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1.
Barbara Peterson Greta Bornemann Cheryl Lydon Kimberly West 《Peabody Journal of Education》2013,88(2):280-293
In rural settings, leaving for college can mean a young person's first step in leaving home forever (Sherman & Sage, 2011). That presents a serious challenge for college recruiters as they ask parents from Indian reservations or close-knit Hispanic or rural farming communities to allow their children to consider postsecondary opportunities. In this article, the authors discuss impediments to college-going that rural students face and shine a light on several efforts in central Washington State that help students connect to job opportunities in fast-growing, lucrative STEM (science, technology, engineering, and mathematics) careers in the region. Beyond inviting STEM professionals to job fairs, these efforts can expand opportunities for collaboration between STEM professionals and rural schools and teachers. Such opportunities might include enriching the K–12 curriculum with locally relevant problems of science, using local STEM professionals to collaborate on learning projects, and possibly engaging students to contribute to national databases and studies. These programs represent one way to highlight the real-world application of postsecondary education, encouraging students to pursue STEM college programs and careers. 相似文献
2.
Karim-Aly S. Kassam Leanne M. Avery Morgan L. Ruelle 《Cultural Studies of Science Education》2017,12(1):97-118
Using two case studies of children’s knowledge, this paper sheds light on the value, diversity, and necessity of Indigenous and place-based knowledge to science and engineering curricula in rural areas. Rural contexts are rich environments for cultivating contextual knowledge, hence framing a critical pedagogy of teaching and learning. Indigenous and rural place-based knowledge are nuanced and pragmatic in character, and offer solutions to both local and global challenges. Two case studies, drawn from the experience of Lakota and Dakota communities and rural New York State, demonstrate the need to conserve, transmit, and contribute to Indigenous and rural knowledge through experiential and place-based education that bridges the gap between children’s knowledge and global STEM. This knowledge is inherently diverse in its complexity and connectivity to habitat, and when viewed in this light, has the capacity to transform our perspectives on educational practices and policies as well as our overall outlook on conserving both ecological as well as cultural diversity worldwide. Because diversity and knowledge are necessary for the survival of life on this planet, an enriched concept of pedagogical pluralism, in terms of multiple ways of knowing, is a necessity. 相似文献
3.
《The Journal of educational research》2012,105(5):374-376
ABSTRACTPresent federal education policies promote learning in science, technology, engineering, and mathematics (STEM) and the participation of minority students in these fields. Using longitudinal data on students in Florida and North Carolina, value-added estimates in mathematics and science are generated to categorize schools into performance levels and identify differences in school STEM measures by performance levels. Several STEM-relevant variables show a significant association with effectiveness in mathematics and science, including STEM teacher turnover, calculus and early algebra participation, and mathematics and science instructional indices created from survey items in the data. Surprisingly, a negative association between students’ STEM course participation and success in STEM is consistently documented across both states, in addition to low participation of underrepresented minority students in successful schools in STEM. 相似文献
4.
Previous research suggests that in classes that take an integrated approach to science, technology, engineering, and math (STEM) education, students tend to engage in fulfilling goals of their engineering design challenges, but only inconsistently engage with the related math and science content. The present research examines these inconsistences by focusing on student engagement, or effort, towards math and science concepts while working on an engineering challenge, through the lens of expectancy-value theory. Specifically, we examine how students’ perceptions of the value of math and science and expectancy for success with the math and science relate to the efforts they put towards using math and science while working on engineering challenges. Our results suggest that subjective task value significantly predicts efforts towards both math and science, whereas neither expectancy, nor the interaction between expectancy and value predicted effort. We argue that integrated learning environments need to help students understand how the domains of math, science, and engineering support their work in fulfilling the engineering project design goals. In other words, we argue that we, as educators, must help students to recognise the value of each of the domains addressed within STEM integrated learning environments. This paper discusses strategies for accomplishing this goal. 相似文献
5.
