Sources

20.01.2026. Übersicht der Termine und Themen Dienstag, 02.12.2025Referent: Herr Prof. Dr. Philipp Manow (Universität Siegen)Das Recht gegen die Demokratie?Hörsaal 15 im Hörsaalzentrum Dienstag, 16.12.2025Referent: Herr Prof. Dr. Stefan Kadelbach (Goethe Universität Frankfurt am Main)Die neue Aktualität des Krieges und das VölkerrechtHörsaal 15 im Hörsaalzentrum Dienstag, 20.01.2026Referentin: Frau Prof. Dr. Isabel Feichtner (Universität Würzburg)Vom Erdboden bis zum Mond. Ist das Recht nur noch Code des Kapitals?Hörsaal 12 im Hörsaalzentrum Dienstag, 03.02.2025Referentin: Dr. Coretta Ehrenfeld (University College Freiburg/ Universität Freiburg)Migration und tödliche Grenzregime: Sterben im Namen des Rechts?Hörsaal 12 im Hörsaalzentrum Veranstalter: Fachbereich Rechtswissenschaft der Goethe Universität Frankfurt am Main. Link: https://aktuelles.uni-frankfurt.de/event/vom-erdboden-bis-zum-mond-ist-das-recht-nur-noch-code-des-kapitals/ .

28.01.2026. Gegenwärtig wird sichtbar, was sich schon lange abzeichnete: Politische Kräfte, die neoliberale Politiken mit autoritären Anrufungen verknüpfen, rücken zunehmend zusammen und bilden Allianzen. Die Veranstaltungsreihe „Aspekte des neuen Autoritarismus“ nimmt diesen Prozeß in den Blick, die nicht nur soziale Ungleichheiten vertieft, sondern auch demokratische Strukturen zunehmend untergräbt und für viele Menschen eine unmittelbare Bedrohung bedeutet. Die vom Institut für Sozialforschung und Künstler*innenhaus Mousonturm organisierte Veranstaltungsreihe beleuchtet die aktuelle Konjunktur dieser Allianz in Deutschland und der Welt, legt Mechanismen autoritär-neoliberaler Politik und deren gesellschaftlichen Konsequenzen offen und fragt danach, welche Gegenbewegungen zum neuen Autoritarismus sichtbar und denkbar sind. Veranstalter: Carolin Amlinger (Universität Basel) im Gespräch mit Georg Marx (IfS). Link: https://aktuelles.uni-frankfurt.de/event/wie-es-kommen-musste-aspekte-des-neuen-autoritarismus/2026-01-28/ .

17.04.2026. Wer das Sagen hat, hat die Macht! Sprache spielt eine bedeutende Rolle: Sie ist das Herzstück unserer menschlichen Kommunikation. Wie verhalten sich in Gesprächen Männer gegenüber Frauen und umgekehrt? Werden Frauen in der Kommunikation „untergebuttert“, und wenn ja, wie geschieht das? Und wie können wir durch unser sprachliches Verhalten gegensteuern?Neben Grundlagen und Übungen zur Kommunikation und Körpersprache werden Strategien für einen bewussten Umgang mit Sprache vorgestellt. Außerdem werden Möglichkeiten zum Umgang mit unfairen verbalen Angriffen und zum schlagfertigen Reagieren vorgestellt und eingeübt. Veranstalter: Friedrich-Ebert-Stiftung e.V.. Link: https://www.fes.de/veranstaltungen/veranstaltungsdetail/287400 .

18.04.2026. In diesem Online-Seminar geht es darum, Grundlagenwissen zur Lese-Rechtschreib-Schwäche (LRS) zu erwerben. Der Fokus liegt dabei besonders auf Unterstützungsangeboten und Trainingsmethoden für Schüler*innen mit LRS. Eine Anmeldung ist bis zum 09.04.2026 möglich. Veranstalter: Verband Sonderpädagogik e.V. (vds). Link: https://www.verband-sonderpaedagogik.de/termine/leben-und-lernen-unter-den-bedingungen-einer-lese-rechtschreib-schwaeche-verstehen-erkennen-unterstuetzen-2/ .

15.07.2026. Du kannst die Zeppelin Universität nicht vor Ort besuchen? Kein Problem! Erlebe die ZU bequem von zuhause oder unterwegs – am PC, Laptop, Tablet oder Smartphone. Wir stellen Dir Universität, Studiengänge und Besonderheiten des Studiums vor. Außerdem erfährst Du alles über studentisches Leben, Wohnen in Friedrichshafen, Auswahlverfahren sowie Stipendien und Studienfinanzierung. Natürlich kannst Du auch live Deine Fragen stellen. Wo: Online. Nach der Anmeldung erhältst Du rechtzeitig den Zugangslink.
Technik: Teilnahme über Firefox, Safari oder Chrome. Eine Webcam ist nicht nötig. Veranstalter: Zeppelin Uni (Zeppelin Universität zwischen Wirtschaft, Kultur und Politik). Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10552 .

01.07.2026. Du suchst ein Studium, das dir maximale Flexibilität bietet? Ein Studium bei dem du selbst entscheiden kannst wann, wo und wie viel du heute lernen möchtest?Dann werden dir die Möglichkeiten des individuellen (dualen) Fernstudiums an der EHiP sicher gefallen.Vereinbare jetzt deinen persönlichen Beratungstermin mit unserer Studienberatung! Gemeinsam … ... helfen wir dir bei der Wahl des richtigen Studiengangs. ... eruieren wir deine Karriereperspektiven. ... prüfen wir deine Anrechnungsmöglichkeiten. ... finden wir deine passende Finanzierungsmöglichkeit. ... bereiten wir deinen Bewerbungs- und Anmeldeprozess vor. Denn du sollst eine bewusste Entscheidung treffen und im Vorfeld deines Studiums genau die Informationen erhalten, die du brauchst.Wir freuen uns darauf, dich kennenzulernen!Dein Team der EHiP Veranstalter: Veranstalter: EHiP - Europäische Hochschule für Innovation und Perspektive . Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10636 .

21.03.2026. (Sonder-)Pädagogische Fachkräfte stehen häufig vor komplexen Situationen, in denen fachliche, emotionale und soziale Aspekte ineinandergreifen. Die Kollegiale Fallberatung als strukturiertes, lösungsorientiertes Verfahren bietet hier wertvolle Unterstützung zur Reflexion und Entlastung einerseits und zur Entwicklung von Handlungsoptionen andererseits. Das Vertiefungsseminar richtet sich an Personen, die schon am Basisseminar am 21.02.2026 teilgenommen haben oder bereits Vorkenntnisse aufweisen. Eine Anmeldung ist bis zum 12.03.2026 möglich. Veranstalter: Verband Sonderpädagogik e.V. (vds). Link: https://www.verband-sonderpaedagogik.de/termine/kollegiale-fallberatung-vertiefungsseminar/ .

26.06.2026. Beim Langen Abend der Studienberatung gibt es spannende Einblicke in die Studienmöglichkeiten an der Uni Paderborn sowie umfassende Informationen zu Zugangsvoraussetzungen und Studienfinanzierung. Veranstalter: Zentrale Studienberatung der Universität Paderborn. Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10472 .

