Sources

04.11.2025. Abenteuer Schüleraustausch? Wo soll es hin? Wie lang? Viele Jugendliche möchten eine Zeit im Ausland leben, dort eine Schule besuchen sowie Land und Leute kennenlernen. Sie möchten ihre Sprachkenntnisse perfektionieren, aber auch mehr Selbstständigkeit und Offenheit für Neues gewinnen. Doch es ist nicht immer ganz einfach, das Traumziel und dort die passende Schule zu finden. Schülerinnen, Schüler und ihre Eltern lädt MyStudyChoice zu zehn kostenlosen Live-Online-Veranstaltungen ein. Zu Gast sind per Video-Schaltung Beauftragte von Schulen und Schulbezirken aus Kanada, Australien und Neuseeland. Die einzelnen Zoom-Meetings dauern etwa 30 bis 40 Minuten. An zwei Tagen gibt es ein „Special“ mit Schulen aus Neuseeland. Anmeldung zu den Infoveranstaltungen auf der Homepage von MyStudyChoice erforderlich. Veranstalter: MyStudyChoice. Link: https://www.mystudychoice.de/veranstaltungen .

23.04.2026. Am 23. und 24. April findet der zweitägige Karrierekongress FEMWORX statt – ein inspirierendes Event für Frauen in der Industrie. Die Veranstaltung bietet zwei Tage voller mitreißender Geschichten und wertvoller Impulse und zählt zu den führenden Netzwerk- und Diskussionsformaten für Female Leadership im MINT-Bereich. Der Kongress richtet sich an Personen aus unterschiedlichen beruflichen Kontexten – von Berufseinsteiger*innen bis zu Fach- und Führungskräften anderer Branchen – und bietet vielseitige Einblicke in aktuelle Themen rund um Karriere und Gleichstellung in der Industrie. Mit bis zu 100 hochkarätigen Sprecher*innen aus verschiedenen Fachgebieten präsentiert die FEMWORX eine breite Vielfalt an Perspektiven und Expertise. Ergänzend zum Programm informieren zahlreiche ausstellende Unternehmen und Hochschulen über Karriereperspektiven, Studienmöglichkeiten, Coaching- und Mentoring-Angebote sowie über arbeitsmarktpolitische Trends und Entwicklungen. Veranstalter: Deutsche Messe AG, HANNOVER MESSE. Link: http://www.femworx-kongress.de/ .

10.11.2025. Lehrkräfte, die Fächer wie Mathematik, Biologie, Geschichte oder Physik unterrichten, stehen häufig vor der Herausforderung, auch Schüler*innen mit Deutsch als Zweitsprache aktiv und erfolgreich in den Unterricht einzubeziehen. Die praxisnahe Online-Fortbildung vermittelt Strategien, um sprachliche Hürden gezielt abzubauen und den Fachunterricht sprachsensibel zu gestalten. Sie bietet fundiertes Wissen, erprobte Methoden und Materialien zur Unterstützung aller Lernenden. Die Fortbildung findet flexibel und berufsbegleitend statt und ermöglicht den direkten Austausch mit Kolleg*innen. Grundlage ist die renommierte Reihe Deutsch Lehren Lernen® (DLL) des Goethe-Instituts. Weitere Informationen sind unter goethe.de/de/spr/unt/for/kur/kur/dfz.html. Veranstalter: Fortbildungszentrum des Goethe-Instituts. Link: https://www.goethe.de/de/spr/unt/for/kur/kur/dfz.html .

27.11.2025. Jugendliche und junge Erwachsene sind heute einer noch nie dagewesenen Informationsflut ausgesetzt und werden auf vielfältigen Kanälen rund um die Uhr mit Angeboten überschüttet. Dabei ist die Grenze zwischen Information und Manipulation oft fließend. Wie erreichen wir junge Menschen, um ihnen Orientierung im Verbraucheralltag zu geben und sie vor zunehmender Desinformation und Cyberkriminalität zu schützen? Welche Rolle spielen hierbei ehrenamtliche Institutionen, Verbände und Vereine und gibt es Unterschiede zwischen städtischen und ländlichen Räumen? Und wie verändert die digitale Lebenswelt die Präventionsarbeit mit jungen Leuten? Auf dieser Fachtagung im Rahmen des Projektabschlusses "Verbraucherschutz in ländlichen Regionen für junge Menschen" sollen gemeinsam mit den Teilnehmenden Antworten auf diese und weitere Fragen erörtert und diskutiert werden. Veranstalter: Verbraucherzentrale Bayern e.V. Projektteam "Verbraucherschutz in ländlichen Regionen für junge Menschen". Link: https://www.verbraucherzentrale.bayern/verbraucherzentrale/einladung-zur-fachtagung-am-27-november-2025-in-muenchen-107425 .

18.11.2025. Die Fachtagung „Das deutsche Ausbildungssystem stärken“ widmet sich der Frage, wie mehr junge Erwachsene erfolgreich in Ausbildung gebracht und zum Berufsabschluss geführt werden können. Vertreter:innen aus Bildungspraxis, Wirtschaft, Politik und Wissenschaft diskutieren Herausforderungen und Lösungsansätze zur Stärkung des Ausbildungssystems und zur Fachkräftesicherung. Veranstalter: DAA-Stiftung Bildung und Beruf. Link: https://www.daa-stiftung.de/bildungspolitik/veranstaltung-2025-das-deutsche-ausbildungssystem-staerken .

13.11.2025. Die diesjährige Preisträgerin Maja Nielsen wird von Donnerstag, 13. November, bis Samstag 15. November, in Buxtehude zu Gast sein. Drei Tage lang werden die BullenKULTurtage veranstaltet, dessen Höhepunkt: Die Preisverleihung für den Siegertitel „Der Tunnelbauer“ am Donnerstag, 13. November, ab 18.30 Uhr auf der Halepaghen-Bühne, Konopkastraße 5. Den mit 5.000 Euro dotierten Preis und die Stahlplastik in Form eines Bullen wird die Autorin persönlich entgegennehmen. Veranstalter: Hansestadt BuxtehudeJugendliteraturpreis Buxtehuder BulleFachgruppe für Kultur, Tourismus und MarketingBreite Straße 221614 Buxtehude. Link: https://www.buxtehuder-bulle.de/index.php/de/ .

17.11.2025. Ziel ist es, Hoffnung in Zeiten von Unsicherheit, Klimakrise, Kriegen und gesellschaftlicher Spaltung in konkretes Handeln zu übersetzen. Globale Bildung wird dabei als Schlüssel gesehen, um kritisches Denken, Verantwortungsbewusstsein und weltweite Solidarität zu fördern. Sie befähigt Menschen, globale Herausforderungen wie Frieden, soziale Gerechtigkeit, Umweltzerstörung und digitale Transformation aktiv zu gestalten und ihre Rechte sowie die Rechte anderer einzufordern. Das Jahresthema 2025 knüpft an die Agenda 2030 für nachhaltige Entwicklung an und umfasst deren fünf Kernbereiche:Menschen (People): Würde, Gleichheit, Teilhabe und Menschenrechte sichern.Planet: Klimakrise bewältigen, Umwelt schützen, nachhaltige Lebensweisen stärken.Wohlstand (Prosperity): Chancen durch Bildung, Innovation und digitale Teilhabe nutzen.Frieden (Peace): Konflikte überwinden, demokratische Beteiligung stärken, Polarisierung abbauen.Partnerschaften (Partnership): Zusammenarbeit und kulturellen Austausch fördern, um globale Lösungen gemeinsam voranzubringen. Veranstalter: World University Service (WUS). Link: https://wusgermany.de/de/globales-lernen/informationsstelle-bildungsauftrag-nord-sued/kampagnen/global-education-week .

