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11 – 20 of over 18000Fernanda Gobbi de Boer Garbin, Carla Schwengber ten Caten and Diego Augusto de Jesus Pacheco
Although active learning methodologies are recognized as an effective means to achieve expected educational demands, in practice, the teaching and learning processes are still…
Abstract
Purpose
Although active learning methodologies are recognized as an effective means to achieve expected educational demands, in practice, the teaching and learning processes are still widely characterized by traditional pedagogy aspects. As a result, teaching innovations in science, technology, engineering and math (STEM) education are carried out in isolation in specific disciplines, programs or departments. To addresses these challenges and to stimulate useful teaching innovations, this study aims to propose the capability maturity model to active learning (CMMAL) for assessing the maturity level of active learning methodologies in higher education institutions (HEIs).
Design/methodology/approach
The CMMAL provides inputs for planning and decision-making, identifying variables such as the current state of teaching and learning processes, project management, team development, allocation of resources and infrastructure and the choice of evaluation and assessment methods. From the relevant literature, the primary aspects that impact on active learning were identified and incorporated into the structure of the model. Next, a survey was performed with 295 STEM professors and experts validating the scope of the model proposed.
Findings
The findings demonstrated the contribution of the CMMAL mainly to (1) assess the maturity levels of active methodologies in higher education and (2) stimulate the institutionalization of active learning practices in HEIs to minimize some problems related to the dissemination of new teaching practices.
Practical implications
The primary practical and academic contribution of our study is the proposition of an artifact with a scope compatible with the need of the HEIs for the implementation of active learning methodologies. This paper presents a different perspective of current literature in active learning in STEM education, introducing a model that contributes to open the dialogue with HEIs interested in better understand and improve the performance in student-centered pedagogy.
Originality/value
The model also informs and leads to specific recommendations for HEIs seeking to enhance the performance of and alter the culture around active learning methodologies.
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Mohamed A. Shahat, Sulaiman M. Al-Balushi and Mohammed Al-Amri
The purpose of the current study is to assess Omani teachers’ performance on tasks related to the stages of engineering design. To achieve this, data from an engineering design…
Abstract
Purpose
The purpose of the current study is to assess Omani teachers’ performance on tasks related to the stages of engineering design. To achieve this, data from an engineering design test was used, and demographic variables that are correlated with this performance were identified.
Design/methodology/approach
This descriptive study employed a cross-sectional design and the collection of quantitative data. A sample of preservice science teachers from Sultan Qaboos University (SQU) (n = 70) participated in this study.
Findings
Findings showed low and moderate levels of proficiency related to the stages of engineering design. Differences between males and females in terms of performance on engineering design tasks were found, with females scoring higher overall on the assessment. Biology preservice teachers scored higher than teachers from the other two majors (physics and chemistry) in two subscales. There were also differences between teachers studying in the Bachelor of Science (BSc) program and the teacher qualification diploma (TQD) program.
Originality/value
This study provides an overview, in an Arab setting, of preservice science teachers’ proficiency with engineering design process (EDP) tasks. It is hoped that the results may lead to improved instruction in science teacher training programs in similar contexts. Additionally, this research demonstrates how EDP competency relates to preservice teacher gender, major and preparation program. Findings from this study will contribute to the growing body of research investigating the strengths and shortcomings of teacher education programs in relation to science, technology, engineering and mathematics (STEM) education.