10.06.2026. Die JGU und ihr Studienangebot näher kennenlernen? Sich einen Tag lang wie ein Studi fühlen? Herausfinden, welches Studienfach es werden soll? Spannenden Vorträgen lauschen und sich individuell beraten lassen? Das Campusgefühl in sommerlicher Atmosphäre erleben? Unser Tag der offenen Uni macht es möglich!Am Mittwoch, 10. Juni 2026 laden wir Dich zwischen 9 und 15 Uhr wieder herzlich auf den Campus ein! Alle Studienfächer stellen sich am Tag der offenen Uni mit zahlreichen Veranstaltungen und Aktionen auf dem Campus vor. Es gibt Fachvorträge, Mitmachaktionen, Führungen durch Labore und vieles mehr zu erleben. Veranstalter: Veranstalter: Johannes Gutenberg-Universität Mainz . Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10543 .

19.05.2026. Du möchtest studieren und suchst das Fach, das zu dir und deinen Interessen passt? Oder du hast bereits einen Studiengang gefunden und möchtest dich genauer darüber informieren? Komm zum Studieninfotag der RPTU!Wir unterstützen dich gerne dabei, deinen individuellen Weg zu finden. Denn hier gehts um dich! Der nächste Studieninfotag wird am 13. Mai 2026 in Kaiserslautern und am 19. Mai 2026 in Landau stattfinden.An diesen beiden Tagen wird sich alles rund um das Studium an der RPTU drehen. Besucherinnen und Besucher können Campusluft schnuppern, sich mit Studierenden austauschen und herausfinden, welcher Weg der passende nach dem Abitur ist. Neben der offenen Studienberatung informieren wir in einem vielfältigen Programm über das Studienangebot sowie die Rahmenbedingungen an unserer Universität und beantworten alle Fragen rund ums Studieren. Veranstalter: Rheinland-Pfälzische Technische Universität Kaiserslautern-Landau. Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10500 .

13.05.2026. Du möchtest studieren und suchst das Fach, das zu dir und deinen Interessen passt? Oder du hast bereits einen Studiengang gefunden und möchtest dich genauer darüber informieren? Komm zum Studieninfotag der RPTU! Wir unterstützen dich gerne dabei, deinen individuellen Weg zu finden. Denn hier gehts um dich! Der nächste Studieninfotag wird am 13. Mai 2026 in Kaiserslautern und am 19. Mai 2026 in Landau stattfinden. An diesen beiden Tagen wird sich alles rund um das Studium an der RPTU drehen. Besucherinnen und Besucher können Campusluft schnuppern, sich mit Studierenden austauschen und herausfinden, welcher Weg der passende nach dem Abitur ist. Neben der offenen Studienberatung informieren wir in einem vielfältigen Programm über das Studienangebot sowie die Rahmenbedingungen an unserer Universität und beantworten alle Fragen rund ums Studieren. Veranstalter:  Rheinland-Pfälzische Technische Universität Kaiserslautern-Landau. Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10562 .

14.03.2026. Dieses Basisseminar richtet sich an Lehrkräfte, pädagogische Fachkräfte und alle anderen Personen, die Kontakte zu Menschen mit Autismus-Spektrum-Störungen und deshalb Bedarf an grundlegenden Informationen und Präventionsstrategien haben. Es werden zunächst Grundlagen zum Thema Autismus vorgestellt und anschließend mögliche Problemfelder im Bereich Schule in den Blick genommen. Außerdem besteht die Möglichkeit sich kollegial mit den anderen Teilnehmenden über verschiedene Verhaltensweisen auszutauschen. Die Anmeldung ist bis zum 05.03.2026 möglich. Zu diesem Seminar findet am 25.04.2026 ein Vertiefungsseminar statt, zu dem man sich gesondert anmelden kann. Veranstalter: Verband Sonderpädagogik e.V. (vds). Link: https://www.verband-sonderpaedagogik.de/termine/autismus-spektrum-stoerungen-grundlagen-problemfelder-praevention-8/ .

25.04.2026. Mitmach-Aktionen, Infoveranstaltungen, Schnuppervorlesungen, offene Labore, Experimente, Führungen und Ausstellungen warten am Tag der offenen Tür 2026 auf alle Studieninteressierte, Studierende, Ehemaligen und Angehörige. Beteiligt sind die Fachbereiche: Gestaltung Campus Minden mit Architektur und Bauwesen Ingenieurwissenschaften und Mathematik Wirtschaft Sozialwesen und Gesundheit Außerdem tragen auch Verwaltung und Bibliothek zum Programm bei.  Veranstalter: Hochschule Bielefeld (HSBI). Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10525 .

09.04.2026. Das Ende der Schulzeit naht oder Sie haben das Abitur bereits in der Tasche, wissen aber noch nicht genau, wie es für Sie weitergehen soll? Studium, Ausbildung, Freiwilligendienst oder erst einmal eine Auszeit? In unserem eintägigen online Workshop erhalten Sie professionelle Unterstützung für Ihre Studien- und Berufswahl. Veranstalter: Universität Heidelberg. Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10599 .

08.04.2026. An den Schnuppertagen am 08. und 09. April 2026 könnt ihr die Hochschule Coburg und unsere Bachelor-Studiengänge kennenlernen - mit Infos zum Studium, Eindrücken vom Campus und Kontakt zu Profs und Studis! Wir bieten euch ein Programm vor Ort und online. Professorinnen und Professoren, Dozentinnen und Dozenten stellen euch vormittags vor Ort die Studiengänge vor und beantworten Fragen. Ihr bekommt einen Einblick in die fachlichen Inhalte z.B. durch den Besuch einer Vorlesung sowie die Gelegenheit, Hörsäle, Labore und Werkstätten zu besichtigen und mit Studierenden ins Gespräch zu kommen. Mittags gibt es mit der Möglichkeit eines Mensabesuchs einen ersten Vorgeschmack aufs Studentenleben. Und für alle, die Coburg noch nicht kennen, organisieren wir im Anschluss eine Stadtführung! Am späten Nachmittag finden außerdem Online-Live-Events statt, in denen ihr ebenfalls Studiengänge, Campus und Studis kennenlernen und Fragen stellen könnt – für alle, die nicht nach Coburg kommen können oder sich über weitere Studiengänge informieren möchten. Klingt gut? Dann meldet euch gleich an, damit wir bestmöglich für euch planen können!Eine Anmeldung ist ab sofort möglich. Weitere Infos gibt es auf der Website.  Veranstalter: Veranstalter: Hochschule Coburg . Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10656 .

21.03.2026. Der Bundesfachkongress zum Thema "Bedeutung des sonderpädagogischen Schwerpunkts Sprache" beschäftigt sich mit den Bedarfslagen von Kindern und Jugendlichen mit tiefgreifenden Sprachentwicklungsstörungen und stellt Bezüge zu anderen sonderpädagogischen Schwerpunkten, zu Prävention, zu früher Unterstützung und zu Ausbildung her. Die zwei Hauptvorträge werden von Prof. Dr. Christian Glück, Professor für Bildung, Prävention und Therapie bei Beeinträchtigungen des Sprechens, der Sprache und der Kommunikation an der Universität Leipzig und von Prof. Dr. Stephan Sallat, Professor für Pädagogik, Prävention und Intervention bei Sprach- und Kommunikationsbeeinträchtigungen an der Universität Halle-Wittenberg gehalten. Die 16 Einzelseminare behandeln eine Vielzahl an Themenfeldern. Anmeldeschluss ist der 20.03.2026. Veranstalter: Verband Sonderpädagogik e.V. (vds). Link: https://www.verband-sonderpaedagogik.de/termine/der-sonderpaedagogische-schwerpunkt-sprache-aktuelle-bezuege-zu-anderen-sonderpaedagogischen-schwerpunkten-zu-praevention-frueher-foerderung-und-ausbildung/ .