20.11.2025. Der Lokale Aktionsplan Minden (LAP) wurde 2011 ins Leben gerufen, um lokale Bündnisse gegen Rechtsextremismus, Fremdenfeindlichkeit und Antisemitismus zu stärken. Seit dem 1. Januar 2015 steht das Motto "Demokratie leben!" in Minden für die aktive Beteiligung der Bürgerinnen und Bürger an einer Partnerschaft für Demokratie. In einmal jährlich stattfindenden Demokratiekonferenzen hat jeder im Rahmen des Bundesprogramms die Gelegenheit über Chancen und Herausforderungen sowie über die künftige Arbeit des Lokalen Aktionsplanes (jetzt Partnerschaft für Demokratie Minden) mitzudiskutieren.  Veranstalter: LAP Lokaler Aktionsplan Minden. Link: https://www.minden.de/kalender/2025-11-20-demokratiekonferenz-2025/43444%3A0 .

18.11.2025. Gemeinsam mit der STIFTUNG für BÄREN – Wildtier- und Artenschutz nimmt das Bildungsnetzwerk von PETAKids in der „digitalen Sprechstunde“ im November das Thema außerschulische Lernorte in den Fokus. Noch immer sind Zoos und Tierparks ein gängiges Ziel für Ausflüge mit Kindern – dabei bleibt leider meist die tierethische Perspektive außen vor und das Leid der Tiere in Gefangenschaft im Verborgenen. In der Sprechstunde wird die Frage erörtert, welchen Einfluss die Wahl von außerschulischen Lernorten auf die Werteentwicklung von Kindern hat und welche tiergerechten Lernorte es gibt, um Kinder für den Tierschutz zu begeistern. In einem Impulsvortrag aus der pädagogischen Praxis teilt Leona Köver, Teamleitung Pädagogik des Alternativen Bärenparks Worbis, Ideen und Erfahrungen aus der Bildungsarbeit dieses Schutzzentrums und stellt den außerschulischen Lernort vor. Im Anschluss an den Vortrag sind die Teilnehmenden zum gemeinsamen Austausch zu diesem Thema eingeladen. Anmeldungen sind bis zum 16. November per E-Mail mit dem Betreff „Sprechstunde Datum“ an info@petakids.de möglich. Veranstalter: PETA Deutschland e.V. PETAKids. Link: https://bildungsportal.peta.de/veranstaltungen-tierethik/ .

03.11.2025. In den Aktionswochen vom 03.11. bis 14.11.2025 wird beleuchtet, welche Rolle das Thema Future Skills in der Elementarbildung und an Schulen spielt oder spielen sollte. In der beruflichen Bildung und Erwachsenenbildung liegt der Fokus auf der Qualifizierung für den Arbeitsmarkt sowie auf der Befähigung des Einzelnen, Future Skills im Alltag anzuwenden und den Herausforderungen einer sich wandelnden Arbeits- und Lebenswelt zu begegnen. Auch in den Bereichen Hochschulbildung, Bildungsforschung und Bildung weltweit werden zentrale Aspekte von Future Skills untersucht und diskutiert. Darüber hinaus wird ein kritischer Blick auf den aktuellen Hype um Future Skills geworfen. Beiträge gehen unter anderem auf die Entwicklungsgeschichte des Begriffs ein und hinterfragen die derzeitige Verwendung. Die inhaltliche Bandbreite des Themas spiegelt sich in der Auswahl der virtuellen Veranstaltungen wider, die während der Aktionswochen stattfinden. Die Veranstaltungen sind kostenlos und frei zugänglich. Veranstalter: Deutscher Bildungsserver am DIPF | Leibniz-Institut für Bildungsforschung und Bildungsinformation. Link: https://www.bildungsserver.de/ueber-uns/aktionswochen-und-vortragsreihe-zu-future-skills-03.-14.11.2025-13203-de.html .

26.11.2025. Die ORCA.nrw-Tagung 2025 findet an derRuhr-Universität Bochum unter dem Motto „Hochschullehre inspirierend und verbindend“ statt und bringt  Lehrende, Hochschulmitarbeitende und Interessierte zusammen, um Erfahrungen auszutauschen und die Weiterentwicklung der Hochschullehre in NRW zu diskutieren. Ein besonderer Fokus liegt in diesem Jahr auf dem Thema Future Skills – welche Kompetenzen Studierende für eine sich wandelnde Welt benötigen und wie Hochschulen diese gezielt fördern können. Veranstalter: ORCA.nrw (Open Resources Campus NRW) . Link: https://www.orca.nrw/vernetzung/veranstaltungen/orca-tagung/ .

26.11.2025. Wir halten den Atem an, staunen, schauen ungläubig, schütteln den Kopf, resignieren. So oder so ähnlich begegnen wir den uns unwohl kalt umspülenden veritablen Krisen und Bedrohungslagen. Belastungen Stand zu halten, schwierige Situationen konstruktiv zu bewältigen und diese im besten Fall als Anstoß für Weiterentwicklungen nutzen zu können: Das sind dann auch Herausforderungen und Fähigkeiten, denen sich gleichsam Individuen, Teams, Organisationen und Gesellschaften stellen und aneignen müssen, was im positiven Sinne wohl so viel heißt, Resilienz, Widerstandskraft aufzubauen und diese zu erhalten. Entsprechend werden im Rahmen der Tagung unterschiedliche Ebenen in den Blickwinkel genommen und folgende Leitfragen adressiert:Welche Schlüsselkompetenzen werden in den Bereichen Kommunikation, Selbststeuerung, Kooperation, gesellschaftliche Verantwortung insbesondere in Krisenzeiten benötigt?Inwiefern verstärkt Kommunikation über die Krise das Erleben der Krise und mit welchen Mitteln kann relativiert und entschärft werden?Welche Aspekte der Kooperation wirken dysfunktional und befeuern Krisen – und welche Lösungen gibt es?Welche Demokratiekompetenzen sind erforderlich, damit wir unsere Verantwortung als Bürger:innen wahrnehmen können?Auf welche Weise können Bildungseinrichtungen wie Universitäten und Hochschulen die Entwicklung von Resilienz bei Studierenden vorantreiben? Veranstalter:  Gesellschaft für Schlüsselkompetenzen in Lehre, Forschung und Praxis e.V.. Link: https://gfsk.org/jahrestagung-2025/ .

