Towards Flipped Learning in Upper Secondary Mathematics Education

Challenges for students in the 21st century, such as acquiring technology, problem-solving, and cooperation skills, also necessitate changes in mathematics education to be able to respond to changing educational needs. One way to respond to these challenges is by utilizing recent educational innovations in schools, for instance, among others are flipped learning (FL) approaches. In this paper, we outline our explorative educational experiment that investigates vital elements of mathematics learning in FL approaches in upper secondary education. We describe the methodologies and findings of our qualitative study based on design-based research to discover key elements of FL approaches in upper secondary education. Analyzing the oral and written data collected over ten months using grounded theory approaches suggested categories (a) confidence when learning; (b) learning by working, and, and (c) flexibility when learning could be essential to understand FL approaches practices in mathematics classrooms. These categories indicate that when using FL approaches in mathematics learning, it could be essential for students to acquire knowledge in a confident and adaptable environment actively

"Das umgedrehte Klassenzimmer - Traum oder Wirklichkeit?"

Diese Diplomarbeit befasst sich mit dem Konzept des umgedrehten Unterrichts und besteht aus einem theoretischen und praktischen Teil. Im einführenden Kapitel wird zunächst der Begriff des Flipped Classroom erklärt und die Geschichte des Modells sowie die Anwendung in der Hochschullehre erläutert. Anschließend folgt der Hauptteil, der sich mit dem Unterrichten nach dem Modell beschäftigt, wobei im Speziellen auf die Anwendung im Mathematikunterricht eingegangen wird. Hierfür werden verschiedene Methoden und Anregungen für das Umdrehen des Unterrichts beschrieben. Im Weiteren geht es um die medialen Inhalte, die Voraussetzung für das Unterrichten nach dem Flipped Classroom-Konzept sind. Im Zuge dessen wird beschrieben, wie diese erstellt und verwendet werden können. Anschließend folgt die didaktische Auseinandersetzung mit dem Modell des umgedrehten Unterrichts. Unter anderem werden in diesem Abschnitt die aktive Auseinandersetzung mit den Inhalten und die Lernmotivation behandelt. Abschließend wird ein Praxisbeispiel angeführt, indem über drei hospitierte Unterrichtsstunden berichtet wird.This diploma thesis is dealing with the flipped classroom model and is divided into a theoretical and practical part. In the introductory chapter the term flipped classroom is explained and the history of the model, as well as its application in universities is outlined. The main part of the thesis deals with teaching according to this model, in particular in math school. Various methods are described, which can be combined with the concept of the flipped classroom. Furthermore the thesis deals with the material essential to implement the flipped classroom model, such as videos, podcasts, and readings. Thus it is described how such material is prepared, and used. This is followed by the basics of how to teach within the model. Among other things this chapter discusses the aspects of students’ active involvement and their motivation. Finally an empirical example of three teaching lessons observed by the author is given

Flipped classroom and language in mathematics teaching

International audienceWe present an action research project of a young secondary mathematics teacher introducing the “flipped classroom” approach into her teaching. The project was implemented and evaluated within the context of a larger initiative where teachers were supported by experienced teacher educators. During the project, the issue of language arose. The poster, written by the teacher and supported by the initiative leader, documents the teachers’ struggle in critically reflecting her project and finding ways to improve her teaching, in particular focusing on the issue of language

Exploring critical aspects of students’ mathematics learning in technology-enhanced and student-led flipped learning environments

International audienceAlthough teaching according to a flipped classroom approach is being increasingly used in schools, it is still the case that this type of education is often teacher-driven, and that teachers play a dominant role in terms of determining learning objectives and materials. Recently, the definition of flipped classrooms is being changed, accordingly the approach is becoming more student-driven and teachers mostly start to play supportive roles. Thus, this new approach is currently referred to as the flipped learning approach. The aim of our research is to identify central elements for students when learning mathematics in flipped learning environments. Therefore, teaching scenarios were developed, applied at a higher secondary level and written feedback from pupils were obtained. The grounded theory based analysis of feedback suggests that it is crucial for students to work together, jointly generate knowledge, become active in determining learning paths and selecting materials

Flipped classroom and language in mathematics teaching

International audienceWe present an action research project of a young secondary mathematics teacher introducing the “flipped classroom” approach into her teaching. The project was implemented and evaluated within the context of a larger initiative where teachers were supported by experienced teacher educators. During the project, the issue of language arose. The poster, written by the teacher and supported by the initiative leader, documents the teachers’ struggle in critically reflecting her project and finding ways to improve her teaching, in particular focusing on the issue of language

Gelingendes und motivierendes Mikrolernen mit CoffeeCupLearning

Die Autorinnen beschreiben, wie das mobile Mikrolernen mit dem Format „CoffeeCupLearning“ aktiviert werden kann. Dieses Angebot, bestehend aus Lerneinheiten mit Lernvideo, Online-Skript und Selbstüberprüfungsquiz mit Feedback, wird an der Virtuellen Pädagogischen Hochschule in Österreich vollständig online durchgeführt. Evaluationsergebnisse werden berichtet. (DIPF/Orig.

Exploring critical aspects of students’ mathematics learning in technology-enhanced and student-led flipped learning environments

International audienceAlthough teaching according to a flipped classroom approach is being increasingly used in schools, it is still the case that this type of education is often teacher-driven, and that teachers play a dominant role in terms of determining learning objectives and materials. Recently, the definition of flipped classrooms is being changed, accordingly the approach is becoming more student-driven and teachers mostly start to play supportive roles. Thus, this new approach is currently referred to as the flipped learning approach. The aim of our research is to identify central elements for students when learning mathematics in flipped learning environments. Therefore, teaching scenarios were developed, applied at a higher secondary level and written feedback from pupils were obtained. The grounded theory based analysis of feedback suggests that it is crucial for students to work together, jointly generate knowledge, become active in determining learning paths and selecting materials

Exploring the Perception of AI in Learning: Unveiling the Role of Student and Teacher Motivation and Self-Efficacy

Purpose. Artificial intelligence (AI) has a significant impact on education, but little is known about how primary and lower secondary school students perceive AI in learning. This study aims to explore both student and teacher motivation and self-efficacy in relation to students’ perceptions of AI in learning. Design/methodology/approach. Data from 907 primary and lower secondary school students and 53 corresponding class teachers from German speaking Switzerland was collected through questionnaires. Analysis was conducted using doubly multilevel structural equation modeling (ML-SEM). Findings. Analysis revealed that students’ motivation to learn with digital media is significantly linked to their perception of AI at the individual level. Furthermore, students’ self-efficacy plays a crucial role for their motivation, with girls exhibiting lower self-efficacy to learn with digital media compared to boys. At the class level, teacher motivation to integrate digital media in teaching was significantly positively associated with student motivation. Originality. This study is among the first to investigate primary and lower secondary school students’ perceptions of AI. It distinguishes itself by considering both student and teacher variables in a ML-SEM. Practical Implications. The research highlights the importance of fostering students’ self-efficacy and motivation to learn with digital media, particularly among female students. Additionally, it emphasizes the need for a supportive and motivating teacher-student dynamic to create a more positive perception of AI in learning. These findings provide valuable insights for integrating AI in primary and lower secondary school settings