21.03.2026. Sie überlegen, wie es nach dem Schulabschluss weitergeht und suchen nach dem passenden Studiengang? Dann sind Sie beim Studieninfotag der Uni Passau am 21. März 2026 genau richtig! Die perfekte Gelegenheit, um Ihren Wunschstudiengang besser kennenzulernen oder sich einen Überblick über die verschiedenen Studienmöglichkeiten in Passau zu verschaffen.  Wir zeigen Ihnen Deutschlands schönsten Campus und statten Sie mit allen Informationen zu Bewerbung, Einschreibung, Studienfinanzierung, Wohnen, Auslandsstudium und vielem mehr aus. Sprechen Sie bei „Studis Live“ direkt mit Studierenden und erfahren Sie, wie sich das Studieren an der Uni Passau wirklich anfühlt. Melden Sie sich am besten gleich online an! Veranstalter: Universität Passau. Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10452 .

14.03.2026. Reinschauen, mitmachen, ZU erleben! Am Tag der offenen Tür erhältst Du Antworten auf all Deine Fragen rund ums Studium. Unter dem Motto „Uni live!“ kannst Du ein Seminar besuchen, Dozierende und Studierende persönlich treffen und echte Einblicke gewinnen. Wir stellen Dir unsere Bachelor- und Masterprogramme vor und informieren über Karriereperspektiven, Auslandssemester, Stipendien und Finanzierung. Auch Familie und Freunde sind herzlich willkommen. Veranstalter: Zeppelin Uni (Zeppelin Universität zwischen Wirtschaft, Kultur und Politik). Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10557 .

09.03.2026. Mehr als 150 Veranstaltungen und 80 Infostände an zwei Tagen: Lerne die Uni und ihre Fächervielfalt kennen. Erlebe die Menschen hinter den Studienfächern. Komm in Kontakt mit unseren Studierenden. Stelle all deine Fragen. Science Slam am 10. März! Veranstalter: Veranstalter: Georg-August-Universität Göttingen . Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10587 .

09.03.2026. Was kann ich an der THWS studieren? Welche Berufsaussichten sind zu erwarten? Was sind die Inhalte der einzelnen Studiengänge? Antworten auf alle Fragen rund ums Studium erhältst du bei unserem vielfältigen Programm - online und vor Ort. Sprich mit Studierenden, Professorinnen und Professoren und lerne die innovativen Labore kennen, in den Studierende viel Praxiserfahrung sammeln können. Weitere Informationen zur 5-tägigen Veranstaltung sind auf der Webseite zu den Studieninfotagen zu finden. Veranstalter: Technische Hochschule Würzburg-Schweinfurt (THWS). Link: https://studienwahl.de/veranstaltungsdatenbank/detail/10658 .

The recent emergence of generative artificial intelligence (GenAI) agents has brought significant potential and challenges in education. In science, technology, engineering, arts, and mathematics (STEAM) education, it is especially vital to cultivate students’ GenAI literacy and critical thinking skills. These competencies enable students to effectively apply artificial intelligence (AI) technologies in their STEAM learning. The present study proposed a GenAI agent-based STEAM learning approach and adopted the information world mapping (IWM) method to explore how a GenAI agent enhanced the engagement of 12 middle school students in a STEAM course, and their perceptions of GenAI agent-supported STEAM learning. These students fully participated in a 16-week course titled “Creative Design in STEAM Education.” Participants were asked to illustrate significant individuals, items, locations, and their interconnections to delve into their perceptions of and feedback on GenAI agent-supported STEAM learning. The results showed that while middle school students’ GenAI literacy improved, it did not reach a statistically significant level. In contrast, there was a significant enhancement in their critical thinking tendencies. Regarding students’ perceptions of GenAI agent-supported STEAM learning, the majority acknowledged that the GenAI agent played the roles of information provider and interaction facilitator in STEAM learning activities, particularly excelling in information retrieval and learning interactions. Moreover, the GenAI agent had positive influences on students in various aspects, including learning support, task completion, tool functionality, user experience, usage confidence and attitudes, as well as perceived warmth. Overall, the GenAI agent-based STEAM learning approach effectively enhanced middle school students’ technical skills and problem-solving abilities while also strengthening their teamwork, ethical awareness, and reflective capabilities, thereby demonstrating its potential for future applications in education.

Metacognitive skills are key transversal skills, strongly linked to academic achievement and essential for effective lifelong learning. They are widely recognized to underpin many of the core competencies required for effective social and professional participation, including core competencies such as critical thinking, problem-solving, and self-awareness, highlighted by United Nations Educational, Scientific and Cultural Organization (UNESCO) as key to Education for Sustainable Development. Digital learning technologies and virtual learning environments increasingly form a core strategic dimension of teaching and learning within Higher Education, however effectively harnessing them to enhance student learning remains challenging. This paper presents the Metacognition Design Framework, an evidence-based learning design that scaffolds the development of metacognitive skills in students through blended learning. It draws on the tools available within the virtual learning environment to provide a unique, and potentially powerful, opportunity to extend ‘metacognitive influence’ on student activity and learning outside standard class times with realistic levels of staff input. The design provides clarity for planning accessible learning interventions, their linkage with appropriate technology, and for guiding how face-to-face and online, or fully online, components interrelate. It also delivers an effective conduit to convey information in a practical format that readily permits adaptation to local contexts. Overall, it offers a practical way to re-frame educators as designers, increasing educator design capacity and the effective deployment of technology to enhance learning, at the same time targeting a learning outcome with high potential impact.

To address the rising cybersecurity threats associated with educational technology in K-12 schools and the gap in cybersecurity education, we designed and implemented a multimedia-based Educational Technology (Edtech) Cybersecurity and Privacy Awareness-Ask-Action (AAA) professional development (PD) for school administrators, technology support staff, and teachers. This study sought to identify the PD’s effectiveness, specifically focusing on the participants’ knowledge increments and the perceptions of their experience. Fifty K-12 school personnel with diverse demographic, technology and contextual backgrounds (district types and school levels) participated. Wilcoxon signed-rank tests indicated a significant increase in participants’ knowledge between pre- and post-test. Inductive coding identified emerging themes from post PD survey and follow-up interviews, highlighting participants’ perceived benefits, challenges encountered and future needs. Participants expressed an overall positive attitude, appreciating the increased cybersecurity awareness and enhanced ability to recognize and act against potential cyber threats to protect students and schools. However, challenges such as technical complexity and resource constraints were noted. Participants suggested future cybersecurity professional development could include more contextual guidance, AI-related cybersecurity topics, and provide up-to-date resources.

This study compares engineering college students’ learning motivation between AI-featured and traditional scaffolding methods using a mixed-methods approach. Two different types of class activities, one involving solving a computational problem and the other assembling an essay, were designed to be carried out using both AI-featured and conventional methods. All activities were designed using the Attention, Relevance, Confidence, and Satisfaction (ARCS) model and results were analyzed using both quantitative and qualitative means. Findings show that participants’ motivation was significantly higher in all Attention, Relevance, Confidence, and Satisfaction categories when they used AI-featured methods for solving computational problems while their motivation was significantly higher when they used AI-featured methods only in Attention and Confidence for the essay activity. Qualitative findings describe how AI features motivated learners based on the different types of scaffoldings. Additionally, how the AI features are related to each ARCS model categories are summarized. The results suggest strategies for optimizing the design of AI-featured scaffolds to motivate learners in STEM fields grounded in the ARCS model. This involves linking learners’ goals and interests to real scientific applications of AI by expanding ‘Relevance’ and adjusting learning requirements to strengthen ‘Confidence’ and ‘Satisfaction’.