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Angela W. Peters and Verlie A. Tisdale
Claflin University is leading the way in graduating underrepresented minorities at the bachelor’s level and preparing them for graduate school in STEM. Claflin University is a…
Abstract
Claflin University is leading the way in graduating underrepresented minorities at the bachelor’s level and preparing them for graduate school in STEM. Claflin University is a small liberal arts institution with the primary focus on teaching. However, because of the national demand for STEM professions, and the gap between the supply and demand, Claflin administrators were astute enough (14 years ago) to realize that in order to be effective as a teaching institution, there must be a delicate balance between teaching and research. For the state of South Carolina which has the third largest percent population of African Americans (31%) in the country, educated and trained minorities in the STEM fields are in even higher need as they can serve as role models and help build up a minority higher education pipeline within their home towns. HBCUs are central to this mission of increasing minority participation in STEM and have been playing a vital role in educating underrepresented groups. Therefore, Claflin University made a courageous decision (14 years ago) to enhance the role of research-based teaching, specifically in STEM. This synergistic move would bolster Claflin’s competitiveness as a teaching institution with a strong and sustainable research core.
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Cleo Hughes Darden, Roni M. Ellington, Jigish Zaveri, Sanjay Bapna, Linda Akli, Stella Hargett, Prabir Bhattacharya, Ali Emdad and Asamoah Nkwanta
Cheryl J. Craig, Rakesh Verma, Donna W. Stokes, Paige K. Evans and Bobby Abrol
This research examines the influence of parents on students studying the science, technology, engineering, and mathematics (STEM) disciplines and entering STEM careers…
Abstract
This research examines the influence of parents on students studying the science, technology, engineering, and mathematics (STEM) disciplines and entering STEM careers. Participating youths were awarded scholarships from large funded US grant programmes. Cases of two graduate students (one female, one male) and one undergraduate student (male) are featured. The first two students in the convenience sample are biology and physics majors in a STEM teacher education program; the third is enrolled in computer science. National reports emphasizing the importance of parents on their children's education are presented, along with diverse international literature. The use of narrative in STEM curriculum and narrative inquiry in STEM research are also documented. Experience, story, and identity form the study's conceptual frame. The narrative inquiry research method employs broadening, burrowing, and storying and restorying to elucidate the students' academic trajectories. Incidents of circumstantial and planned parent curriculum making surfaced when the data were serially interpreted. Other noteworthy themes included: (1) relationships between (student) learners and (teacher) parents, (2) invitations to inquiry, (3) modes of inquiry, (4) the improbability of certainty, and (5) changed narratives = changed lives. While policy briefs provide sweeping statements about parents' positive effects on their children, narrative inquiries such as this one illuminate parents' inquiry moves within home environments. These actions became retrospectively revealed in their adult children's lived narratives. These small stories, while not generalizable, map how students, shaped by their parents' nurturing, enter the STEM disciplines and STEM-related careers through multiple pathways in addition to the identified pipeline.
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Mohamed A. Shahat, Sulaiman M. Al-Balushi, Shubair Abdullah and Mohammed Al-Amri
This study investigates a novel educational strategy in science, technology, engineering and mathematics (STEM) teaching that integrates the engineering design process (EDP) as a…
Abstract
Purpose
This study investigates a novel educational strategy in science, technology, engineering and mathematics (STEM) teaching that integrates the engineering design process (EDP) as a framework. The strategy aims to help teachers explain STEM concepts in a simplified way. We employed the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) methodology to enable a systematic review that evaluated the effectiveness of this approach in improving both teaching and learning in STEM subjects.
Design/methodology/approach
In order to fulfill the objectives of the review, key data were extracted from each of the 400 articles that were reviewed from three databases: Scopus, ProQuest Central and EBSCO. Two types of analysis were conducted, namely descriptive analysis and literature classification.
Findings
This systematic review analyzed 44 articles on the EDP, focusing on 18 detailed studies mainly from ProQuest, SCOPUS and EBSCO. It revealed a limited focus on gender’s impact on EDP and a trend toward interdisciplinary use and integrated research approaches. The study underscores the need for further exploration of demographic influences and preparation programs in EDP across various disciplines, aiming to inform future research and educational policies.
Originality/value
The study’s value lies in its comprehensive assessment of engineering design (ED) research over the past decade, serving as a key reference point. It highlights progress in the field, consolidates findings and provides insights into the field’s evolution, guiding future research directions in ED.
