Search Results (339)

In this paper, a hybrid flipped classroom–Socratic method (HFC-SBM) is proposed as an active and effective method of teaching and learning to enhance the success rate in the subject of electrical machines. The proposed method was applied in the third year of a Bachelor of Engineering Technology program. Most students were new to the subject of electrical machines and did not have any prior knowledge of the principle of energy conversion in electrical machines. The traditional method (TRM), the flipped classroom method (FCM), and the Socratic-based method (SBM) were applied and then compared with the proposed HFC-SBM. The students were assessed each time they completed a specific teaching and learning method. The assessment results revealed that the proposed HFC-SBM improved the students’ success rate tremendously by 300%, 160%, and 80% when compared to the TRM, FCM, and SBM, respectively. A single-factor Analysis of Variance (ANOVA) test has been carried out on the statistical data to assess the significance of the different teaching and learning methods on the students’ success rate. Full article

Initial teacher education programs are the primary means through which student teachers gain teaching apprenticeship, amass core teaching knowledge, and build skills that prepare them to become effective teachers who are ready to combat the realities and challenges of the classroom. The current study examines the level of content knowledge (CK), pedagogical content knowledge (PCK), and the self-efficacy of language and foundational literacy instruction among the language teacher educators at teacher training colleges (TTCs) in Malawi. This research further explored the teacher educators’ perceptions of CK and PCK, and how their understanding of the Initial Primary Teacher Education curriculum shapes their teaching practices in foundational learning and language. Lastly, we explore the associations between CK, PCK, self-efficacy, and teacher educators’ characteristics. Utilizing a mixed-methods approach, we analyzed data from 60 language teacher educators from 10 TTCs in Malawi. The findings revealed that the teacher educators’ level of CK and PCK was low, but they had high self-efficacy in their ability to teach the component skills of literacy to the student teachers. Of the teacher educators’ characteristics, only continuous professional development was positively correlated with their self-efficacy. The teacher educators’ CK and PCK are shaped by the TTC curriculum, their primary school teaching experiences, and the national education policies and guidelines they implement. Gaps in the curriculum and external constraints hinder them from effectively training student teachers in foundational literacy pedagogies. The findings provide pedagogical and policy directions for stakeholders to improve the quality of preservice education in low–middle-income contexts. Full article

We live in a globalised, knowledge-hungry society in which the immediacy of information is increasingly a necessity that has become a reality even in the most remote places. This article aims to reflect on the importance of Information and Communication Technologies (ICT) in education, emphasising the need for skills and literacies in a globalised society. The school must provide tools that enable the acquisition of these competences, but the lack of continuous teacher training and adequate resources limits the effective use of these technologies in the classroom. The main research question concerns teachers’ perceptions of ICT, the most widely adopted technologies, and their impact on their daily lives. To answer the research question, we defined the main objectives as understanding teachers’ perceptions of ICT and identifying the technologies most used in teaching, highlighting how they can transform the learning process and improve the results of students, especially those with the most difficulties. The aim of this work is to find out how teachers perceive the use of ICT and, at the same time, to demonstrate that its use in the classroom enhances the teaching–learning process, making it more relevant, effective, and in line with the demands of the contemporary world. Full article

Teaching with technology enhances instructional effectiveness and student engagement, particularly in mathematics, accounting, and ICT education. Digital learning creates an interactive environment that fosters deeper understanding and keeps learners updated with current trends. For teachers, it offers tools to assess student strengths and weaknesses better, guiding them to develop targeted interventions. However, successful technology integration depends on educators’ digital skills, an area where many still face challenges. This paper aims to assess teachers’ technological and pedagogical proficiency and identify barriers to integration. The study employed a mixed-method approach with 60 teacher respondents selected through stratified random sampling from both urban and rural schools. Data was collected through online interviews, classroom observations, and pre- and post-survey questionnaires focusing on confidence, competence, and willingness to use technology. Thematic analysis and paired sample t-tests using SPSS v.20 revealed a significant improvement in teachers’ technological skills following an intervention program. It also identified both internal and external factors hindering technological integration in the classroom. Findings emphasize that sustained support and training are essential for effective technology use in the classroom and recommend that school administrators embed technology in curriculum planning to enhance both instruction and extension activities. Full article