This research investigates the design, development and implementation of Multiple Learning Analytics Dashboards (MLADs) with the goal of enhancing data-driven decision-making among teachers in primary education. The study presents a Design-Based Research (DBR) approach to ensure the iterative development and refinement of MLADs through collaboration with educational professionals. The research involved four key steps in the presented DBR approach: 1) identifying the requirements through stakeholder interviews; 2) generating design ideas through brainstorming sessions and prototyping; 3) collaboratively designing and developing MLADs and conducting usability testing to gather feedback; and 4) implementing the MLADs in real-world educational settings. This paper outlines the research methodology, the participants involved, and the progress made toward developing these Learning Analytics Dashboards (LADs). The outcomes highlight the creation of tailored MLADs for teachers across multiple municipalities, as well as the lessons learned from real-world implementation. Additionally, we analyze user feedback from teachers regarding the dashboard’s clarity, navigation, functionality, and design, providing a comprehensive view of the dashboard’s usability and areas for future enhancement.

Background Briefly describe the educational challenge, the relevance of AI and AR, and why improving practical skills learning is important. Purpose/Objective State the primary aim of the study (to investigate the impact of AI and AR on practical skills learning) and any secondary aims (motivation, engagement, retention). Methods Include study design (mixed-methods, quasi-experimental), participants, sampling, instruments (questionnaires, observations, interviews), intervention (AI + AR), and analysis methods. Results Summarize the key findings: significantly higher post-test scores in the AI/AR group, improved motivation, engagement, satisfaction, and stronger 3-month retention relative to controls. Conclusion Provide a concise interpretation that AI and AR effectively enhance practical skill acquisition and have important implications for education and training.

The present study investigated the interplay of cognitive cues and social cues in instructional videos on students’ knowledge acquisition and sense of social presence. 312 preservice teachers took part in the study. Out of these, 238 participants were randomly assigned to one of three experimental groups receiving an asynchronous online video lecture on three research methods topics, featuring either static slides with voiceover (minimal signaling), dynamic slides with voiceover (moderate signaling), or dynamic slides with additional instructor signaling (maximum signaling). 74 participants served as a control group and completed pre- and posttests without attending the course. Perceived difficulty, invested effort, motivation, and notetaking were included as covariates. Dynamic slides did not improve knowledge acquisition compared to static slides. However, instructor signaling enhanced knowledge acquisition when perceived difficulty was high. Furthermore, instructor signaling significantly increased perceptions of social presence for two of the three investigated topics, highlighting the importance of social cues.

Spirituality and art have been recognized by educators as crucial factors affecting students’ learning outcomes. By taking these two factors into account, this study proposed the project-based STREAM (Science, Technology, Religion, Engineering, Art, and Mathematics) approach to improving students’ learning achievement, 21st-century competencies, computational thinking, and project outcomes in a science course in response to several challenges encountered by conventional STEM education in addressing global issues. A quasi-experimental design was employed, involving 79 participants distributed across three groups: a project-based STEM approach, a project-based STEAM approach, and a project-based STREAM approach. The experimental results showed that students who learned with the STREAM and STEAM approaches performed significantly better on learning achievement, complex problem-solving, creativity, and project quality than those who learned with the STEM approach. Students who learned with the STREAM approach had higher meta-cognition and communication than those who learned with the STEAM and STEM approaches. However, there was no significant difference between students who learned with the STREAM, STEAM, and STEM approaches in the collaboration aspect. Students who learned with the STREAM and STEM approaches had significantly better computational thinking than those who learned with the STEAM approach. Additionally, the integration of the religious aspect cultivated a heightened sense of care for their peers and the environment, as well as respect for differing opinions. The findings could be a valuable reference and provide recommendations for teachers, instructors, and researchers to develop the STREAM curriculum.

With the advancement of technology and the internet, individuals offload their cognitive demands onto the internet to access information and supplement their cognitive capacity. However, heavy reliance on the internet often produces undesirable consequences such as poor metacognitive judgments and memory retention. This study investigated whether these negative effects can be mitigated by making learners more cognitively mindful of their search activities. A total of 104 undergraduate students were randomly assigned to two conditions. In the thinking-before-googling condition, participants had to first generate or guess answers to three brainstorming questions about modern pentathlon, a topic unfamiliar to most college students, before searching to find answers to 15 more specific problems on it. In the googling-only condition, participants were instead shown a keyword slide and immediately started searching the internet for the same 15 problems. The thinking-before-googling group demonstrated significantly higher pre-search curiosity and recall performance compared to the googling-only group. However, no significant group differences emerged in cognitive self-esteem and the estimation of performance and study time. Both groups expressed significantly higher interest in the topic after the search compared to before. Curiosity is discussed as the potential psychological mechanism underlying the benefits of the thinking-before-googling group.

Artificial intelligence (AI) has ushered in an era where Computational Thinking (CT) emerges as a crucial skill. This interconnected, data-driven landscape necessitates deeper CT skills, enabling students to effectively navigate both the opportunities and challenges presented by AI. The flipped classroom model has gained widespread acceptance in CT education owing to its adaptability, interactivity, and personalization. However conventional implementations of the flipped classroom model still face significant limitations such as insufficient student autonomy in learning processes and a need for enhanced quality of classroom interactions. Addressing these, our study introduces a synergy of flipped classrooms with AI, termed the Flipped Classroom with AI Learning Companion teaching model (FC-AIC). This model aims to enhance high school students CT, self-efficacy, and motivational levels compared to traditional flipped classrooms (FC). Our quasi-experimental research involved 60 first-year high school students from central China, divided into control (FC) and experimental (FCAIC) groups over eight weeks. Students completed a questionnaire to self-appraise their CT, self-efficacy, and motivation at pre-intervention and post-intervention stages. Results indicate that FC-AIC significantly boosts student self-perceptions of their own CT skills, specifically in problem-solving and creativity, and improves perceived self-efficacy and intrinsic motivation without notably impacting perceived extrinsic motivation. This investigation highlights how integrating flipped classrooms with AI technologies can synergistically enhance educational paradigms offering new insights about practical innovations for intelligent educational frameworks.

The current study examined the effects of using a commercially available computer program on the early literacy skills of preschool children and the relationship between fidelity and improvement in literacy skills. Parents and their preschool children were recruited to voluntarily participate in an educational app study. Forty-two preschool children were randomly assigned to an intervention group, which used OgStar Early Reader, or a control group, which used IXL Math. The recommendation was to use the program for 15–20 min per day for five days a week over eight weeks in the summer prior to kindergarten. Three Dynamic Indicators of Basic Early Literacy Skills (DIBELS) measures were used to assess literacy skills: Letter Naming Fluency (LNF), Phoneme Segmentation Fluency (PSF), and Nonsense Word Fluency (NWF). A total of 33 children completed posttests. The intervention group scored statistically significantly higher on LNF posttests (g = 0.41, p = .025) and NWF- correct letter sounds posttests (g = 0.52, p = .009) over the control group. No statistically significant differences were found between the groups for PSF (g = 0.19, p = .458) or NWF- words recoded correctly (g = 0.61, p = .057). Overall, children completed between seven and 131 lesson segments during the study, suggesting fidelity to the planned intervention varied across participants. The number of lessons completed was moderately related to participant gains on LNF and NWF (r = 0.31–0.38). These findings provide some initial support that the use of the early reader app may improve alphabetic knowledge for preschool children.

