Introduction Student success is positively linked to engagement, but negatively linked to emotional exhaustion. Though both constructs have been conceptualized as opposites previously, we hypothesize that students can demonstrate high or low engagement and emotional exhaustion simultaneously. We used quantitative and qualitative data to identify the existence of four student profiles based on engagement and exhaustion scores. Furthermore, we studied how profiles associate to study behaviour, wellbeing and academic achievement, and what risks, protective factors and support requirements students and teachers identify for these profiles. Methods The Student Wellbeing Monitor 2021, developed by Inholland University of Applied Sciences, was used to identify profiles using quadrant analyses based on high and low levels of engagement and emotional exhaustion (n= 1460). Correlation analyses assessed profile specific differences on study behaviours, academic delay, and wellbeing. Semi-structured interviews with students and teachers are currently in progress to further explore the profiles, to identify early signals, and to inspect support requirements. Results The quadrant analysis revealed four profiles: low engagement and low exhaustion (energised-disengaged; 9%), high engagement and low exhaustion (energised-engaged; 15%), low engagement and high exhaustion (exhausted-disengaged; 48%), and high engagement and high exhaustion (exhausted-engaged; 29%). Overall, engaged students demonstrated more active study behaviours and more social connections and interactions with fellow students and teachers. The exhausted students scored higher on depressive symptoms and stress. The exhausted-engaged students reported the highest levels of performance pressure, while the energised-disengaged students had the lowest levels of performance pressure. So far, students and teachers recognise the profiles and have suggested several support recommendations for each profile. Discussion The results show that students can be engaged but at the same time are exhausting themselves. A person-oriented mixed-methods approach helps students and teachers gain awareness of the diversity and needs of students, and improve wellbeing and student success.
MULTIFILE
Introduction Student success is positively linked to engagement, but negatively linked to emotional exhaustion. Though both constructs have been conceptualized as opposites previously, we hypothesize that students can demonstrate high or low engagement and emotional exhaustion simultaneously. We used quantitative and qualitative data to identify the existence of four student profiles based on engagement and exhaustion scores. Furthermore, we studied how profiles associate to study behaviour, wellbeing and academic achievement, and what risks, protective factors and support requirements students and teachers identify for these profiles. Methods The Student Wellbeing Monitor 2021, developed by Inholland University of Applied Sciences, was used to identify profiles using quadrant analyses based on high and low levels of engagement and emotional exhaustion (n= 1460). Correlation analyses assessed profile specific differences on study behaviours, academic delay, and wellbeing. Semi-structured interviews with students and teachers are currently in progress to further explore the profiles, to identify early signals, and to inspect support requirements. Results The quadrant analysis revealed four profiles: low engagement and low exhaustion (energised-disengaged; 9%), high engagement and low exhaustion (energised-engaged; 15%), low engagement and high exhaustion (exhausted-disengaged; 48%), and high engagement and high exhaustion (exhausted-engaged; 29%). Overall, engaged students demonstrated more active study behaviours and more social connections and interactions with fellow students and teachers. The exhausted students scored higher on depressive symptoms and stress. The exhausted-engaged students reported the highest levels of performance pressure, while the energised-disengaged students had the lowest levels of performance pressure. So far, students and teachers recognise the profiles and have suggested several support recommendations for each profile. Discussion The results show that students can be engaged but at the same time are exhausting themselves. A person-oriented mixed-methods approach helps students and teachers gain awareness of the diversity and needs of students, and improve wellbeing and student success.
MULTIFILE
At the beginning of May 2020 Inholland students received an invitation to participate in a large international study on the corona crisis impact on student life and studies. Almost 3000 students participated. This factsheet shows data on their lifestyleand their resilience. But also on their worries about corona, their knowledge of it and their opinion on the information supply.
Energy transition is key to achieving a sustainable future. In this transition, an often neglected pillar is raising awareness and educating youth on the benefits, complexities, and urgency of renewable energy supply and energy efficiency. The Master Energy for Society, and particularly the course “Society in Transition”, aims at providing a first overview on the urgency and complexities of the energy transition. However, educating on the energy transition brings challenges: it is a complex topic to understand for students, especially when they have diverse backgrounds. In the last years we have seen a growing interest in the use of gamification approaches in higher institutions. While most practices have been related to digital gaming approaches, there is a new trend: escape rooms. The intended output and proposed innovation is therefore the development and application of an escape room on energy transition to increase knowledge and raise motivation among our students by addressing both hard and soft skills in an innovative and original way. This project is interdisciplinary, multi-disciplinary and transdisciplinary due to the complexity of the topic; it consists of three different stages, including evaluation, and requires the involvement of students and colleagues from the master program. We are confident that this proposed innovation can lead to an improvement, based on relevant literature and previous experiences in other institutions, and has the potential to be successfully implemented in other higher education institutions in The Netherlands.
