Fontys), P. den Brok (ESoE), S. Bolhuis (Fontys) and R. van de Sande (Fontys) This contribution discusses a descriptive study on the experiences of students and teachers in secondary vocational education regarding collaborative learning (CL) in a culturally diverse context. The study bridges two domains of research: research on culturally diverse learning environments - which has mostly concerned primary and general secondary education (e.g. de Haan (2005), Hajer (1996), Radstake (2007) and studies on CL. The present study adds to the existing literature not only by integrating these two domains, but also by its specific focus on Dutch secondary vocational education and by focusing on multiple sources of evidence (both cognitions and actions; both student and teacher perspectives). The study analyzes current practices and perceptions of teachers and students with CL in a culturally diverse, competence-based learning environment. The sample consisted of 27 students (with 12 different cultural backgrounds) and two of their teachers (a mentor and a coach/tutor). Teachers and students were followed while working on a project-based series of lessons. Data collection consisted of two steps. In the first step, small groups of students and their teachers were observed and videotaped (allowing for simultaneous analysis of both verbal and non-verbal behaviors) during collaborative learning tasks. Based on these observations, semi-structured interviews were conducted with 9 groups of 3 students and the two teachers, focusing on topics of collaboration, communication, participation, coaching and conflicts, all of which derived from CL characteristics mentioned by Johnson & Johnson (1994). In the second step, video-stimulated (recall) interviews were conducted with both teachers. The interviews were based on a-priori defined moments selected by the teachers themselves and/or the researcher. The data was qualitatively analyzed in an interactive process between theory and data using the computer program Atlas-Ti. Codes were partially based on CL characteristics from the literature (Johnson & Johnson, 1994) and partially on focal points emerging from the observations/interviews. To establish reliability of the coding process, parts of the data were coded by a second researcher, leading to an inter-rater reliability (Cohen's kappa) of 0.87, and a percentage of agreement between both researchers of 81.5 on 54 valid fragments. The findings suggest three major themes behind the data: 1) individual accountability of the students; 2) the importance of the teacher/coach role; and 3) the aspect of (absence of) cultural consciousness. The results of the study suggest that on the one hand students are mostly focused on their individual performance and that there is poor collaboration among classmates while working on collaborative learning tasks, while on the other hand teachers seem unaware of their own role in affecting students' behavior and the influence of cultural backgrounds of students in the CL process. Despite the limitations of this study (a small number of participants, one single school and only one sector of secondary vocational education), the results of the study suggests that teachers of culturally diverse classrooms of the secondary vocational education must become more aware of their own roles as adaptive coaches and models and of the influence of multiculturality on CL. The full paper discusses the results and suggestions in detail.
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This study aims to identify factors that impact on the internationalisation of learning outcomes of programmes at The Hague University of Applied Sciences (THUAS). The process of the articulation of learning outcomes has been studied at institutional, faculty and programme levels. Both document analysis and action research with trainers, managers and lecturers provided data for this study. The study describes the broader issue and the layers of contexts in which THUAS operates: the global, European, national, local and institutional. Within the latter two, several strategies are distinguished, i.e. research on employability skills of students and THUAS’ Educational vision. The strategies for internationalisation of learning outcomes at THUAS are then placed in an international perspective. The next section zooms in on current practice on the basis of self-assessment and management reports of THUAS faculties. The analysis of these reports is followed by more detailed observations from individual programmes. Analysis and observations are then connected to professional development for internationalisation of teaching and learning. Three elements of THUAS’ extensive programme for professional development are discussed in more detail. The study ends with the identification of priorities to internationalise learning outcomes across THUAS.
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Insider ethnographic analysis is used to analyze change processes in an engineering department. Distributed leadership theory is used as conceptual framework.
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The present study aims to investigate if – and if so, how – the intercultural training programme ‘Preparation for Foreign Learning Experience’ (PREFLEX) has a positive effect on the development of the intercultural competence of students at THUAS in international groups (i.e. school for International Business and Management Studies, IBMS) and students in intercultural groups (i.e. school for Commercial Economy, CE). In addition, the study aims to advance the design of the programme further. Accordingly, the study addresses the following central research question: In what way do the intercultural classroom and the international classroom contribute to the development of intercultural competences in first-year students at THUAS, and to what extent does preparation and guidance, by means of the PREFLEX training module, effectively enhance this development?
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