This work presents the Integrated Multi-Strategy Teaching (IMST) model, developed for science education to enhance autonomy, engagement, and professional competencies. Applied in a pharmacy course, IMST combines flipped classrooms, peer assessment, and scenario-based learning. A SWOT analysis based on student and faculty feedback highlights strengths in skill development and practical relevance, while noting challenges such as workload and classroom constraints. The results support the effectiveness of IMST and suggest improvements to promote broader acceptance and sustainability. Full article

Active learning strategies and methodologies place the students at the core of the learning process. The objective is to engage students in their own learning through significant activities that involve active participation. These activities are designed to promote collaboration, reflection, and practical application of the knowledge acquired to develop cognitive, social, and emotional competences. These methodologies are of particular interest in STEM disciplines and vocational education, where practice is a key element in the assimilation of theoretical concepts. In this line, a case study is presented where active methodologies have been applied to two groups of Vocational Education and Training in the area of Computer Science to improve interest and commitment. The present study focuses on two groups of first-year students enrolled in the Web Application Design course, one in the Programming subject and the other in the Markup Language subject. Both groups are heterogeneous, composed of young adults with significantly different backgrounds, skills, and motivation. The teaching–learning process is based on active methodologies, such as Project-Based Learning, Design Thinking, Flipped Classroom, or gamification, which are adapted for different subjects in the field of Computer Science. These methodologies facilitate the experimental design and testing of diverse solutions for programming problems, thereby enhancing students’ motivation and interest, while promoting creativity and reflection. The results show an improvement in the interest and commitment of the students in both groups. Despite the fact that less than 50% of students successfully passed in the initial examination, more than 75% students passed after the second-chance examination. The findings have consistently suggested that the implementation of active methodologies leads to significant enhancements in the proficiency, development, motivation, and self-learning capabilities of students, and that these methodologies make students more aware of their learning process. Full article

This study presents the outcomes of the Erasmus+ European project Higher Education Classroom of the Future (HECOF), with a particular focus on chemical engineering education. In the digital era, the integration and advancement of artificial intelligence (AI) in higher education, especially in engineering, are increasingly important. The main goal of the HECOF project is to establish a system of new higher education teaching practices and national reforms in education. This system has been developed and tested through an innovative personalized and adaptive method of teaching that exploited digital data from students’ learning activity in immersive environments, with the aid of computational analysis techniques from data science. The unit operations—extraction process course—a fundamental component of the chemical engineering curriculum, was selected as the case study for the development of the HECOF learning system. A group of undergraduate students evaluated the system’s usability and educational efficiency. The findings showed that the HECOF system contributed positively to students’ learning—although the extent of improvement varied among individuals—and was associated with a high level of satisfaction, suggesting that HECOF was effective in delivering a positive and engaging learning experience. Full article

Background: As population aging accelerates, the demand for professionals in older adult care continues to rise. Traditional teaching methods often fail to improve students’ willingness to serve older adults or foster teamwork. This study evaluated the effects of integrating a flipped classroom with project-based learning (PBL) and a hands-on clinical practicum into a health internship course. Methods: A mixed-methods design was adopted. Participants included 88 interdisciplinary university students enrolled in an 18-week, two-credit geriatric health internship course offered at a university in central Taiwan from August 2023 to July 2024. The course combined flipped classroom and PBL approaches, as well as clinical practicum activities. Data on willingness to serve older adults, teamwork skills, and learning outcomes were collected using structured questionnaires and analyzed with paired t-tests. Results: Significant improvements were found in willingness (from 68.93 to 73.15), teamwork (67.33 to 71.45), and learning outcomes (89.84 to 102.14) (p = 0.001). Qualitative findings further revealed increased empathy, improved teamwork, and enhanced ability to apply knowledge in real-world contexts. Conclusions: A teaching approach that integrates a flipped classroom, PBL, and a clinical practicum can effectively enhance students’ competencies in older adult care. Future research should explore long-term and cross-cultural impacts. Full article

