Search Results (149)

This study analyzes the differences in the selection of teaching methodologies, assessment instruments, and educational values in Master’s Theses (TFMs) written within the Geography and History specialization of a Teacher Training Master’s program in Spain. The aim is to examine how these pedagogical components vary according to the gender of the author and the educational level targeted by the instructional proposals. A mixed-methods approach was applied combining statistical analysis (Chi-square and ANOVA tests) with qualitative content analysis of 54 anonymized TFMs. The results indicate that while gender-related differences were not statistically significant in most categories, qualitative patterns emerged: female authors tended to adopt more reflective, participatory approaches (e.g., oral expression, gender visibility), whereas male authors more often used experiential or gamified strategies. Significant differences by educational level were found in the use of gamification, inquiry-based learning, and project-based learning. A progressive increase in methodological complexity was observed from lower secondary to upper levels. In terms of educational values, interdisciplinarity and inclusion were most frequently promoted, with critical perspectives such as historical memory and gender visibility more prevalent at the Baccalaureate level. These findings underscore the TFM’s role as a space for pedagogical innovation, reflective practice, and value-driven teacher identity formation. Full article

This study analyses the effectiveness of a contextualized teaching and learning sequence (TLS) based on forensic entomology (FE) to disprove the idea of spontaneous generation (SG) among students enrolled in the Higher Vocational Education and Training (VET) Cycle in Pathological Anatomy and Cytodiagnosis. Through an inquiry- and project-based learning approach, students replicate a version of Francesco Redi’s historical experiments, enabling them to engage with core scientific concepts such as the metamorphic cycle of insects and the role of entomology in forensic science. The research adopts a semiquantitative and exploratory design. It investigates: (1) whether students’ prior knowledge about FE and related biological processes is sufficient to refute SG; (2) to what extent this knowledge is influenced by their previous academic background and gender; and (3) whether a contextualized TLS can significantly enhance their conceptual understanding. The results reveal that most students begin with limited initial knowledge of FE and multiple misconceptions related to SG, irrespective of their previous study. Gender differences were observed at baseline, with women showing lower prior knowledge, but these differences disappeared after the intervention. The post-intervention data demonstrate a significant improvement in student’s ability to reject SG and explain biological processes coherently. The study highlights the importance of integrating entomology into health-related VET programs, both as a means to promote scientific literacy and correct misconceptions and as a pedagogical tool to foster critical thinking. It also highlights the potential and historically grounded methodologies to equalize learning outcomes and strengthen the scientific preparation of future healthcare professionals. 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

At the beginning of the 21st century, rapid technological developments significantly impacted the field of education. As a result, university professors in recent years have been constantly searching and implementing teaching methods, such as blended learning, to increase the interest of their students and retain them in their courses. It is a matter of many academic discussions to create educational practices to reduce student dropout, especially in social sciences courses that are considered by students to be difficult subjects, such as accounting. The blended learning approach is based on constructivist theory and specifically on the Community of Inquiry model, where the educational experience of students is related to social, cognitive, and didactic presence, and it is orientated towards a more student-centred approach that maximises retention rates. The present study employs an exploratory blended-methods design. A questionnaire and individual interviews of students were used to collect data. The study was carried out in the context of an Advanced Financial Accounting course at a Greek university, through the implementation of an experiment with undergraduate students. Important findings include higher retention rates of undergraduate accounting students in the blended class compared to the traditional one, as the redesigning of content for the needs of blended learning, the incorporation of videos, the development of group work, and the good organisation of the course constitute the optimal mix for reducing student attrition. Full article

Modeling is a fundamental scientific procedure for understanding nature, and it is also one of the basic strategies in inquiry-based science education. Among the various tools available for modeling, this article focuses on investigating a particular framework that uses embodiment to understand both macroscopic and microscopic phenomena. Within this approach, students actively engage as agents in the model and together build the final representation. For that, we present a specific methodology (the IBME approach) for inquiry-based modeling with embodiment. We specify the steps of the modeling approach, which were subsequently tested through instructional sequences based on this method with second-year students obtaining a degree in Primary Education at a public university. We analyzed the instructional sequences both quantitatively and descriptively. The quantitative analysis compares the results of an experimental group (n= 86) with a control group (n = 68) that does not work with inquiry-based modeling. Both groups address the same concepts, and at the end, they complete a questionnaire. The descriptive analysis discusses the details of the modeling process and the discussions that take place throughout the teaching sequences; on the other hand, it also summarizes the progress in the modeling process based on three qualitative parameters. The results obtained after implementing these sequences show significant differences compared to the control group. The descriptive analysis illustrates how students are able to reach the final model by inquiry, that is, through the discussion fostered by the modeling process itself, involving models of different levels of complexity. 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