25.11.2025. Am 25. November 2025 findet der „hAIgher Education Day: Künstliche Intelligenz in Lehre und Studium“ in hybrider Form am Karlsruher Institut für Technologie (KIT) statt.Die Tagung bietet Fachvorträge, praxisnahe Workshops und eine Podiumsdiskussion zu mediendiaktischen, infrastrukturellen, rechtlichen und strategischen Fragen des Einsatzes von KI in Lehre und Lernen. Zudem gibt es Raum für Erfahrungsaustausch und Vernetzung zwischen Vertretungen von Hochschulleitungen, Lehrenden, Mitarbeitenden lehrunterstützender Einrichtungen und Studierenden. Veranstalter: Hochschulnetzwerk Digitalisierung der Lehre Baden-Württemberg (HND-BW) in Kooperation mit dem Hochschuldidaktikzentrum Baden-Württemberg (HDZ). Link: https://www.hnd-bw.de/termine/haigher-education-day/ .

07.11.2025. Wie kann KI im Sprachunterricht sinnvoll eingesetzt werden – jenseits von Hype und Technikangst? Dieser Frage widmet sich der Online-Workshop der Fortbildungsreihe „Künstliche Intelligenz in der Hochschullehre (FO>KI)”. Der Fokus liegt dabei auf realistischen Anwendungsbeispielen, verständlichen Workflows und konkreten Tipps zur Arbeit mit KI. Zu den Programmpunkten gehören eine Live-Demo eines KI-gestützten Englischunterrichts, Systemdesign mit ChatGPT und Co., die Generierung personalisierter Lernpfade, Prompt-Engineering und vieles mehr. Veranstalter: Hochschulnetzwerk Digitalisierung der Lehre Baden-Württemberg (HND-NW) in Kooperation mit dem Zentrum für Mediales Lernen (ZML) am Karlsruher Institut für Technologie (KIT). Link: https://www.hnd-bw.de/termine/workshop-vom-sprachcoach-zum-coaching-system-wie-ki-automatisierung-die-lehre-personalisieren/ .

06.11.2025. Die Entwicklungen der letzten Jahre zeigen deutlich, dass künstliche Intelligenz alle Hochschulbereiche, insbesondere die Lehre und die Erstellung von Lernmaterialien, verändert. Seitdem es mit wenigen Prompts möglich ist, Lehr- und Lernmaterialien zu erstellen, ergeben sich verschiedene Fragestellungen nach den Auswirkungen dieser Entwicklung auf OER:Werden Lehr- und Lernmaterialien zukünftig vornehmlich durch generative KI-Tools generiert?Sind OER-Repositories in diesem Fall langfristig noch die richtigen Orte zur Ablage dieser gemeinfreien Inhalte oder werden dafür vermehrt offene LMS genutzt?Welchen Beitrag können OER und entsprechende Repositories zukünftig noch für eine offene Bildung leisten?Wie kann der Einsatz von KI die Entwicklung und Verbreitung von OER befördern?Diesen und weiteren Fragen will die Schulung in drei verschiedenen Lightning Talks auf den Grund gehen.  Veranstalter: Multimedia Kontor Hamburg und das OER-Portal twillo. Link: https://www.mmkh.de/digitale-lehre/oer-und-knoer/oer-im-zeitalter-von-ki .

25.11.2025. Die Digitalisierung verändert unsere Gesellschaft – und auch das Älterwerden. Von der Gesundheitsvorsorge über alltagsunterstützende Technologien bis hin zu neuen Formen der Kommunikation: Künstliche Intelligenz (KI) eröffnet Chancen, stellt aber auch Fragen. Diese Fachveranstaltung bietet wissenschaftliche Perspektiven ebenso wie praxisnahe Einblicke, wie KI in der Geragogik und im Alltag älterer Menschen genutzt werden kann. Themenschwerpunkte der Fachveranstaltung sind:spannende Einblicke in die Geragogikaktueller Studien der Digitalisierung im Alteraus der Praxis für die Praxis - medienpädagogische Projekte stellen sich kurz vor Veranstalter: Mit Medien e.V.Bildung | Beratung | Erlebnisraum. Link: https://eveeno.com/digitalisierung-und-ki-im-altern .

02.12.2025. In Fortbildungen und Seminaren kann die Interaktion mit Teilnehmenden schnell komplex werden – eine ursprünglich geplante Lehrsituation kann sich unerwartet in eine Beratungssituation verwandeln. Fachkräfte in der Erwachsenenbildung bewegen sich häufig in unterschiedlichen Settings, die jederzeit einen Wechsel von Lehren zu Beraten erfordern können. Das Seminar beleuchtet die Bedingungen für gelingende Beratungsgespräche und stellt verschiedene Beratungsformen vor. Es wird vermittelt, wie der Übergang von der Lehr- zur Beratungssituation gestaltet werden kann und welche Veränderungen dies für die eigene Rolle bedeutet. Darüber hinaus werden Gesprächsverläufe und mögliche Interventionen praxisnah erprobt. Veranstalter: Landesinstitut Brandenburg für Schule und Lehrkräftebildung (LIBRA) Struveweg 1, 14974 Ludwigsfelde. Link: https://bildungsserver.berlin-brandenburg.de/fileadmin/bbb/Lebenslanges_Lernen/Weiterbildungsportal/fortbildung_fuer_beschaeftigte_in_der_weiterbildung/angebote_LISUM/2025-2026/Beratung_Ankuendigung-Weiterbildung.pdf .

16.10.2025. In diesem Online-Seminar wird die Produktdatenbank Alphabetisierung und Grundbildung (PAG) vorgestellt. Die PAG ist ein vom Bundesministerium für Bildung und Forschung (BMBF) im Rahmen der Nationalen Dekade für Alphabetisierung und Grundbildung (AlphaDekade) gefördertes Projekt. Sie dient als zentrale Plattform für Lehr- und Lernmaterialien im Bereich Alphabetisierung und Grundbildung. Derzeit sind dort rund 1.500 Produkte verzeichnet, wobei das Angebot an offenen Bildungsmaterialien kontinuierlich erweitert wird. Das Seminar vermittelt, wie die PAG als Recherche- und Arbeitsumgebung für Bildungsmaterialien genutzt werden kann. Zudem werden die Bedeutung von Open Educational Resources (OER) im Kontext der PAG sowie der Einsatz von Creative-Commons-lizenzierten Materialien erläutert. Ziel ist es, die verschiedenen Such- und Nutzungsmöglichkeiten der Datenbank kennenzulernen und einen umfassenden Überblick über deren Inhalte zu erhalten, um die eigene Arbeit in der Alphabetisierung und Grundbildung effizienter zu gestalten. Veranstalter: Landesinstitut Brandenburg für Schule und Lehrkräftebildung (LIBRA) Struveweg 1, 14974 Ludwigsfelde. Link: https://bildungsserver.berlin-brandenburg.de/fileadmin/bbb/Lebenslanges_Lernen/Weiterbildungsportal/fortbildung_fuer_beschaeftigte_in_der_weiterbildung/angebote_LISUM/2025-2026/25_10_16-PAG.pdf .