The use of augmented reality (AR) tools and innovative learning environments in education have increased over the last few years due to the rapid advancement of technology. In this study, an AR mathematics learning intervention has been proposed which consisted of the creation of 3D multibase blocks to perform AR arithmetic calculations conducted through active methodologies in the future classroom lab (FCL). The aim of this study was to analyze pre-service teachers’ (PSTs) affective domain (emotion, self-efficacy, and attitude), engagement, motivation, and confidence. The sample consisted of 97 PSTs enrolled on the second year of the Primary Education degree, who were attending the “Mathematics and its Didactics” subject. The findings revealed a significant increase in PSTs’ satisfaction, fun, confidence, and pride, and a decrease in uncertainty, nervousness, and concern. Regarding PSTs’ self-efficacy, a significant improvement was observed in knowing the necessary steps to teach mathematical concepts and work in the FCL. No significant differences were found in attitude, engagement, and motivation; however, the PSTs showed a high disposition in all of them before starting the intervention. Additionally, the PSTs reported to be more confident, and it enhanced their knowledge in the use of 3D design and AR applications to create multibase blocks to support the teaching–learning content of arithmetic operations. Full article

This paper presents the development, implementation, and outcomes of the ELEVATE-US-UP (Engaging Learners through Exploration of Visionary Academic Thought and Empowerment in UnderServed and UnderPrivileged communities) teaching methodology, an equity-centered, culturally responsive pedagogical framework designed to enhance student engagement, academic performance, and science identity among underrepresented learners. This framework was piloted at Northern New Mexico College (NNMC), a Hispanic- and minority-serving rural institution. ELEVATE-US-UP reimagines science education as a dynamic, inquiry-driven, and contextually grounded process that embeds visionary scientific themes, community relevance, trauma-informed mentoring, and authentic assessment into everyday instruction. Drawing from culturally sustaining pedagogy, experiential learning, and action teaching, the methodology positions students not as passive recipients of content but as knowledge-holders and civic actors. Implemented across upper-level environmental science courses, the method produced measurable gains: class attendance rose from 67% to 93%, average final grades improved significantly, and over two-thirds of students reported a stronger science identity and a newfound confidence in their academic potential. Qualitative feedback highlighted increased perceptions of classroom inclusivity, community relevance, and instructor support. By centering on cultural context, student voice, and place-based application, the ELEVATE-US-UP framework offers a replicable and scalable model for educational transformation in underserved regions. Full article

Scientific culture in pedagogical work involves the integration of scientific principles, values, and practices into education to promote critical thinking, evidence-based reasoning, and curiosity. It fosters an environment where students develop as independent learners, problem-solvers, and informed citizens. Teachers play a key role in cultivating this culture, acting as facilitators and guides who equip students with the tools to think critically and engage with the world scientifically. While often associated with STEM disciplines, scientific literacy extends beyond these areas, emphasizing the integration of scientifically grounded knowledge into all subject areas. To achieve this, teachers must continually enhance their own understanding and skills in scientific thinking. Staying updated with the latest scientific discoveries, critically evaluating information, and applying innovative pedagogical methods are essential. Professional development can provide a vital avenue for teachers to acquire these competencies. Approaches such as reading scientific literature, collaborating with colleagues, and attending specialized training programs can improve teaching strategies and promote scientific thinking in the classroom. This study investigated professional development programs provided for in-service teachers to understand how they contribute to fostering a scientific culture. The researchers collected data from municipalities in Latvia and online resources to summarize the information on the professional development programs provided to in-service teachers. This study examined how elements of scientific culture are reflected in teacher professional development programs in Latvia, using Merton’s CUDOS norms as an analytical framework. The acronym CUDOS refers to four foundational principles of scientific ethos: communalism, universalism, disinterestedness, and organized skepticism. These norms guided the evaluation of whether and how scientific inquiry values are embedded in the design and delivery of training programs for in-service teachers. Using quantitative and qualitative methods for data analysis, it was found that in-service teacher training in Latvia is highly eclectic and often lacks alignment with scientifically grounded principles. There are a lot of programs provided to develop transversal competencies, but very few subject-specific programs are available. The findings highlight the need for more structured and cohesive professional development programs to support in-service teachers in developing competence in cultivating scientific inquiry, nurturing curiosity, and empowering students to navigate an increasingly complex and technology-driven society. These insights offer practical implications for education policymakers and program designers aiming to enhance the scientific orientation of teacher training. By identifying specific gaps in content and alignment with scientific culture, this study provides an original contribution to the discourse on evidence-informed teacher development and supports a more conceptually grounded and equitable approach to lifelong professional learning in Latvia. Full article