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Wynetta Y. Lee, Janet A. Guyden and P. Gayle Harris Watkins
Increasing the science, technology, engineering, and mathematics (STEM) workforce is a national priority. This discourse recognizes that everyone who graduates from college must…
Abstract
Increasing the science, technology, engineering, and mathematics (STEM) workforce is a national priority. This discourse recognizes that everyone who graduates from college must first have highly qualified teachers all along the elementary and secondary pipeline. Therefore, considerable attention is given to STEM educators. Like those who enter STEM disciplines with the intention of enjoying successful careers as practitioners, there are those who value the profession of teaching. The same problem with swelling the presence of skilled STEM practitioners is apparent in swelling the presence of STEM educators. In both cases, these small populations are not diverse; women of color are woefully underrepresented. Given the age when demands of professional accountability are excessive (even punitive), electing a career in education is not generally a first choice. Nonetheless, there are women of color who not only choose to teach, but also choose to teach in the some of the most cognitively challenging content areas. This chapter used qualitative research methods to understand how African American female undergraduate student come to select and persist in a STEM teacher preparation program.
Bridget Flanagan, Mairéad Hourigan and Aisling Leavy
This research seeks to explore the potential of Lesson Study as a vehicle to support professional development (PD) in a rural, Irish primary school. Lesson Study was utilised to…
Abstract
Purpose
This research seeks to explore the potential of Lesson Study as a vehicle to support professional development (PD) in a rural, Irish primary school. Lesson Study was utilised to design and implement integrated STEM (Science, Technology, Engineering and Mathematics) lessons with young children (ages 4–7 years).
Design/methodology/approach
Three teachers were introduced to and participated in four cycles of Lesson Study over the course of one school year. Qualitative data were generated from interviews, collaborative weekly meetings and observation sheets.
Findings
Analysis suggests that Lesson Study supported the development of a culture of collaboration and provided an opportunity for teachers to share their knowledge. Findings also reveal that Lesson Study motivated teachers to reflect on their role within the classroom and enabled them to move away from teacher-led approaches. Although teachers perceived Lesson Study to be a beneficial form of PD, factors constrained their engagement, including practical, cultural and sustainability challenges.
Practical implications
The study explores the adaptability of Lesson Study in first level education in the context of STEM education. It reveals teachers’ first experience of Lesson Study, given its stark contrast to more “traditional” PD experiences they are accustomed to. This article will, therefore, be of interest to teachers, school leaders and policy makers.
Originality/value
This paper contributes initial findings to a currently under-researched area, Lesson Study in a rural context. This study also combines Lesson Study with STEM education, which has not been widely explored.
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Cheryl J. Craig, Paige K. Evans and Donna W. Stokes
This chapter outlines the contents of Preparing Secondary STEM Teachers to Teach in America's Urban Schools. The volume begins with an overview of the teachHOUSTON STEM teacher…
Abstract
This chapter outlines the contents of Preparing Secondary STEM Teachers to Teach in America's Urban Schools. The volume begins with an overview of the teachHOUSTON STEM teacher education program in Chapter 2 and is followed by an account of the collaboration that took place between a Physics professor and a teachHOUSTON Physics teacher educator and its impact on STEM teacher preparation in Chapters 3-4. Chapters 5 and 6 include discussions about formal and informal learning opportunities and include a narrative of a student's experience on how the Noyce Internship Institute contributed to their STEM teacher learning. In Chapters 7–9, readers learn about the influence of parents, teachers, and professors on students' entry into and decision to work in the STEM and/or STEM education field, with an emphasis on those in STEM teacher education. Chapter 10 highlights the value of scholarship grants; Chapter 11 addresses the growth and development of teachHOUSTON, the impact of the scholarships awarded to many of its students and traces where its graduates currently are teaching in order to demonstrate that teachHOUSTON has fulfilled its mission. The final chapter of the book reflects on teachHOUSTON as a secondary urban teacher education program and summarizes significant points that have led to its success.
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