22.11.2025. In der Academy werden Teilnehmende in einem zweitägigen Programm zu sogenannten Peers ausgebildet. Im Anschluss an die Academy sind sie mit dem erworbenen Wissen und ihren Erfahrungen in der Lage, eigenständig Aufklärungs-Workshops durchzuführen. Als Peer-Spezialist:innen können sie das Thema sexuelle Aufklärung an ihrer Schule aktiv voranbringen und so zur Sensibilisierung der gesamten Schulgemeinschaft beitragen. Weitere Informationen sowie das Anmeldeformular sind auf der Landingpage zu finden. Veranstalter: Lernen mit FAQ YOU - F/A/Q Health Foundation e.V.. Link: https://lernen.faq.health .

07.11.2025. Heterogene Lerngruppen stellen eine Herausforderung dar, bieten jedoch zugleich wertvolle Chancen. Der Kurs zeigt Ansätze auf, wie Erwachsene mit unterschiedlichen Sprachkenntnissen und Deutsch-Muttersprachler:innen beim Lesen- und Schreibenlernen gemeinsam begleitet werden können. Dabei wird vermittelt, wie sich die Ergebnisse von Schriftsprachtests auswerten lassen, um individuelle Bedarfe zu erkennen und darauf abgestimmte Übungen für heterogene Gruppen zu entwickeln. Darüber hinaus werden gemeinsam Lösungsansätze für herausfordernde Kurssituationen erarbeitet und praxisnahe Strategien für die Unterrichtsgestaltung vorgestellt. Veranstalter: Landesinstitut Brandenburg für Schule und Lehrkräftebildung (LIBRA) Struveweg 1, 14974 Ludwigsfelde. Link: https://bildungsserver.berlin-brandenburg.de/fileadmin/bbb/Lebenslanges_Lernen/Weiterbildungsportal/fortbildung_fuer_beschaeftigte_in_der_weiterbildung/angebote_LISUM/2025-2026/25_11_07_Ankuendigung_SprachlVielfalt.pdf .

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.

The presence of on-screen instructors in educational videos, as well as the contextual conditions surrounding their use, constitutes a critical aspect of instructional video design. Variables such as the type of instructor – whether a human presenter or a pedagogical agent – and the characteristics of the knowledge type affect learning outcomes. However, the literature remains inconclusive regarding how the presence and presentation style of on-screen instructors influence learning outcomes across different knowledge types. Therefore, this study investigates the impact of an instructor’s presence in educational videos on learning outcomes, mental effort, and visual attention allocation, with a focus on the knowledge domain. A three-by-two between-subjects factorial design was employed, with video type (no on-screen instructor, human instructor, animated pedagogical agent) and knowledge type (declarative, procedural) as the independent variables. A total of 160 university students participated in the study. Results indicated that instructor presence influenced retention and visual attention allocation depending on the knowledge domain. Procedural knowledge videos led to higher transfer scores and mental effort than declarative ones. Importantly, however, the presence of an on-screen instructor – whether human or a pedagogical agent – did not produce differences in mental effort or learning transfer. Both human and animated pedagogical agent drew learners’ visual attention, potentially dividing it between the instructor and the learning content, whereas videos without instructors directed visual attention more exclusively toward the content itself. These findings highlight the importance of knowledge type in determining the effectiveness of on-screen instructors, suggesting pedagogical agents as viable alternatives to human instructors.

This paper details the design and development of MathFlowLens, a visualization tool that illustrates students’ procedural pathways in algebraic problem solving and provides valuable insights into various mathematical strategies they use. MathFlowLens was built using the middle-school student (N = 1,649) log data from a gamified learning platform, From Here To There! (FH2T), and was developed in two phases. First, by using pathfinding algorithms, we identified four distinct types of students problem solving pathways in the platform: optimal, suboptimal, dead-end, and incomplete pathways. Second, we created sequential network visualizations based on the identified classifications to present these distinct procedural pathways. Furthermore, we tested the applicability of this tool by examining the relations between the identified classifications and students’ performance on a posttest assessing three facets of algebraic knowledge: conceptual knowledge, procedural knowledge, and procedural flexibility. To examine the relations with algebraic knowledge, we focused on the subset of students who completed both the pre- and post-test (N = 778). The results indicated that students who took dead-end pathways more frequently, which we posited as exploratory behavior, had higher conceptual and procedural knowledge scores than those who did not. This finding highlights the importance of fostering the exploration of multiple procedural pathways, regardless of failure, to bolster the acquisition of algebraic knowledge. This study demonstrates that MathFlowLens, a novel method for visualizing students’ solution pathways, can provide valuable insights into their solution strategies and mathematical problem solving processes.

Despite the potential benefits offered by GenAI technologies to provide innovative solutions to address distinct challenges faced by working adult learners (ALs) in higher education and beyond, there is limited understanding of how best to structure AI-powered learning for this population while ensuring their distinct needs and perspectives are considered. Hence, this study aimed to determine what curriculum and student-AI interaction would be required by situating ALs’ views. Through analyzing 48 e-portfolios and in-depth interviews with 20 ALs from diverse educational and professional backgrounds, the study found that ALs perceived content mastery and developing a lifelong habit of learning as the optimal learning goals for AI-powered learning. AI-powered learning can be facilitated through personalized mastery-based learning and collaborative performance-based tasks, in tandem with scenario-based assessment, unobtrusive gamified assessment, and competency-based assessment. Along this line, AL articulated various necessary supports to foster AL-AI interactions. While AL identified metacognition and developing diverse and high-quality questions as crucial to support AL-AI cognitive interaction, they also highlighted that building ethical AL-AI relationships is important for enhancing AL-AI socio-emotional interaction. In addition, AL perceived immersive game-based platforms and interactive interfaces could serve as effective mediums for enhancing student-AI interactions. These findings can provide a more comprehensive understanding of AI-powered adult learning and implications for the design of educational AI, as well as instructional design to improve the educational experience for ALs.

This study explores the interactive characteristics of learning objects used in online courses and design intent of instructional designers. The study adopts the "Window of Interaction" (WoI) framework, drawnfrom Human–Computer Interaction (HCI), to critically examine the interactive characteristics of learning objects in the context of the designers’ intent and learning goals. This study provides research-based evidence to document: (1) the interactive characteristics of learning objects used in online courses; (2) designers’ intent and its manifestation in the learning objects they have designed; and (3) the connection between learning goals and the interactive characteristics of learning objects. The application of the WoI framework allowed us to identify the link between the interactive features of the design objects and the design intent guided by specific learning goals. With more advanced technologies, such as various AI-driven tools, the analysis of interactive features of technologies and learning objects becomes critical for designing more intentional learning experiences.