This article examines the role of biosphere reserves (BRs) in science education, with a particular focus on teaching for sustainable development. A case study conducted at the Complutense University of Madrid is presented, analyzing 36 of the 53 Spanish BRs to evaluate their conservation activities and educational uses. Using a pre-test–post-test experimental design and a specifically developed questionnaire, the impact of inquiry-based teaching was measured. The results reveal significant differences in students’ knowledge levels before and after the teaching, highlighting the effectiveness of informational and educational strategies in enhancing environmental awareness. The study underscores the relevance of BRs not only as conservation spaces but also as valuable educational resources for promoting environmental sustainability through education for sustainable development. It further emphasizes the importance of training future teachers in sustainable practices and employing teaching methodologies that integrate inquiry-based learning. Additionally, the role of BRs in advancing the Sustainable Development Goals (SDGs) outlined in the 2030 Agenda is highlighted. The article concludes that BRs can serve as effective learning laboratories to foster greater environmental awareness and commitment to the environmental sustainability component among educators and their future students. Full article

This study investigated the impact of sustained, inquiry-based professional development (PD) on K-12 STEM educators’ instructional practices, with a particular focus on integrated mathematics and science teaching. As STEM education becomes increasingly vital in preparing students to address global challenges, educators face the challenge of adapting their teaching strategies to foster meaningful, engaging, and effective learning experiences. Inquiry-based learning (IBL) has emerged as a promising approach through its emphasis on student-driven exploration and collaborative learning. However, its effective implementation often requires targeted PD. This qualitative study examines the ConocoPhillips Applied Math Program (AMP!), a sustained teacher PD program focused on mathematics and science instruction, to investigate how it supported teachers’ shift toward inquiry-based practices. Semi-structured interviews with six past AMP! participants revealed that the program positively influenced teachers’ content knowledge, pedagogical strategies, and confidence, leading to better student engagement and achievement. This study also highlighted the importance of addressing the practical challenges of IBL implementation, such as teachers’ time constraints and resistance to adopting new pedagogical strategies. The findings emphasized the need for PD programs to prioritize adaptability and provide long-term support and content aligned with teachers’ immediate needs. Full article

Interdisciplinary teaching enhances student learning but poses challenges in practical implementation. This study examines the co-design of an interdisciplinary MathCityMap trail by mathematics and physics educators, analyzing tensions and synergies through the ROGI framework (Resources, Orientations, Goals, Identity). Using qualitative methods, including reflective journals and co-design, we explore how disciplinary perspectives shape task design. A key constraint was the MathCityMap system’s requirement for verifiable outcomes, limiting open-ended inquiry, particularly in mathematics. While mathematics educators emphasized conceptual understanding, physics educators prioritized hands-on experimentation, leading to tensions in defining inquiry-based learning. Despite these challenges, the collaboration yielded innovative solutions, such as adapting tasks to balance system feasibility with inquiry-driven exploration. The study highlights the need for digital tools that accommodate both procedural and exploratory learning and emphasizes interdisciplinary collaboration as a valuable professional development approach. Future research should focus on enhancing digital platforms to support inquiry-based methodologies in STEM education. Full article

Student-centred learning requires a variety of approaches, such as inquiry-based learning and the tackling of authentic and problem-based learning activities, to make the teaching and learning process more meaningful and to encourage students to participate more actively in class. The inquiry approach enables students to investigate solutions to real problems, awakening their need to ask questions, design and conduct research, collect and analyse data, interpret results and present them in a structured way. This study investigates the influence of an inquiry-based science education (IBSE) module on the development of oral and written communication skills among 10th grade students. The study is set in a secondary school context and focuses on a problem-based learning approach centred around gases and dispersions. A total of 111 students participated in this one-group post-assessment qualitative study, where evaluation rubrics were applied to assess students’ written and oral communication, focusing on correctness, clarity and mastery of scientific language. The results showed that the majority of students performed well in both written and oral tasks, demonstrating improved scientific communication skills. This suggests that IBSE, particularly in the context of secondary education, can be an effective approach to fostering students’ abilities to communicate scientific concepts. The study has implications for enhancing pedagogical practices and encourages further research on the long-term effects of IBSE on student learning. Full article