The study investigates the latent profiles of learners based on motivated self-directed learning (MSDL) and collaborative learning (CL) within an e-learning environment, focusing on how peer-to-peer confirmation is linked to learners' engagement and learning outcomes. Grounded in Self-Determination Theory, and drawing on empirical insights from recent benchmark studies, the research identifies two distinct learner profiles: one with low MSDL and CL engagement and the other with high engagement in self-directed and collaborative learning, including ICT-based activities. Logistic regression analysis reveals that peer-to-peer confirmation, particularly individual attention, predicts class membership, though the overall explanatory power is limited. Additionally, moderation analysis demonstrates that while peer assistance can support engagement, excessive support may diminish the benefits of self-directed learning on subjective achievement. The findings underline the importance of adapting social support strategies to different learner profiles, highlighting the motivational function of peer confirmation in fostering autonomy, relatedness, and competence. This study provides insights on how to optimise e-learning environments by balancing external support and learner agency, and offers practical recommendations for digital pedagogy design.

As a part of the Erasmus + funded project Super Cyber Kids, we have devised a skills framework to enhance the protection of children aged between 8 and 13 years in their Internet and online activities. The framework was developed through a systematic literature review, followed by a two-round Delphi study for validation. During this process, we identified N = 40 relevant studies and obtained validation from up to N = 18 professionals in cybersecurity, education, and cybersecurity education during the Delphi study. The resulting framework is presented as a matrix and offers a comprehensive set of skills aligned with the NIST (National Initiative for Cybersecurity Education) cybersecurity framework, specifically tailored to promote cybersecurity awareness among children in this age group.

Virtual scientific inquiry (VSI) environments are critical information technologies for improving the quality of education. However, the issue of students’ cognitive-affective profiles has received little attention, making it difficult to promote both cognitive achievements and positive affective factors. Based on the log-files and self-report data from 569 students, our study proposes a solution that integrates both theoretical underpinnings (including Cognitive Constructivism, Self-efficacy Theory, Flow Theory, Gender Schema Theory, and Control of Variable Strategy) and AI algorithms-driven analyses (i.e., unsupervised machine learning, pattern mining, and statistical analyses) to address this issue. Specifically, our study identifies two profiles: 350 thriving students and 219 struggling students, through the analysis of inquiry achievements, self-efficacy, and flow experience. Moreover, we found no significant gender difference between the two cognitive-affective profiles. Finally, we found that while thriving and struggling students shared similar foundational characteristics, thriving students exhibited more strategic behavioral frequencies and patterns. These findings can advance understanding of theoretical underpinnings and guide targeted support for students in VSI.

Due to the popularity of video lectures, an increasing number of older adults are engaging with this form of learning. Furthermore, co-viewing has become a common type of social interaction. Despite the popularity of video lectures among older adults, there is limited understanding of how to effectively support their learning through this medium. The present study tested the interaction effects of co-viewer similarity (young vs. older co-viewer) and the type of learning content (declarative vs. procedural knowledge) in video lectures on older adults’ learning performance, motivation, cognitive load, and PFC activation as measured by fNIRS. Our results found that older adults showed better learning performance, greater motivation, and reduced cognitive load when co-viewing with an older viewer compared to a young one, regardless of the type of learning content. Interestingly, for declarative knowledge (i.e., Traditional Chinese Medicine, older adults exhibited greater activation in the FEFs, S1, and SMC regions when co-viewing with an older viewer compared with a young viewer. For procedural knowledge (i.e., digital technology), they exhibited less activation in the dlPFC and SMC regions when co-viewing with an older viewer compared with a young viewer. Our findings suggest that educators should consider the age of co-viewers when designing video lectures for older adults, irrespective of the type of knowledge being taught.

Studies on learner–learner and learner–instructor interaction provide insight into the preferences and perceived effects of interaction types. However, evidence of the impact on measured performance resulting from substituting learner–content interaction for learner–learner interaction is sparse. Using an experimental design, this study examined the impact of substituting interaction types on perception of workload, perception of learning, and measured performance in an online, asynchronous, undergraduate-level setting of formal distance education. The results of this study showed (a) learner–learner interactions were perceived to be significantly more work than learner–content interactions, (b) learner–content interactions were perceived to be significantly more helpful in learning the material, (c) there was no significant difference in measured performance between the two interaction types, (d) interaction type did not significantly moderate the relationship between perception of workload and measured performance, and (e) interaction type did significantly moderate the relationship between perception of learning and measured performance. Implications and recommendations are also provided to inform future researchers and practitioners.

When students use critical thinking (CT) skills to identify, place, and link nodes to construct a concept map, what are the effects of constructing concept maps on students’ CT abilities? To what extent do prior studies control what mapping processes and CT skills are demonstrated to students and examine what CT skills students use while constructing concept maps? This review examines the effectiveness of concept mapping compared to traditional teaching methods for enhancing CT abilities. It includes 17 studies involving 1363 students that measured CT skills (e.g., analysis, evaluation, inference, induction, and deduction) using standardized tests in experimental and control groups. Our analysis revealed that the findings on the effects of concept mapping on CT skills are mixed. The studies implemented research designs and CT measures that lacked consistency. They reported minimal information on which CT skills were demonstrated to students, which CT skills students used to construct their maps, and how specific skills impacted the quality of students’ concept maps. This information is necessary to establish consistency and fidelity in implementing concept maps as an instructional method, identify possible variables contributing to the mixed findings, and enhance the effectiveness of concept mapping. Accordingly, this review aims to identify specific methodological gaps that may account for these inconsistencies and guide the refinement of future research design.

This phenomenographic study explores how six leading academic experts in the design and instructional design field experience creativity in instructional design, specifically, how they perceive, define, and use creativity in instructional design. Phenomenography describes the diverse ways these experts experience, conceptualize, and integrate creativity into ID, highlighting the complex nature of creativity within the field. The findings reveal a range of interpretations and applications of creativity, emphasizing the challenge of defining and incorporating creativity explicitly in ID education. Despite recognizing creativity as a critical skill for the twenty-first century, there is still a lack of explicit inclusion in the instructional design curricula. This study contributes to understanding how creativity is perceived in instructional design by presenting four distinct categories of description. By describing these experts' perspectives on the role of creativity in their work, this study contributes to the ongoing discourse on the significance of creativity in instructional design. It highlights the need to reevaluate how creativity is fostered within instructional design programs and advocates for a more integrated and explicit approach to fostering creativity within the classroom to prepare future instructional designers for the complexities of the twenty-first-century learning environment.

Predicting the level of student learning engagement in online learning is crucial for student success, especially for asynchronous courses. While digital traces can track students’ activity on the platform and help to measure the engagement level, they could provide contradictory results, so it is crucial to incorporate complementary methods which can triangulate the findings obtained from digital traces. This study aimed to develop and validate a model to determine the level of learning engagement in adult learners on an asynchronous online platform using a mixed-method approach. Data from digital traces, surveys, and interviews were combined. The study involved 2234 students and employed Extreme Gradient Boosting and Logistic Regression with L2 regularisation models to predict the level of engagement. The Extreme Gradient Boosting model more accurately predicted students in the low engagement group, providing crucial support for potentially vulnerable students. The number of finished homework assignments and attempts were found to increase the probability of high engagement. The diversity of activities, such as access to text materials, played a pivotal role in sustaining engagement. Interviews corroborated these results, suggesting the model effectively reflects engagement levels. The article discusses implications for constructing similar models in future research.