Computational Thinking (CT) capabilities are crucial for students’ future development. As a pivotal mode of thought, CT extends beyond mere programming skills, representing a methodology and strategy for problem-solving that empowers students to address complex challenges across diverse domains. In this context, this study aims to investigate the impact of a teaching strategy combining Project-Based Learning with Pair Programming Instructional Strategy (PBL-PPIS) on high school students’ CT capabilities and metacognitive skills. Conducted in a public high school in H City, Central China, this quasi-experimental design spanned one academic term and involved 90 first-year high school students aged 14 to 16. These students were divided into an experimental group and a control group, with the former utilizing the PBL-PPIS strategy and the latter adhering to conventional Project-Based Learning methods (PBL). To comprehensively assess the impact, this study utilized specialized scales for Computational Thinking and metacognitive abilities, and employed detailed analyses through paired sample t-tests and univariate ANCOVA. Through pre- and post-experiment surveys, we analyzed and compared the performance differences in CT and metacognitive skills between the two groups. The findings indicate significant enhancements in the experimental group across the five core competencies of Computational Thinking (Creativity, Algorithmic Thinking, Cooperativity, Critical Thinking, Problem Solving) and in their metacognitive abilities (planning, monitoring, evaluating). These results validate the effectiveness of the PBL-PPIS strategy in integrating the advantages of project-based learning and pair programming, underscoring its significant role in enhancing students’ CT and metacognitive abilities. This study contributes novel insights to the field of educational practice, offering fresh inspiration and direction for educators in designing and implementing programming education strategies.

The purpose of this study was to examine the effects and predictive power of the Diagnostic Assessment and Achievement of College Skills (DAACS) on student success. DAACS is an open-source diagnostic assessment tool designed to measure newly enrolled college students’ reading, writing, mathematics, and self-regulated learning skills, and to provide individualized feedback and learning resources that students can use to become better prepared for college. A randomized control trial was performed at two online colleges (n = 23,467) to test the effects of DAACS on credit acquisition and retention. The results indicate an overall null effect of treatment, but post hoc analyses reveal two important findings: 1) Students who not only received the assessment results but also accessed the feedback were significantly more likely to earn credits and be retained for a second term than students who only accessed the assessment results; 2) some students who only accessed the assessment results without reading the feedback, particularly those with low scores on the assessments, low self-efficacy, or high test anxiety, had worse outcomes than the control group. We speculate that feedback mitigates the potentially negative effects of testing on student success. In addition, an examination of the predictive power of DAACS indicated that DAACS data significantly strengthen predictions of academic outcomes.

The education sector is undergoing a rapid digital transformation, accelerated by the challenges posed by COVID-19. The pandemic has disrupted traditional teaching methods that prompt teachers to explore new approaches, such as the use of serious games, to keep learners engaged and learning. Serious games have proved to be an effective solution for bridging the gaps in distance learning and meeting the expectations of the new generation of learners. However, there are still obstacles to their adoption and implementation, particularly with teachers who have difficulty selecting games that suit the specific needs of their students. This paper presents the results of a study aimed at designing and developing a tool to help teachers better understand serious games, their components, and how they work, in order to integrate them effectively into their teaching practices. For this study, we used an approach that combines the unified version of the adoption and use of technologies (Venkatesh et al., 2003), the Jakob Nielsen System Acceptability Model (Nielsen, 1994b), and the analysis method of structure, interface, and use (Bouroumane et al., 2022). We tested our tool through two studies. One assessed its use in a real context, and the other utilized a questionnaire to evaluate its usefulness, usability, and acceptability. According to 80% of users, this tool is extremely useful for understanding the pedagogical dimensions of serious games, which can significantly and positively impact their adoption in education.

Computer programming is an essential, cross-disciplinary skill relevant to learners beyond merely computer scientists. This paper introduces parallel courseware, a novel approach to courseware design that contributes to adaptable learning in introductory programming education. Adaptability is achieved through the implementation of parallel, aligned courseware versions, designed along key customization dimensions, such as programming language and application domain, resulting in numerous courseware permutations to meet diverse student needs. These versions are delivered through LearnCoding, an online platform that enables seamless switching between permutations while maintaining a consistent structure and layout, thereby supporting personalized learning, facilitating comparative exploration of content, and enhancing skill transfer across contexts. The paper also reports findings from a study conducted over two offerings of a first-year programming course, exploring the impact of the proposed approach on students’ understanding of and interest in the learning material. Results indicate a positive student experience, suggesting promising implications for the design of adaptable courseware and the development of flexible e-learning platforms.

Generalist primary school computer science (CS) teachers are often reluctant to introduce CS activities that go beyond CS unplugged tasks. To address this challenge, we drew from constructive alignment principles to implement a new programming modality for primary school: the handwriting programming language (HPL). HPL brings programming activities closer to existing teaching practices by enabling students to write instructions on paper, take a picture, and have an agent execute them. HPL’s applicability in classrooms was investigated in two stages. First, 49 primary school teachers evaluated two alternative programming modalities—HPL and an equivalent paper-based Tangible Programming Language—using the technology acceptance model (TAM). As teachers preferred HPL, we then conducted a 3-session quasi-experimental study with 143 public school students (aged 9–10) to compare HPL’s acceptance (with the TAM) and learning outcomes (with a validated test) to the established Scratch programming language. The findings indicate that: (i) over 80% of teachers were willing to use HPL to teach CS in class, irrespective of gender or prior experience; (ii) HPL-students exhibited less trial-and-error behaviour than Scratch-students (fewer attempts, more time between attempts); (iii) students perceived HPL as positively as Scratch; (iv) HPL-students learned as much as Scratch-students. In conclusion, HPL is an accessible, accepted, and pedagogically meaningful means of teaching CS that is as efficient as Scratch to teach CS in primary school. HPL’s efficiency and acceptance by teachers and students suggests that handwriting-based programming languages may help shift primary school CS teaching practices, and make CS education more widespread, bringing us closer to CS for all.

The reading ability of hearing-impaired students is essential for their participation in mainstream society. However, previous studies have shown that they may encounter obstacles due to a lack of interest or limitations in reading communication systems. Augmented reality (AR) has been noted to provide immersive learning environments, collaborative assistance, and in-time resources for improving reading experience and motivation. While previous studies have developed mobile reading environments tailored for hearing-impaired students, the incorporation of pedagogical approaches within immersive AR reading environments remains unexplored. Accordingly, this study investigated the effects of immersive AR environments on hearing-impaired students’ reading with a quasi-experiment. Sixty-five hearing-impaired students’ reading achievement, perceptions, and behaviours were analysed with one-way analysis of covariance and lag sequential analysis. The result indicated that the immersive AR learning environment incorporating the DEEP reading strategy (i.e., Developing self-regulated reading, Experimental exploration, Express and creative construction, and Pluralism) improved hearing-impaired students’ reading achievement, perceptions, and behaviours. Students with the immersive AR reading strategy exhibited more interactive-oriented behaviours and high levels of cognitive attainment (e.g., experiential exploration, creative construction, and problem-solving). This study contributed to existing hearing-impaired teaching practices by revealing what essential behaviour teachers should consider and how to design an immersive AR learning environment.