Phytosociology reached its peak development during the 20th century, particularly after 1992 with the implementation of the EU Habitats Directive, which incorporated plant associations into habitat classifications. The objective of this study is to assess the diversity of Mediterranean grasslands using the phytosociological methodology, focusing specifically on the PBTs and BsHl associations. Although both types of grasslands are of interest for livestock farming, we emphasize those belonging to Poetea bulbosae (PbTs), which are included in the priority habitat 6220 and are of high value for sheep grazing. The results indicate that Vca-Vco = 0.390 for PBTs and 0.525 for BsHl, the latter due to the absence of companion species diversity in BsHl. A strong linear correlation was observed for both associations, with R² > 0.8 for PbTs and R² > 0.9 for BdHl. Given the importance of grassland diversity research, its teaching should be predominantly practical and conducted outside the classroom. To achieve this, an inquiry-based constructivist methodology is employed, which is particularly suitable for learning the phytosociological method, allowing students to take ownership of their learning process. The aim of this teaching approach is to expose students to field research methodologies, enhancing their scientific training. The results are highly positive, with a 100% success rate in students’ comprehension of the two grassland types after the teaching-learning process. Full article

Ozone depletion, global warming, soil degradation, etc., could be, to a great extent, instrumental in making our Earth an unsafe place. Therefore, to prevent further damage, Article 6 of the United Nations Framework Convention on Climate Change (UNFCCC) emphasizes spreading awareness among the members of the planetary community to protect the planet. The study aims to identify teaching pedagogies that can effectively develop awareness and responsibility among university youth for a sustainable future. The study adopts an exploratory triangulation approach and uses three instruments: a closed-ended questionnaire, a focus group interview, and a comparative performance of control and experimental groups. Fifty-one faculties from two government universities of Saudi Arabia: Qassim University, Qassim, and Prince Sattam bin Abdulaziz University, Alkharj along with 47 students pursuing conversation courses at Level Three in Prince Sattam University participated in the study. JASP 0.9 open-source software was used for statistical analysis. The results revealed that constructivist inquiry-based approaches promoted sustainable development education. Full article

This study explores the use of digital simulations in STEM education, addressing the gap in systematic reviews synthesizing recent advancements and their implications for teaching and learning by focusing on their impact on learning outcomes and student engagement across general and special education settings. The review includes 31 peer-reviewed empirical studies published in the last five years, sourced from ERIC, Scopus, and Web of Science, and adheres to the PRISMA methodology to ensure transparency and rigor. The findings reveal that interactive simulations are the most widely used type of digital tool, accounting for 25 of the 31 studies, followed by game-based simulations and virtual labs. Quasi-experimental designs dominate the research landscape, often employing pre- and post-tests to evaluate intervention effectiveness. While inquiry-based learning emerges as the most frequently implemented instructional strategy, hybrid and simulation-based approaches also feature prominently. Despite the evident benefits of digital simulations in enhancing conceptual understanding, engagement, and problem-solving skills, research gaps remain, particularly regarding their application in primary and special education contexts. This review underscores the need for diverse research methodologies and broader population studies to maximize the potential of digital simulations in STEM education. Full article

Inquiry-based learning (IBL) has become a cornerstone of contemporary science education, championed by frameworks like the Next Generation Science Standards (NGSS). While designed to engage students actively in scientific practices, inquiry is often misapplied, resulting in an overemphasis on hands-on investigations. This investigation-centric approach can overshadow other essential phases of inquiry, leading to a superficial understanding of scientific concepts. This paper introduces a Comprehensive Inquiry-Based Science Education (CIBSE) Framework, grounded in responsive teaching and aligned with the NGSS scientific and engineering practices. The framework emphasizes student reasoning, explanation, and the balance between short exploration and scaffolded support, aiming to offer a more holistic approach to inquiry-based science instruction. By synthesizing key elements from existing models and cognitivism, constructivism, and sociocultural learning theories, the CIBSE Framework addresses current gaps and limitations, providing educators with strategies to guide students toward deeper conceptual understanding and critical thinking. Ultimately, this balanced, adaptable framework empowers educators to meet diverse classroom needs, fostering scientific literacy and critical thinking skills essential for navigating an increasingly science-oriented world. Full article

The views and practices of teaching mathematics are significantly influenced by the cultural and social contexts, resulting in differences in teaching traditions among countries. Thus, when evaluating the effectiveness of professional development (PD) programs, it is crucial to consider differences in teaching traditions between PD participants and providers. There is limited research that examines PD participants’ acculturation strategies in such circumstances. This case study examines the influence of the PD program that introduced current teaching traditions in American mathematics education to Kazakhstan’s university mathematics faculty on their perceptions and practices of teaching discrete mathematics to aspiring mathematics teachers. The PD program focused on connecting abstract mathematical concepts to real-life applications, and integrating technology and STEM applications using inquiry-based strategies. The study findings indicate that, while PD enhanced faculty knowledge and attitudes toward technology integration, it did not significantly alter their views on teaching practices. A traditional teacher-centered approach persisted even when technology was incorporated, highlighting the deeply ingrained nature of educational traditions and their resilience to change. This underscores the importance of considering the cultural context and addressing deeply held beliefs in professional development initiatives, especially when aiming for substantial shifts in teaching practices. Full article