A review of the literature reveals a discrepancy about what type of task with concept maps is the most effective for individual learning. Furthermore, to date, no research has compared these tasks in individual and collaborative learning contexts. This paper explores the influence of the different tasks on learning, involving concept maps and summaries. The participants were 226 undergraduates who were randomly assigned to 12 experimental conditions. Two independent variables were considered: the knowledge representation task (fill-in-the-blanks concept map, sort a shuffled concepts-provided map, self-construct a map, write a summary) and the structure of the activity (individual + collaborative, collaborative + individual, and fully individual). In addition to the evaluation of comprehension and delayed recall, 4195 verbal exchanges during the collaborative activities were recorded and analyzed. Results confirm an interaction between the type of task and the structure of the activity. The students who self-constructed complete concept maps and then discussed them in pairs obtained better learning results than those in other conditions. Verbal interaction was much more dialogic in this type of task, with a significantly greater proportion than in the other conditions of in-depth exploratory talk episodes, and a lower proportion of cumulative talk. However, the fill-in-the-blanks and shuffled-concepts conditions provided a greater proportion of superficial exploratory talk, and the collaborative summary condition generated a greater proportion of non-dialogic talk fragments. The findings are discussed in the context of the ICAP (Interactive, Constructive, Active, and Passive learning) framework, cognitive load theory and the sociocultural perspective on dialogic learning.

In an increasingly competitive educational landscape, understanding the determinants of academic success is imperative. While prior research has identified epistemic curiosity as a predictor of academic achievement, the psychological mechanisms through which curiosity cultivates internal resources—such as grit and learning flow—remain underexplored. Drawing on Psychological Capital Theory and Self-Determination Theory, the present study investigates how epistemic curiosity promotes grit and learning flow, which together constitute a serial mediation pathway leading to academic success in a large sample of Chinese adolescents. Utilizing data from 17,352 students across 36 primary and secondary schools in 21 provinces in China (age = 9–18, M = 14.1, SD = 2.9), we employed established measures such as the Epistemic Curiosity Scale, Grit-S, and Study-Related Flow Inventory. Our findings reveal that: (1) epistemic curiosity, grit, learning flow, and academic performance are significantly and positively correlated; (2) learning flow and grit may potentially serve as partial mediators in the relationships between epistemic curiosity and academic performance; (3) grit and learning flow point to a potential sequential mediation process connecting epistemic curiosity to academic performance. This research advances the theoretical understanding of curiosity-driven psychological resource development and offers valuable implications for educational policy and practice, emphasizing the importance of nurturing these psychological traits to enhance student performance.

Retrieval practice benefits long-term memory performance in a variety of contexts, but its usefulness for retention of more advanced material is less clear. Additionally, evidence of the role of individual differences in retrieval strategy use is mixed. Such evidence is important to determine the usefulness of particular retrieval strategies as a function of cognitive processes, affective characteristics, and aspects of to-be-learned material. With a sample of undergraduate participants (n = 213), we examined how combining testing strategies (free recall, practice quizzing, and test question generation) could impact learning of a published research article compared to rereading, and how cognitive load, self-efficacy, and working memory capacity influenced these relationships. Although retrieval practice activities did not improve final test performance over rereading, the role of some individual differences varied as a function of assigned strategy. Compared to rereading, using retrieval practice increased cognitive load. Cognitive load then mediated the relationship between assigned strategy and retrieval performance, with higher cognitive load associated with lower final test scores. These results suggest that the memorial benefits of retrieval practice might be limited by cognitive load requirements.

This study aims to deepen the theoretical foundations of debriefing in simulation-based pedagogy. By applying distributed cognition (DCog), we analyse a case of a simulation debriefing with nursing students. Using transcribed excerpts from video recordings, our cognitive ethnography shows how debriefing conversations function as a coordination device for two key processes: joint conversational remembering and distributed metacognition. According to our model, debriefing conversations coordinate a cascade of representations of simulated events. This cascade enables participants to engage reflexively with past actions, transforming these into shared learning opportunities. Reframing the trajectory of public representation in debriefing conversations in terms of DCog reveals new insights into the cognitive consequences of debriefing practices and how they can be developed. We highlight the importance of enabling multiple viewpoints and shared cognitive resources for epistemic outcomes, while also challenging students’ assumptions and foster critical thinking skills.

Achievement goal theory (AGT) has become increasingly prominent for exploring the interplay between teachers’ goals and their instructional practices. Prior research has suggested that relational goals significantly impact mastery-oriented instruction, surpassing the influence of mastery goals. Nonetheless, much of this evidence is derived from studies conducted in Western contexts. The current work investigates the relationships between teachers’ goals and their instructional practices in the Lao context, aiming at providing a more nuanced understanding of these relationships and examining their applicability in collectivist cultural settings. A total of 207 teachers participated in this study by completing an online questionnaire that assessed their teaching goals, instructional approaches, and specific practices. Structural equation modeling was employed to analyze two models. Model 1 revealed positive correlations between relational and mastery goals with mastery-oriented instructional approaches and between ability-approach and ability-avoidance goals with performance-oriented strategies. Additionally, Model 2 demonstrated that relational goals were associated with recognition, grouping, and mutual respect, whereas mastery goals were linked to task and recognition. The findings underscore the central role of relational goals in fostering effective instructional practices, even in a collectivist cultural setting. This study also offers a more detailed understanding of the interconnection between the goals of teachers and their instructional practices, contributing to the cross-cultural AGT literature and providing insights for enhancing teaching practices globally.

The aim of the research was to investigate the effect of guidance methods on students’ performance, and it was hypothesized that this effect is manifested through students’ learning and perception. The aim was to investigate the effect of three guiding methods (open-ended questions; objective questions; and behavioral objectives) on students’ learning and perceptions of an educational technology course. In an experimental setting, three randomly selected groups of students (n = 41) responded to depth of knowledge test questions as a measure of learning and a measure of perceptions. Students in the intervention condition were given guiding methods to guide them in interacting with digital learning resources (DLR) using a social annotation tool (Diigo). In this way, all groups were motivated to learn independently, and students’ thinking processes were guided according to the three guiding methods. It was found that students in the open-ended questions intervention condition performed significantly better on depth of knowledge test questions, followed by the behavioral objectives intervention. Whereas, objective questions intervention students’ performance worse on the post-test. The results indicated the powerful nature of guiding methods and their positive impact on students’ perceptions and future intentions. The results suggest that Diigo’s collaborative guiding methods can be useful in web-based learning, and that considering guiding methods can improve student activity and motivation.

Retrieval practice is a well-established learning strategy. However, the cognitive load involved in retrieving all the steps required for problem solving may hinder its effect in mathematics learning. This study aims to optimize retrieval practice by focusing on key procedural steps to enhance students' learning outcomes in mathematical problem solving. Targeting junior middle school students, the experiment utilized one-variable quadratic equations as learning material. Participants were randomly assigned to one of three groups: a key-step retrieval group, who were instructed to recall only the essential steps in problem solving; a general retrieval group, who retrieved full solution steps; and a relearning group, who restudied the worked examples without retrieval. Results showed that while there was no significant difference in final test scores between the general retrieval practice group and the relearning group, the key-step retrieval practice group significantly outperformed both the general retrieval and relearning groups. Moreover, the key-step retrieval practice group achieved a higher initial retrieval success rate than the general retrieval practice group. These findings indicate that emphasizing key steps during retrieval practice can improve students' transfer performance and lead to more effective learning of mathematical problem solving.