Changes in science teachers' conceptions and connections of STEM concepts and earthquake engineering
ABSTRACTThe authors find justification for integrating science, technology, engineering, and mathematics (STEM) in the complex problems that today's students will face as tomorrow's STEM professionals. Teachers with individual subject-area specialties in the STEM content areas have limited experience in integrating STEM. In this study, the authors investigated the conceptual changes of secondary school teachers teaching domain-specific STEM courses after a week-long professional development experience integrating earthquake engineering and domain-specific concepts. They documented and then triangulated outcomes of the experience using participating teachers' concept maps and teacher-generated written materials, respectively. Statistical comparisons of participants' concept maps revealed significant increases in their overall understanding of earthquake engineering and more accurate linkages with and among science domain-specific concepts. Content analyses of teachers' learning products confirmed the concept map analysis and also provided evidence of transfer of workshop learning experiences into teacher-designed curriculum products accurately linking earthquake engineering and domain-specific STEM content knowledge. 相似文献
6.
为了更好促进美国STEM教育改革,美国出台了《STEM2026:STEM教育创新愿景》。该报告提出:STEM教育要从娃娃抓起;STEM教育要丰富生源,让更多弱势群体接受优质STEM教育;STEM教育要从校内走向校外,构建校内外一体化的STEM教育环境;STEM课程要注重学科的交叉整合,不仅要实现科学、技术、工程和数学之间的融合,还要重视STEM与其他学科的融合;STEM教学要融入游戏且具有风险性,让学生在探究中感知STEM教育的魅力,且养成不畏险阻的科学精神;STEM考评方式要多样且能促进学生更好地学习,为此考评方式要创新且具操作性。 相似文献
7.
Hyewon Jang 《Journal of Science Education and Technology》2016,25(2):284-301
Gaps between science, technology, engineering, and mathematics (STEM) education and required workplace skills have been identified in industry, academia, and government. Educators acknowledge the need to reform STEM education to better prepare students for their future careers. We pursue this growing interest in the skills needed for STEM disciplines and ask whether frameworks for 21st century skills and engineering education cover all of important STEM competencies. In this study, we identify important STEM competencies and evaluate the relevance of current frameworks applied in education using the standardized job-specific database operated and maintained by the US Department of Labor. Our analysis of the importance of 109 skills, types of knowledge and work activities, revealed 18 skills, seven categories of knowledge, and 27 work activities important for STEM workers. We investigate the perspectives of STEM and non-STEM job incumbents, comparing the importance of each skill, knowledge, and work activity for the two groups. We aimed to condense dimensions of the 52 key areas by categorizing them according to the Katz and Kahn (1978) framework and testing for inter-rater reliability. Our findings show frameworks for 21st century skills and engineering education do not encompass all important STEM competencies. Implications for STEM education programs are discussed, including how they can bridge gaps between education and important workplace competencies. 相似文献
8.
This article shares findings from a multilevel analytic induction of administrators, teachers, and gifted students within specialized science, technology, engineering, and mathematics (STEM) schools about their beliefs regarding the role of standards and standardized tests in the education of gifted learners. Sharing results from a cross-case analysis of six schools, we explore the ways in which student experiences of standards-based learning differ from the perceptions of their teachers and school administrators. We found that there is no consensus across administrators, teachers, and students regarding the impact that standards have in the educational process or on outcomes within specialized STEM schools, though all community members value and seek to create deep learning opportunities for students. 相似文献
9.
Bárbara Filipa Casqueria Coelho Gabriel João Alexandre Dias-de-Oliveira Victor Fernando Santos Neto António Gill D’Orey De Andrade-Campos 《European Journal of Engineering Education》2018,43(6):950-966
Methodologies for engineering learning and teaching (MELT) approach aims to enhance the attractiveness of education through science, technology, engineering and mathematics (STEM) among young people, while promoting awareness of future careers in these areas. To this end, students’ expectations are considered within university programmes, aiming to an increased engagement in STEM careers. To accomplish these goals, a new and integrated approach (MELT) is presented, involving the main stakeholders in both scientific education and society. An education framework is presented, providing guidelines for an improved collaborative approach to STEM education in the future. Results from the pilot implementation of MELT are presented, from a small-scale education parliament prototype. From these initial stage and results, it is seen that there is a need for a proper alignment of expectations from all involved stakeholders, concerning the engineering education towards society’s demands. 相似文献
10.