The generalization of the cognitive theory of multimedia learning to immersive virtual reality (IVR) learning contexts has been increasingly examined; for example, there has been an exploration of redundancy effects on science learning using IVR technology. However, studies on how well multimedia principles such as redundancy work in IVR learning with humanities-related content has been limited. This work therefore aimed to explore the redundancy effects of immersive virtual literary reading on students’ humanities learning by evaluating their empathy, cognitive load, and reading comprehension with consideration of the moderating effects of their learning backgrounds. A between-subjects design with two modes of presentation format (auditory narrative only vs. auditory narrative and on-screen text) involved 70 higher education students who were randomly assigned to two groups, with 35 students in each condition. Results showed that the students’ learning background moderated their perceived empathy but not their cognitive load and reading performance when reading redundant virtual information. Redundancy design of instructional content in IVR learning environments was verified as reducing cognitive load. Moreover, reading an immersive virtual literary novel with redundant information design was likely not detrimental to the students’ higher-level reading comprehension performance, but this was not the case for their lower-level reading comprehension.

AI literacy is becoming increasingly popular in education, yet there has been limited focus on reviewing empirical research on AI literacy assessment. The purpose of this study was to synthesize existing empirical studies on AI literacy assessment, with the aim to understand how AI literacy has been assessed and to inform future AI literacy assessment development. This scoping review evaluates and synthesizes 36 studies on AI literacy assessment published between 2019 and 2024, involving assessment tools, forms of assessment, and reliability and validity evidence related to AI literacy assessment. The review proposes four aspects (i.e., knowledge of AI, AI ethics, affect towards AI, and use of AI) for assessing AI literacy. The results showed that (1) most research focused on assessing primary and secondary school students’ AI literacy; (2) most studies used questionnaires, followed by surveys; (3) most studies used computer-based tests, followed by paper-based tests; (4) most studies assessed participants’ AI knowledge, followed by AI ethics; and (5) only a few studies reported evidence of the reliability and effectiveness of their assessments. Based on the reviewed literature, this study develops an AI literacy framework for people of all ages and from all countries. The findings and directions for future research are also discussed.

There is a growing global interest in the inclusion of coding as early as preschool. However, most coding languages involve reading and writing, leaving non-writing children deprived of the opportunity to develop any kind of coding proficiency. Moreover, many preschool teachers lack the knowledge and self-efficacy necessary for teaching coding. This case study examines the subjective experiences of preschool teachers with no early coding knowledge in implementing the ScratchJr-based Coding as Another Language (CAL) curriculum. Following a four-hour professional development session, two preschool teachers taught coding to 26 children (M = 5.72, SD = 0.33) using the CAL curriculum over seven months. Thematic analysis of semi-structured interviews with teachers identified eight key themes, including initial CS-resistance to coding, pedagogical and cultural curriculum adjustments, overcoming resistance, learning with and from children, enhanced teacherstudent relationship, inter-syllabi learning opportunities, coding-driven community partnership, and potential for self-expression. Quantitative results showed significant improvement in children’s coding knowledge, positioning most at the Fluency stage of CAL proficiency. Results highlighted the effectiveness of the CAL curriculum in building teachers’ coding self-efficacy, despite its relatively brief duration. They further emphasize the importance of curriculum adaptability to diverse educational contexts. These findings support overcoming technology integration barriers in early childhood education. Additionally, the study suggests using coding as a tool for creative self-expression, highlighting its potential beyond technical skill-building. This direction may be further explored to promote emotional and personal growth in both teachers and children, contributing to individual well-being improvement while supporting the integration of STEM-related subject learning in formal curricula.

Digital distraction in education describes the interruption of learner’s concentration during academic tasks. With the increase in digital learning, there is a need for a review to synthesize research on digital distraction. This systematic review examined 26 articles using the DISCAR process (design, inclusion/exclusion, searching and screening, coding, analyzing/synthesizing, reporting) and was guided by the Technology-Personal-Environment (TPE) framework. The review examined causes and consequences, and strategies to prevent/reduce digital distraction. Measures used, modalities studied, and devices used in digital distraction research were also synthesized. Causes for digital distraction were technology distractors (51.95%), personal needs (37.66%), and instructional environment (10.39%) factors. Consequences for digital distraction included personal performance issues (66.67%), ineffective classroom instruction (23.33%), and problematic technology use (10%). Prevention strategies included classroom environment regulations (41.03%), technology controls (30.77%), and personal behavioral interventions (28.21%). The findings have implications for instructors, students, administrators, instructional designers and researchers. This systematic review adopted a multi-faceted approach to effectively mitigate digital distractions.

Good teaching requires a professional vision of the relevant dimensions of teaching quality and their interrelationships. For example, classroom management is necessary but insufficient for providing effective instructional support. Thus, teacher education should foster a multiperspective professional vision of these dimensions of teaching quality as a basis for implementing appropriate teaching actions. Research shows that professional vision can be promoted when preservice teachers analyze classroom videos. However, acquiring a multiperspective professional vision is more complex than a single perspective. Furthermore, preservice teachers have different entry levels and developmental trajectories. Individual learning requirements and the more complicated task demands can potentially be met through virtual learning environments and additional support tools implemented during video analysis. We used a video-based assessment with an open response format and investigated (1) the effect of a video-based virtual learning environment on promoting multiperspective professional vision in elementary science education and (2) the effect of additional support tools (modeling videos and prompts) implemented during video analysis. A quasi-experimental pre-post-follow-up study with 145 preservice teachers showed that a basic virtual learning environment improved participants’ multiperspective professional vision compared to an untreated control group in the short and long term. The additional support tools in the enriched virtual learning environment did increase preservice teachers’ performance even more while training professional vision but not in the post- and follow-up tests. Therefore, teacher education programs should consider the benefits of video-based virtual learning environments for an individualized promotion of professional vision. Further research on effective digital support tools is needed.

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.

This study examines the impact of incorporating cloze tests during pauses in classroom instruction as retrieval practice activities, using Audience Response Systems (ARS) for delivery. While ARSs traditionally rely on multiple-choice questions, cloze tests offer a potentially efficient alternative that aligns with retrieval practice principles. Two experiments were conducted to evaluate the efficacy of inserting computer-administered cloze tests during pauses in classroom slideshow lessons using an application called i-cloze. Experiment 1 involved 82 fifth-grade students learning history, and Experiment 2 involved 95 tenth-grade students in English as a Foreign Language (EFL) lessons. Results from Experiment 1 showed no significant benefits of the i-cloze method, likely due to cognitive overload imposed by the content design, the i-cloze tasks, and limited familiarity with the technology. Experiment 2 demonstrated significant improvements in memory and partial improvements in comprehension for students in the i-cloze condition. These findings suggest that cloze-based retrieval practice, when appropriately aligned with lesson content and student readiness, holds promise as an innovative ARS format. EFL contexts may be especially well suited for this approach. Future research should explore how task complexity, content type, and technological familiarity influence the effectiveness of the i-cloze method in diverse educational settings.