Massafabricage in de (MKB) maakindustrie is aan het veranderen in flexibele fabricage en assemblage van kleine series, klantspecifieke onderdelen en eindproducten. Hiervoor zijn nieuwe systemen voor het MKB nodig, waarin robots en mensen samen kunnen werken en die zich snel kunnen aanpassen aan nieuwe productieomstandigheden met lage opstartkosten. De ambitie van het project ?(G)een Moer Aan!? is om het herconfigureren van een robotsysteem voor een nieuwe taak in een productieomgeving net zo eenvoudig en snel te maken als het gebruik van een smartphone. Zo?n benadering biedt kansen om de skills van de operator te benutten. De operator kent immers zijn processen en de robot wordt zijn hulpje. Op vraag van betrokken mkb partners is de focus gelegd op een repeterende productiehandeling die in veel sectoren voorkomt en die relatief veel arbeidstijd kost: het indraaien van moeren en bouten in een object. De centrale onderzoeksvraag van het project luidt: Hoe kan een operator een robot eenvoudig, snel en veilig inleren om assemblage handelingen te verrichten voor het snel en robuust verbinden van bouten, moeren en ringen met objecten? Resultaat van dit praktijkgerichte onderzoeksproject is een algemeen bruikbare en gevalideerde ontwerpmethodiek voor de opzet van een gebruiksvriendelijke user interface van een boutmontagerobot op de werkvloer. Door slim gebruik van geïntegreerde inzet van CAD productinformatie, vision technologie en compliant (meegaand) gripping en placing wordt de robot zo veel als mogelijk vooraf automatisch geconfigureerd. Het projectconsortium dat het onderzoek gaat uitvoeren bestaat uit: " 13 bedrijven (12 mkb) actief als toeleverancier, system integrator of gebruiker op het terrein van industriële robotica (Yaskawa, ABB, Smart Robotics, Hupico, Festo, CSi, Demcon, Heemskerk Innovate, WWA, Van Schijndel Metaal, Van Beek, Tegema en Zest Innovate); " Hogescholen Fontys (penvoerder), Avans, Utrecht en NHL; " Kennisinstellingen TNO en DIFFER; " Coöperaties Brainport Industries, FEDA en Koninklijke Metaalunie; " De gemeente Eindhoven is betrokken als partner in de klankbordgroep. De gemeente ondersteunt het belang van dit project voor behoud en verbetering van arbeidsplaatsen in de maakindustrie. Er zullen circa 20 (docent)onderzoekers van de hogescholen en ongeveer 80 studenten betrokken worden bij dit project, die in de vorm van stages en afstudeeronderzoeken werken aan interessante vraagstukken direct afkomstig uit de beroepspraktijk. Naast genoemde meerwaarde voor het bedrijfsleven beoogt het project een verdere verankering van kennis en kunde in onderwijs en lectoraten en een vergroting van de kwaliteit van docenten en afstudeerders.
Students in Higher Music Education (HME) are not facilitated to develop both their artistic and academic musical competences. Conservatoires (professional education, or ‘HBO’) traditionally foster the development of musical craftsmanship, while university musicology departments (academic education, or ‘WO’) promote broader perspectives on music’s place in society. All the while, music professionals are increasingly required to combine musical and scholarly knowledge. Indeed, musicianship is more than performance, and musicology more than reflection—a robust musical practice requires people who are versed in both domains. It’s time our education mirrors this blended profession. This proposal entails collaborative projects between a conservatory and a university in two cities where musical performance and musicology equally thrive: Amsterdam (Conservatory and University of Amsterdam) and Utrecht (HKU Utrechts Conservatorium and Utrecht University). Each project will pilot a joint program of study, combining existing modules with newly developed ones. The feasibility of joint degrees will be explored: a combined bachelor’s degree in Amsterdam; and a combined master’s degree in Utrecht. The full innovation process will be translated to a transferable infrastructural model. For 125 students it will fuse praxis-based musical knowledge and skills, practice-led research and academic training. Beyond this, the partners will also use the Comenius funds as a springboard for collaboration between the two cities to enrich their respective BA and MA programs. In the end, the programme will diversify the educational possibilities for students of music in the Netherlands, and thereby increase their professional opportunities in today’s job market.
