Increasing mental health issues, such as emotional problems, pose a threat for the academic performance of undergraduate students. We propose a route connecting emotional problems and academic performance through executive functioning skills (EFS). Despite the abundance of research on the topic of EFS, there is a significant gap in understanding this route, specifically among a population of undergraduate students. The aim of this study was to examine whether EFS mediated the association between emotional problems and academic performance among undergraduate students. Cross-sectional data (n = 2,531) was used from a survey among Dutch undergraduate students from a large variety of faculties at a university of applied sciences. We assessed emotional problems using the Depression Anxiety Stress Scale-21, five EFS (cognitive inhibition, task initiation, sustained attention, planning, time management), and academic performance (study delay; yes/no). Mediation analyses were performed, using the Hayes PROCESS macro, adjusted for gender. We found that cognitive inhibition, task initiation, sustained attention, planning, and time management mediated the association between emotional problems and academic performance. Regarding separate EFS, no large differences were found. The data suggests that improving all EFS in undergraduates experiencing emotional problems could be a fruitful strategy for preventing academic delays.
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This article describes the relation between mental health and academic performance during the start of college and how AI-enhanced chatbot interventions could prevent both study problems and mental health problems.
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Using path analysis, the present study focuses on the development of a model describing the impact of four judgments of self-perceived academic competence on higher education students' achievement goals, learning approach, and academic performance. Results demonstrate that academic self-efficacy, self-efficacy for self-regulated learning, academic self-concept, and perceived level of understanding are conceptually and empirically distinct self-appraisals of academic competence which have a different impact on student motivation, learning, and academic performance. Furthermore, the current study suggests that students reflecting high scores on the four measures of self-perceived competence, are more persistent, more likely to adopt mastery and/or performance approach goals, less anxious, process the learning material at a deeper level, and achieve better study results. However, this study also warns that high self-perceived competence (e.g., perceived level of understanding), if not accompanied by a mastery goal orientation, can turn into overconfidence resulting in lower persistence levels and poorer study results.
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A reflective goal-setting intervention could help students adjust to higher education, and improve their performance and well-being, as has been shown by small-scale and quasi-experimental studies conducted so far. However, a large experimental study found no effects, highlighting the importance of replication, and a better understanding of the mechanisms that explain when and why the intervention works. This replication study tested the effects of such a goal-setting intervention on the academic performance of 1,134 first-year business and teacher education students, with a randomized control trial. The treatment group earned significantly more course credits, and had a 15% lower risk of dropping out of college, compared to the control group. Contrary to the findings of previous studies, this study found no evidence that these effects are larger for men, or ethnic minorities. Additionally, we found no effect of the intervention on self-regulated learning, resilience, grit, engagement, or well-being.
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Several studies found that classrooms' indoor environmental quality (IEQ) can positively influence in-class activities. Understanding and quantifying the combined effect of four indoor environmental parameters, namely indoor air quality and thermal, acoustic, and lighting conditions on people is essential to create an optimal IEQ. Accordingly, a systematic approach was developed to study the effect of multiple IEQ parameters simultaneously. Methods for measuring the IEQ and students' perceived IEQ, internal responses, and academic performance were derived from literature. Next, this systematic approach was tested in a pilot study during a regular academic course. The perceptions, internal responses, and short-term academic performance of participating students (n = 163) were measured. During the pilot study, the IEQ of the classrooms varied slightly. Significant associations (p < 0.05) were observed between these natural variations and students' perceptions of the thermal environment and indoor air quality. These perceptions were significantly associated with their physiological and cognitive responses (p < 0.05). Furthermore, students' perceived cognitive responses were associated with their short-term academic performance (p < 0.01). The observed associations confirm the construct validity of the systematic approach. However, its validity for investigating the influence of lighting remains to be determined.
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The indoor air quality (IAQ) in classrooms in higher education can influence in-class activities positively. In this context, the actual IAQ and students' perceived IAQ (PIAQ), perceived cognitive performance (PCP), and short-term academic performance (SAP) were examined in two identical classrooms during regular academic courses. During the lecture, key performance indicators (KPI) for the IAQ, i.e. carbon dioxide concentration, particulate matter 2.5, and total volatile organic compounds, were measured. After the lecture, responses of 163 students were collected with a validated self-composed questionnaire and a cognitive test, which covered topics discussed during the lecture. A significant association between the IAQ KPI and the PIAQ was found (p < .000). The PIAQ significantly predicted the PCP (p < .05) and the PCP significantly predicted the SAP score (p < .01). These results indicate that the IAQ in classrooms is associated with the PIAQ and PCP, and therefore is associated with students' SAP.
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First year students Aeronautical Engineering had the opportunity to enter a five days program to enhance their mathematical skills. The program had 55 participants. Our research questions were: What are the effects of participation in the summer school program on math skills? Do participants experience more motivation and academic self-esteem after participation? Do dropout rates differ between participating and non-participating students? Do participants differ from non-participating students in motivation or academic self-esteem? We presented the results at the European First Year Experience in Cork, Ireland.
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Introduction: The social distancing restrictions due to the COVID-19 pandemic have changed students’ learning environment and limited their social interactions. Therefore, the objective of this study was to investigate the influence of the social distancing restrictions on students’ social networks, wellbeing, and academic performance. Methods: We performed a questionnaire study in which 102 students participated before and 167 students during the pandemic. They completed an online questionnaire about how they formed their five peer social networks (study-related support, collaboration, friendship, share information, and learn-from) out-of-class. We performed social network analysis to compare the sizes, structures, and compositions of students’ five social networks before and during the pandemic, between first- and second-year students, and between international and domestic students. Additionally, we performed Kruskal–Wallis H test to compare students’ academic performance before and during the pandemic. We performed thematic analysis to answers for two open-end questions in the online questionnaire to explore what difficulties students encountered during the COVID-19 pandemic and what support they needed. Results: The results showed that the size of students’ social networks during the pandemic was significantly smaller than before the pandemic. Besides, the formation of social networks differed between first- and second-year students, and between domestic and international students. However, academic performance did not decline during the COVID-19 pandemic. Furthermore, we identified three key areas in which students experienced difficulties and needed support by thematic analysis: social connections and interactions, learning and studying, and physical and mental wellbeing. Conclusion: When institutions implement learning with social distancing, such as online learning, they need to consider changes in students’ social networks and provide appropriate support.
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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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