In the pursuit of inclusive classrooms, educators have identified the importance of teachers’ responsiveness to the particular students they teach. To date, research on responsive teaching has emphasized students’ subjectivities. In this study, we use a situative perspective on teacher learning to examine teachers’ subjectivities as they learn and sustain responsive instructional practice. Using fieldnotes, video, and interviews from two critical events, we analyze what happened when teachers encountered students who challenged something core to their visions of teaching, asking, how do contextual resources shape teachers’ responsiveness to students in challenging teaching situations? Through the case analysis, we show that contextual resources shape teachers’ agentic responses in challenging teaching situations, offering different possibilities for their epistemic and relational agency, which, in turn, shapes their interpretations of student behavior. We highlight the emotional labor involved in maintaining responsive teaching, particularly in challenging situations. This paper underscores how teachers’ capacity for responsive instruction can be amplified or reduced by the complex systems and multiple relationships in their schools.

Learning and relational goals are inherently intertwined in collaborative teacher learning. However, they present tensions that facilitators of professional development (PD) groups need to navigate. Scholars increasingly advocate for problem-based, collaborative teacher learning and highlight the central role that emotions play in teacher learning. However, scarce research has examined how facilitators manage emotion display in PD settings, navigating between relational and learning goals. This ethnographic study explores how facilitators respond to teachers' emotional displays and how their responses serve either or both relational and learning goals. We analyzed a case study of a video-recorded problem-based PD program for elementary and middle school science teachers. We used linguistic ethnographic microanalysis to identify seven facilitation strategies and mapped them onto two continuums: (1) recognizing the emotion (relational goal) and (2) exploring the emotion (learning goal). We present rich illustrations for each strategy and argue that it is possible, and in many cases desirable, to navigate the tension between relational and learning goals by integrating the recognition and exploration of emotions. We furthermore suggest that consistently avoiding or preventing the discussion of teacher emotions may constitute emotional rules that exclude emotions from pedagogical discourse and, hence, miss out on a significant dimension of learning to teach.

Howard Gardner’s Multiple Intelligences (MIs) theory has garnered significant attention in recent years. However, the effects of MI-informed tasks on various dimensions of second language (L2) learning require further investigation, particularly within the English as a Foreign Language (EFL) context in Iran. Thus, this study explored three key Objectives: First, how MI-informed tasks influence EFL learners’ willingness to communicate (WTC). Second, how these tasks impact academic engagement among EFL learners. Third, whether MI-informed tasks significantly enhance EFL learners’ academic success. For the first two objectives, 20 intermediate-level EFL learners were purposively sampled and invited to participate in semi-structured interviews. For the third objective, 40 intermediate-level EFL learners, aged 18 to 23, were selected from two intact classes at a private language institute and were randomly assigned to a control and an experimental group. The participants underwent a pretest, interventions, and a posttest. The results of the thematic content analysis disclosed that MI-informed tasks positively affected EFL learners’ WTC through engagement and active participation, confidence and self-efficacy, peer interaction and collaboration, variety and engagement in learning activities, and sense of autonomy and empowerment. Additionally, the qualitative results revealed that MI-informed tasks substantially enhanced the EFL learners’ engagement via active participation and involvement, enthusiasm and motivation, collaboration and peer interaction, variety and novelty in learning experiences, and sense of ownership and autonomy. Furthermore, independent t-test results showed that the experimental group outperformed the control group in terms of academic success. The implications are discussed for various EFL stakeholders.

Teachers’ collegial conversations can be important sites for teachers’ learning, but sometimes result in deficit narratives about students and families. Research seldom “gets inside” teachers’ collegial conversations to shed light on when and why deficit narratives arise. In this study, we investigate how deficit narratives are co-constructed, and what function they serve in teachers’ discourse. Specifically, we look at the relationship between teachers’ assignation of responsibility in relation to teacher vulnerability. Critical discourse analysis makes visible how teacher vulnerability and emotions precipitated deficit narratives. Across cases, we found that teachers offered deficit narratives in response to teacher vulnerability under emotional regimes that disallowed strong negative emotions. These deficit narratives served to shift the threat and return teachers’ emotions to acceptable levels under these emotional regimes. These findings have implications for design of teachers’ learning environments; in addition to addressing deficit ideas themselves, findings suggest the importance of attending to how emotional regimes structure teachers’ responses to vulnerability in teachers’ collegial talk.

Individuals with Down syndrome face cognitive limitations that hinder learning and understanding in various contexts. Dance, which has rarely been explored in special education, offers improvements in acquiring skills including motor and emotional development. The use of mobile learning tools can also have a positive impact on the learning process and motivation. This work presents the development and evaluation of a mobile learning tool in the context of dance called MyDanceDown. This tool is proposed as a complement to practical activities for learning basic classical dance steps, to be used both in class and at home by students with special educational needs. A pre-post-test experience with the tool was conducted, involving 6 students with Down syndrome during a summer course at the Danza Down Association. Both dance competence and the emotional state of the participants were evaluated during the experience. The results offered three main findings. First, the students showed a statistically significant improvement in their dance competence at the end of the experience compared to the beginning. Second, the correct or incorrect completion of the task influences the emotion of enjoyment, with students being nine times more likely to experience enjoyment if the task is completed correctly, while the probability of feeling anger increases by 50% if it is completed incorrectly. Third, there were indications that increasing the complexity of the task tends to negatively affect the experience of enjoyment during learning.

This study investigated the effectiveness of metacognitive strategy (MS) instruction on listening comprehension and metacognitive awareness among low-proficiency EFL learners in Taiwan. Using a quasi-experimental mixed-methods design, the research involved 95 first-year university students divided into an experimental group (EG) that received MS instruction and a control group (CG) that received regular instruction without MS treatment. Quantitative data were analyzed using paired-sample t-tests to compare pretest and posttest scores within groups and ANCOVA to compare posttest outcomes between groups while controlling for initial proficiency. The EG demonstrated significant improvements in listening proficiency, with a substantial increase in posttest Oxford Placement Test (OPT) scores (p < 0.001, medium effect size), whereas the CG showed no notable changes. The Metacognitive Awareness Listening Questionnaire (MALQ) scores revealed a significant within-group increase for the EG, although ANCOVA results showed limited between-group effects. Qualitative content analysis of reflective journals, supported by interrater coding and Kappa reliability measures, highlighted evolving strategy use over time, with students in the EG adopting a more intentional and refined approach to listening strategies. Overall, the findings assert the potential of MS instruction to enhance listening skills and self-regulated learning among low-proficiency EFL learners.

Research highlights the potential of interprofessional in-situ simulation (ISS); however it is often limited by individualistic outcome measures. Using an activity theoretical design, this research aimed to develop, implement and analyse an ISS programme intended to promote expansive learning and organisational change for paediatric emergencies in general practice. An interprofessional team participated in an adapted Change Laboratory intervention ‘SimLab’, which consisted of four sessions comprising two ISS and four facilitated group discussions. Audio recorded group discussions were transcribed and analysed using activity-theoretical analytical tools, the cycle of expansive learning, and the concept of contradictions. Participants mapped a learning process, from questioning their current practice to consolidation and generalisation of collaboratively designed new practices. This enabled the team to develop their collective expansive learning and adopt a systemic perspective during discussions, enhancing paediatric emergency care preparedness and facilitating organisational change. This research provides new knowledge on theory guided design and instruction applied to paediatric emergency care ISS training in general practice. The study provides tools to improve our understanding of how to pedagogically facilitate and enhance delivery of interprofessional ISS training to enable expansive learning. The SimLab design, is potentially transferrable providing exciting learning opportunities for other clinical settings and contexts.