This study investigates the integration of dispositions - defined as the attitude, beliefs, and values influencing the application of knowledge and skills - into the work of professional instructional designers in higher education. Instructional design in higher education is primarily focused on knowledge and skills, often overlooking the equally critical role of attitudes, beliefs, and values - collectively known as dispositions. This exploratory study aims to understand whether and how instructional designers in higher education incorporate dispositions into their course design, and what teaching and learning activities and feedback and assessment procedures they employ. It is guided by Fink’s (2013) Integrated Course Design framework, which includes situational factors, learning goals, teaching activities, feedback and assessment procedures, and more importantly, the alignment between these components. Semi-structured interviews with six instructional designers revealed that dispositions are recognized as essential learning goals. While some identified effective teaching strategies, many lacked clear or appropriate methods to assess dispositions, raising concerns about the alignment between the components of Integrated Course Design. This misalignment suggests that learners may be inadequately prepared to activate dispositions which drive them to appropriately apply their knowledge and skills in real-world contexts. The findings highlight the need for more structured approaches to integrating and assessing dispositions in instructional design, ensuring that learners develop not only domain-specific knowledge and skills, but also the right dispositions to apply them in different contexts.

Team-Based Learning (TBL) is an active learning and small group instructional strategy that provides students with opportunities to apply conceptual knowledge through a sequence of activities that includes individual work, teamwork, and immediate feedback. The aim of this study is to investigate an interactive approach to teaching medical terminology based on the use of team-based learning. The participants for this study were randomly selected from first year paramedical students. Sixty anesthesiology students were randomly assigned into two groups; namely, the experimental group (Team-Based Learning) and the control group (Lecture-Based Learning) (N = 30). The experimental group were tested by individual and team readiness assurance tests after sixteen TBL sessions were held. To compare, the other 30 students were evaluated by individual readiness assurance test after sixteen lecture-based learning (LBL) sessions. The results of the study showed a significant increase in the students’ scores on medical terms through team readiness assurance test (TRAT) as compared to individual readiness assurance test (IRAT) (P < 0.01). TBL group members outperformed those in the LBL group demonstrating that the paramedical students learned how to be collaborative and productive in the team process (P < 0.05). These findings suggest that the TBL intervention had a beneficial effect and was a successful strategy when learning medical terminology in the classroom for paramedical students. Thus, it can be concluded that TBL can complement a lecture-based learning approach.

In any US school, even in schools with strong commitments to equity, colleagues and administrators may make deficit-oriented, prejudiced, and/or problematic comments about students and families. These harmful comments are often fueled by white supremacy, cisheteropatriarchy, ableism, capitalism, etc., and we refer to them as politically charged scenarios or dilemmas. When politically charged situations arise, teachers and teacher candidates, or TCs, need to take action and advocate for students, especially for students of marginalized and minoritized backgrounds. Attention to politically charged dilemmas is especially timely with current events such as recent executive orders eliminating diversity, equity, and inclusion efforts, attempts to dismantle the United States Department of Education, and prior anti-Critical Race Theory attacks that push equity-minded teachers out of schools. This qualitative case study investigates white female elementary TCs’ understandings about the role of emotions when presented with politically charged dilemmas in their elementary mathematics methods course. The authors theorize emotional tools of creative insubordination, which emerged from the data as TCs described how they would respond to the various politically charged scenarios. Emotional tools of creative insubordination refer to actions that leverage emotions in order to advocate for students, especially those of marginalized backgrounds, such as regulating or de-escalating emotions, leveraging empathy, revealing emotions, and being comfortable being “called out” (or called in). The emotional tools of creative insubordination offer strategies for teachers and TCs to advocate for students’ learning and well-being to ultimately promote equity and justice in schools and society.

The gender achievement gap in higher STEM education is well documented as STEM course grades often show a bias favoring men, even when controlling for overall student achievements. The current work, which was preregistered prior to data collection, replicates and extends prior work to evaluate several possible contributors to the gender gap in advanced STEM courses. The contributing factors include students’ STEM-preparedness, learning assessment design, and students’ activity level in the course. We analyzed the data of a cohort of 315 undergraduate engineering students in a leading technological university in Israel. A mixed-effect model analysis revealed a gender gap in both high-stakes and low-stakes assessments of learning. We found that the gap first appears in lower-division undergraduate mathematics courses and remains steady through advanced STEM courses, with relatively little variance between different courses. We further found that students’ activity in the course’s learning management system is not associated with a gap reduction. The analysis suggests that the gender gap can be traced back, at least in part, to students’ STEM-preparedness when entering college. Notably, although the gap is traced prior to college, high-school grades likely show a ceiling effect and are thus not representative of the gap shown later in college. Therefore, it may be that other preparatory factors contribute to this gap, outside of or in addition to high-school performance.

Although students often acknowledge the importance of feedback, they generally struggle to engage with it and act upon it. Specific pedagogical factors, such as poorly structured feedback, unsuitable tone, and weak educator-student relationships, can impede effective utilisation of feedback. Students also exhibit varying degrees of comprehension, engagement, and action in response to feedback. Despite these observations, there is a lack of empirical studies systematically investigating diverse feedback experiences, practices, and action-taking behaviours of students. This paper addresses this gap by reporting on a study that aimed to explore students’ current feedback practices, self-reported action-taking behaviours, and perceived challenges related to students’ sensemaking and action-taking processes. A sample of 641 students from higher education was surveyed to investigate: (a) their feedback experiences, including practices, attitudes and beliefs; (b) variations in their motivations and emotional responses to feedback; and (c) variations in students’ perceived challenges in understanding and acting on feedback. The study employed 29 Likert scale items and latent class analysis (LCA) to identify four distinct classes of students based on their feedback experiences, aiming to uncover heterogeneity in their inclination to act upon feedback and challenges experienced in the feedback process. Additionally, thematic analysis of four open-ended questions captured a comprehensive understanding of their challenges, motivations, and emotional responses to feedback. The analysis revealed that students showed various levels of feedback experiences, engagement, and challenges in the feedback process across different classes. The paper concludes by highlighting the importance of self regulation skills and the social-affective component of a dialogic feedback process. This process can potentially be facilitated by technology-enhanced feedback tools, such as learning analytics (LA) tools.

In collaborative learning game environments where competition and collaboration coexist, conflicts among students are not uncommon. While conflicts of ideas and opinions are prevalent during collaborative learning, they are often perceived as elements to be avoided. One of the main concerns about conflict is its ability to trigger negative emotions, such as anger, which can compromise effective peer interaction, collaborative learning, and, in turn, diminish the quality of group discussions. However, this raises the question of whether anger always negatively affects collaborative learning. Most studies on negative emotions are related to test anxiety or boredom, while the impacts of emotions such as anger on learning are less explored. Especially within computer-supported collaborative learning (CSCL), there is limited research on how anger impacts students’ collaborative activities and learning. To address these issues, this paper aims to explore the potential relationship between anger and its impact on students’ collaborative discourse in a hybrid game-based simulation. Our findings suggest that anger has the potential to facilitate diverse and productive collaborative discussions. Students, driven by their anger, delved deeper into game mechanics, linked concepts to real-life situations, and employed various forms of logical reasoning to substantiate their opinions. However, the moment a student exhibited “tilting“ behavior, the quality of their collaborative discussions plummeted. Our findings provide important preliminary insights into the concept of “tilting” within immersive collaborative learning games and how it may manifest; they also offer guidance on the timing for educators’ intervention in collaborative discourse when anger arises among students.

Background: Online hate speech on social networks and the Internet is an increasingly pervasive phenomenon to which both children and adolescents are exposed. Objective: Our study’s main objective was to ascertain whether collective intelligence can improve their handling of hate speech. Methods: We conducted the study on the Collective Learning platform, comparing results between three groups of Spanish adolescents aged 15–16 years. The groups were of different sizes: one large group (G1, n = 123) and two smaller groups (G2, n = 18; G3, n = 23). Results: The experiment showed that the conditions for the emergence of collective intelligence were met within the large group (G1) but not in the two small groups (G2 and G3). The large group, as a collective, acquired capacities to deal with hate speech; however, this did not occur in the two smaller groups. Conclusions: Our study explains how the emergence of collective intelligence in online environments helps group members acquire a series of competencies. In particular, collective intelligence can help adolescents learn to deal with hate speech.