Preschool mathematics support remains insufficient, which can limit children’s skill development and impact their long-term academic success. This study explores how collaboration between researchers and teachers can enhance these practices. It is based on the Classroom Assessment Scoring System (CLASS) model, which examines three key dimensions: concept development, language modeling, and the quality of feedback. This theoretical framework highlights the importance of pedagogical interactions in supporting early mathematical learning. A mixed-methods, longitudinal approach was adopted. Over three years, six teachers participated in five collaborative sessions per year. Systematic CLASS observations, questionnaires, interviews, and reflective journals were used to assess the evolution of teaching practices. The results reveal a significant improvement in the quality of mathematics support, particularly in concept development. However, feedback and language modeling progressed more slowly. Integrating mathematics into spontaneous situations, such as free play, remains a challenge. The discussion emphasizes the importance of continuous pedagogical support to further strengthen these practices and promote more interactive and contextualized learning experiences. Full article

This study aims to investigate the views of mentor teachers on sustainable teacher education in Northern Cyprus. The Teaching Practice course (internship) was taken as the basis, and the views of mentor teachers on the meaning, difficulties, responsibilities, and feedback process of teaching practices were examined. Data were collected through open-ended interviews with 50 classroom teachers using the qualitative research approach phenomenological model. When the findings are examined, it is revealed that mentor teachers see internship as very important in terms of applying theoretical knowledge, gaining practical experience, and developing professional identity. Difficulties include classroom management difficulties, problems with students, inadequate preparation, and communication problems. Mentor teachers emphasize that their roles of providing guidance, feedback, and support are important. It was stated that preparation, time management, and effective communication are among the responsibilities of candidate teachers. The study emphasized the importance of mentoring in teaching practices in the context of effective communication and providing constructive feedback. Recommendations include improved internship program design focusing on classroom management, communication skills, and material preparation. Additionally, fostering a supportive learning environment and providing professional development opportunities for both mentors and student teachers are essential. The study contributes to understanding the complexities of teacher education and the critical role of effective mentoring in shaping future educators. Evaluating the findings of this study in the context of sustainable teacher education highlights how mentors’ role model practices, ongoing support for pre-service teachers, and reinforcement of effective teaching strategies can contribute to the sustainability of pre-service teacher education. Full article

Background/Objectives: Traditional nutrition education can increase children’s exposure to healthy foods, but preschool teachers face barriers such as limited time and competing priorities (e.g., kindergarten readiness). Integrating nutrition into other learning domains (e.g., science) has been identified as a potential solution. However, teachers need more professional development. We developed the More PEAS Please! program to support preschool teachers’ integration of food-based learning (FBL) and science, seeking to improve children’s science learning, language development, and dietary quality. Methods: In this pilot study, we used a mixed-methods process evaluation to assess the program in five Head Start centers (n = 23 classrooms) across three rural North Carolina counties. We collected teacher data via surveys and interviews. Results: A total of 24 teachers participated in the full intervention by attending a one-day workshop, completing at least one of four core learning modules, and implementing 16 food-based science learning activities in their classrooms. Teachers were Black/African American (81.1%) and 43.56 (11.89) years old. Teachers reported varying engagement levels and high satisfaction with the program, sharing increased confidence in FBL and science integration. However, barriers such as time, technology, and the coronavirus disease (COVID-19) limited full participation. Conclusions: Our findings suggest that the program is feasible and well received in Head Start settings and has promising impacts on classroom teaching practices. The findings will guide revisions to the PEAS program. Future research evaluating the revised program using a comparison group will be explored. Full article

Sustainable and technology-enhanced learning (TEL) plays a crucial role in supporting learners with dyslexia by providing accessible, personalized, and inclusive educational experiences. The case study discusses learning challenges of students with dyslexia due to both pedagogical and technological factors. Traditional teaching methods that rely heavily on text-based instruction can make it difficult for them to process and retain information. Many digital tools and learning platforms are not designed with accessibility features like text-to-speech or dyslexia-friendly fonts, making it harder for dyslexic students to engage with content. A lack of individualized instructional approaches, such as multisensory learning or adaptive learning technologies, can hinder their progress. Additionally, inadequate teacher training on dyslexia-friendly strategies can result in ineffective support in the classroom. The aim of this paper is to identify the most appropriate pedagogical and technological aspects and their applicability to the development of tools for dyslexic learners and to elucidate the most effective way of learning according to needs. This paper presents a case study on the learning object design to overcome dyslexia barriers and improve the quality of students’ learning. Full article