The current research implemented the Predict Observe and Explain (POE) instructional approach in mathematics and examined its efficacy in enhancing students' understanding of functions in terms of their ability to connect algebraic and graphical representations in optimization problems. Two grade 11 classes (40 students in total) and two grade 10 classes (42 students in total) participated in this study, for a combined total of 82 students. Following a quasi-experimental design, students in the experimental group solved six open mathematical tasks in a small group setting. They were explicitly asked to predict the outcome before attempting to solve the tasks, make observations using concrete materials and finally attempt a solution. They were then expected to reflect on their observation and initial predictions to interpret their findings. The control group students were given the same tasks without an explicit heuristic. They directly attempted to solve the same problems without prediction and observation. The data were collected using students' written responses to each task. Students' responses to the tasks were assessed based on the following criteria: understanding, constructing, using a mathematical model, communicating and interpreting results. An independent samples t-test showed that the POE strategy improved students' learning in cognitive domains. The POE strategy helped students better understand the problem, select and apply appropriate mathematical methods and interpret their findings. Students in the control group spent more time discussing and integrating clues into possible solutions to the given tasks. The results were interpreted within the framework of inquiry-based education, informed by semiotic representation theory.

Cognitive load theory describes the mechanisms for the transfer of information from human working memory to long-term memory. This theory posits that increasing the number of interactive elements, such as interconnections, may increase cognitive load. This study investigates the impact of interconnections in concept maps on cognitive load, exploring whether they act as interactive elements in working memory increasing cognitive load, or function as structuring elements potentially reducing cognitive load. Well-structured concept maps may potentially lower cognitive load by effectively organizing information. In an experiment with 81 first-year postgraduate students, participants were divided into two groups: one group studied concept maps with fewer interconnections and another one with more interconnections. Results revealed a significant reduction in extraneous cognitive load for the group with more interconnections, while no significant differences were observed in intrinsic or germane cognitive load. These findings align with cognitive load theory and help expand it by suggesting that interconnections act as structuring elements that facilitate learning by organizing knowledge, leading to a decrease in extraneous cognitive load. This research demonstrates that the use of concept maps may optimize cognitive load and shows that the addition of structure in instructional materials doesn’t lead to overload for students.

This paper provided new evidence on three kindergarten instructional practices that may be associated with better reading and math skills, particularly for children of less educated parents: (1) full-day kindergarten; (2) more instructional time; and (3) ability grouping. The analysis used Early Childhood Longitudinal Study Kindergarten Cohort 2010–2011 on a large and nationally representative sample of children (N = 14,350) who entered kindergarten in fall 2010 (mean age = 67 months) and hierarchical linear models. Results show that children of less-educated parents were more likely than their peers to experience these practices. Findings also reveal that the practices were positively associated with reading growth in kindergarten, regardless of parental education, but not thereafter. In terms of math, full day kindergarten, but not instruction time or ability grouping, was associated with higher growth rates during kindergarten, again regardless of parental education.

Two-phase instructional designs such as Productive and Vicarious Failure employ preparatory activities before explicit instruction. It is assumed that during this preparatory activity, students need to activate their prior knowledge in order to be prepared for subsequent instruction. However, empirical findings on this preparatory mechanism are scarce, and causal evidence is lacking. In an experimental design (N = 165), we manipulated secondary school students’ relevant prior knowledge activation by systematically varying the coverage of conceptual components of the targeted concept in solution attempts that students study in the preparatory phase: Students received solution attempts with either a high or a low coverage of conceptual components. The results reveal that students do not necessarily have to activate relevant prior knowledge covering all aspects of the targeted concept prior to instruction. Activating some relevant knowledge can prepare students for subsequent instruction and benefit students of all levels of prior knowledge. Moreover, we provide first evidence that students’ prior knowledge activation becomes visible in their intermediate knowledge.

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.

This study investigates how collaboration is practically accomplished on large-scale online platforms, with scale understood qualitatively as asynchronous and fluid participation. Using Stack Overflow as an empirical case, it specifically examines how users collaboratively frame programming problems through questions, comments and iterative edits. Drawing on the practice-based perspective and ethnomethodology, the study uses trace ethnography and sequential analysis of selected Stack Overflow threads. Findings reveal that profession-specific shared objects (minimal reproducible examples) structured within the platform’s dual-space design, consisting of distinct question and commenting spaces, serve as crucial resources, enabling both immediate and future unknown contributors to understand and effectively engage in problem faming and problem-solving processes. Furthermore, the study identifies key interactional methods, i.e., standardized norm-enforcing requests and explicit referencing, which ensure mutual intelligibility of users’ comments and edits, essential for accomplishing collaboration at scale. The findings contribute to theoretical understandings of mass collaboration, offer design insights for platforms to facilitate the coordination of collaborative activities and provide recommendations for professional education to support productive participation in large-scale collaboration.

Effective group formation is an indispensable yet challenging aspect of classroom-based collaborative learning. While existing group formation algorithms show promising computational performance in controlled settings, their practical impact on diverse, real-world classrooms remains underexplored. This paper presents a mixed genetic algorithm integrated into a data-driven learning platform designed to accommodate both homogeneous and heterogeneous student characteristics simultaneously. Implemented in a senior high school EFL classroom, the approach leverages active reading marker logs for data-driven grouping. It incorporates a WordCloud tool to enhance educators’ and learners’ understanding of group composition. Empirical results indicate that this system improves vocabulary learning, and the marker-based grouping strategies positively influence group learning dynamics. These findings underscore the algorithm’s practical relevance and highlight the benefits of interpretable, adaptive group formation methods for authentic educational contexts.

Understanding individual participation is critical for uncovering how individuals learn in collaborative learning as well as for providing personalized support to scaffold team success and individual gains. Modelling individual participation requires a process-oriented method rather than an outcome-focused approach. There is a need for a theoretical framework guiding the collection and analysis of process data for gauging individual participation in collaborative learning. This systematic review synthesizes theoretical aspects and analytical methods for modelling individual participation using process data in collaborative learning. It analyzes 66 studies published between 2005 and 2024, identified through the PRISMA process. Based on the analytical results, we propose a new theoretical framework, COMPAS, consisting of six components to model the multi-faceted and multi-level nature of individual participation in collaborative learning processes: Cognitive interactions, Coordinative interactions, Metacognitive interactions, Passive participation, solo Active participation, and Socio-emotional interactions. The six forms of individual participation were studied using various forms of collaborative learning process data—including oral conversational data, textual input data, log data, and non-verbal physical data—with analytical methods primarily involving descriptive analysis, content analysis, network analysis, and clustering. The synthesized factors influencing individual participation reflect a bi-directional relationship between individual participation and group performance in collaborative learning. This study contributes a new theoretical framework for understanding different forms of individual participation in collaborative learning, as well as highlights the need for and importance of multimodal process data in collaborative learning analytics.