The increasing availability of multimodal sensing technologies has opened new avenues for studying human interactions. However, there remains a lack of systematic synthesis regarding which multimodal metrics are most predictive of productive collaborations. This study addresses this gap by conducting a systematic literature review of 163 studies published since 2000. Grounded in the theoretical framework of multimodal collaboration analytics (MMCA; Schneider et al., 2022), we examine how different data modalities—verbal, gaze, body, head, log, and physiological—are used to assess collaboration. Using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) framework (Liberati et al., 2009), we categorize studies on the basis of the types of collaborative indicators, the metrics extracted from multimodal data, and the methods used to establish relationships between them. We find several gaps, including an over-representation of lab-based studies with small sample sizes, reliance on simplistic individual or group synchrony metrics, and a lack of standard indicators for collaboration. We discuss related Grand Challenges for MMCA, including scaling up research through field-based studies, developing interpretable models that contribute to theory, computing sophisticated sensor-based metrics that better capture the temporal dynamics of interaction, and designing interventions that support collaboration using fine-grained, high frequency sensor data.

Collaborative learning deepens understanding by elaborating knowledge and facilitating memory-related information processing through interactions with others. In computer-supported collaborative learning (CSCL), mechanisms identified in collaborative learning are scaffolded through tools such as group awareness and scripted collaboration. While collaborative learning is considered effective, it remains unclear how older adults learn in collaborative environments using concept maps, and how cognitive decline may hinder their learning. Therefore, this study investigates differences between younger and older adults in collaborative learning with concept maps, focusing on learning performance, concept map performance, and the collaborative learning process. Learning performance was assessed using test scores, concept map performance through concept map evaluations as a tool for externalizing knowledge, and the collaborative process using the Interactive-Constructive-Active-Passive (ICAP) framework, which captures cognitive engagement. Results showed that younger adults had higher learning performance than older adults, while older adults showed no significant improvement, indicating a lack of learning gain. Similarly, younger adults outperformed older adults in concept map performance, and no improvement was observed in older adults for concept map scores. This suggests that older adults found it more difficult to elaborate knowledge, such as integrating new information. Regarding the collaborative learning process, younger adults were more likely to engage at the active, while older adults showed higher engagement at the constructive and interactive levels. Epistemic network analysis (ENA) revealed stronger connections between constructive and interactive behaviors in younger adults, and between active and interactive behaviors in older adults. These findings suggest that while younger adults progressively deepen their engagement during collaborative learning, older adults may require the reactivation of memory to engage in elaboration. These results offer insights into designing effective CSCL environments tailored to the learning needs of older adults.

Dialogic education is largely advocated as a means to promote dialogue and reduce polarization. Chatbots based on large language models (LLMs) carry the potential to scale dialogic education by serving as conversation partners and sustaining a dialogic space on various topics. They combine human-like conversational abilities with machine patience. To explore this potential, we fine-tuned an LLM-based chatbot, LlamaLo, using a corpus of productive discussions. We analyzed ten discussions with LlamaLo on contentious topics, such as liberalism and cultural appropriation. Our findings show that LlamaLo effectively opens dialogic spaces by questioning interlocutors’ assumptions, presenting alternative perspectives, and providing relevant knowledge. However, challenges, such as negative tone and bias, could undermine the dialogic space and should be addressed computationally and pedagogically. We conclude that dedicated LLM-based chatbots have the potential for enhancing dialogic education and enabling seamless scripting responsive to real-time needs.

Understanding how multiple dimensions of learning engagement co-develop during collaborative programming remains a critical challenge. Drawing on the four-dimensional engagement framework encompassing behavioral, cognitive, emotional, and social components, this study employs multimodal learning analytics (MMLA) to investigate the dynamic interplay among engagement dimensions, prior knowledge, and leadership type in a university-level collaborative programming course. Group-level ICAP (Interactive, Constructive, Active, Passive) modes were coded from multimodal interaction data, while learning engagement was assessed via integrated behavioral, cognitive, emotional, and social indicators. Findings reveal that prior knowledge supports individual task execution but contributes to collaborative engagement only under strong leadership. The three core dimensions of learning engagement—behavioral, cognitive, and social—were found to be significantly interrelated, reflecting a tightly coupled system of action, thinking, and peer interaction. In contrast, emotional engagement showed weak or inconsistent correlations with the other dimensions. Furthermore, interactive discourse fostered richer engagement and higher achievement, with group formation strategies moderating these effects through the interplay of prior knowledge and leadership type. While ICAP modes and overall learning engagement were strongly correlated—partly reflecting overlapping cognitive components—ICAP captured discourse patterns, whereas engagement scores aggregated multidimensional indicators across the task, suggesting complementary rather than redundant constructs. These findings advance engagement research by integrating discourse classification and multidimensional profiling, offering practical guidance on group formation, scaffolding, and real-time engagement monitoring to enhance collaborative programming pedagogy.

With the rapid development of emerging technologies in education, this research explored how children use teacher-, peer-, and technology-provided feedback together toward collective and embodied learning in a mixed-reality environment. In this study, we investigated how young children interact with feedback in a mixed-reality environment, Science through Technology Enhanced Play (STEP), a system that tracks students’ movement and turns their embodiments into characters on a shared screen. We used coding and interaction analysis to analyze data from three episodes from a curriculum about states of matter across two research sites. Our analysis demonstrated that as the curriculum progressed, children engaged with collective and blended feedback, i.e., input that leads to collective sense-making and liminal blending of multiple sources, in ways that enhanced collective agency over their inquiry. First, we focused on how children transitioned from individualized views of feedback to more collective views by blending multiple sources of feedback (from self, peers, teachers/researchers, and technology) to make sense of solid bonds. Second, we found that the children leveraged feedback from their peers, facilitators, and technology-provided representations to explore how the particles must behave collectively to form liquid bonds. Third, we saw how children engaged with feedback differently on the basis of their role (observing versus embodying) in an activity focused on making gas bonds. More than simply demonstrating the sophistication with which young children engage in collective inquiry-based learning through embodied and technology-enhanced play designs, our work also demonstrates how future learning environments with complex feedback structures (i.e., the coordination of multiple sources and multiple modalities by children working collaboratively) can be designed to support student inquiry and young children’s agency in blending feedback sources that they determine enhance their collective sense-making.

Hands-on laboratories are essential to acquire skills in education. However, they can be costly, lack flexibility, and do not allow one to do an unlimited number of experiments. Virtual and remote laboratories represent an interesting alternative to traditional hands-on lab sessions. On the other hand, fostering collaboration between learners and between learners and teachers is an important aspect to develop in these virtual and remote laboratories, as it enhances learning. This systematic literature review presents an extensive overview of previous research about fostering collaboration in educational virtual and remote laboratories. Results of this study show that communication and group awareness tools are generally well integrated into remote and virtual laboratories. These tools foster collaborative learning as they enable users to communicate, to be aware of the presence and the actions of the other members of the group and to share knowledge. However, tools for guiding and regulating collaboration are poorly integrated in the laboratories. These tools are yet useful to foster collaborative learning as they respectively give instructions to collaborate effectively and information about the state of collaboration to regulate it. This review also identified a minority of studies that assessed the quality of collaboration and learning in laboratories. Future research should put more emphasis in investigating guidance and regulation tools, as well as integrating studies to evaluate collaboration and learning in educational remote and virtual laboratories.