The well-being of modern economies and societies is increasingly requiring citizens to possess capabilities in integrating knowledge and skills in science, technology, engineering and science to solve problems. However, by the end of schooling, the majority of Australian students show little interest in these discipline areas and have no plans to continue study or work in them; many refer to these disciplines as boring. Further, they typically have little experience in integrating knowledge and skills from these disciplines and/or in applying this to solve relevant problems. Therefore, there is a need to engage students with such learning experiences to develop their interest and capabilities, particularly during the early years of secondary schooling. This is not easy for teachers to respond to, but with the support of modern digital technologies and the new Australian curriculum, the potential is expanded and the challenge is more readily achievable. However, appropriate pedagogies need to be supported that include more authentic approaches to assessment. Learning activities need to support students to integrate knowledge and skills across discipline areas in tackling real problems, and this also needs to be reflected in how students are assessed. In this paper, I will draw on personal experience as a teacher, a review of recent literature, components of the Australian Curriculum, and findings from research projects associated with my University research centre, to argue for, and illustrate how, teachers can orchestrate powerful learning activities to promote an interdisciplinary approach to STEM. 相似文献
11.
《学校用计算机》2012,29(1-2):157-173
Inquiry-based instruction has become a hallmark of science education and increasingly of integrated content areas, including science, technology, engineering, and mathematics (STEM) education. Because inquiry-based instruction very clearly contains surface, deep, and implicit structures as well as engages students to think and act like scientists, it is considered a signature pedagogy of science education. In this article the authors discuss the nature of scaffolded inquiry-based instruction and how it can be applied to the use of emerging technologies, such as data mashups and cloud computing, so that students not only learn the content of STEM, but can also begin answering the critical socioscientific questions that face the modern era. 相似文献
12.
Gwen Nugent Bradley Barker Greg Welch Neal Grandgenett ChaoRong Wu Carl Nelson 《International Journal of Science Education》2013,35(7):1067-1088
The purpose of this research was to develop and test a model of factors contributing to science, technology, engineering, and mathematics (STEM) learning and career orientation, examining the complex paths and relationships among social, motivational, and instructional factors underlying these outcomes for middle school youth. Social cognitive career theory provided the foundation for the research because of its emphasis on explaining mechanisms which influence both career orientations and academic performance. Key constructs investigated were youth STEM interest, self-efficacy, and career outcome expectancy (consequences of particular actions). The study also investigated the effects of prior knowledge, use of problem-solving learning strategies, and the support and influence of informal educators, family members, and peers. A structural equation model was developed, and structural equation modeling procedures were used to test proposed relationships between these constructs. Results showed that educators, peers, and family-influenced youth STEM interest, which in turn predicted their STEM self-efficacy and career outcome expectancy. STEM career orientation was fostered by youth-expected outcomes for such careers. Results suggest that students’ pathways to STEM careers and learning can be largely explained by these constructs, and underscore the importance of youth STEM interest. 相似文献
13.
Informal science opportunities provide authentic experiences to stimulate students’ interests in science and engineering and foster their curiosity through problem-based investigations. STEMulate Engineering Academy was designed to provide children (Grades 3–5) engineering opportunities and offer teachers a unique professional development experience. The program serves as a practicum experience for teachers seeking a gifted and talented add-on license and the camp also offers free professional development to area teachers. Using a co-teaching approach, students gained firsthand experiences from an engineer in the field, and teachers collaborated with engineers to make the content more relevant. Despite a limited number of contact hours, students and teachers demonstrated growth on pre and post engineering assessments. Informal learning opportunities provided by programs such as STEMulate Engineering Academy could possibly spark student interest in science, technology, engineering, and mathematics (STEM)––leading them to a promising career in a STEM field. 相似文献
14.
Winnie Wing Mui So Ying Zhan Stephen Cheuk Fai Chow Chi Fai Leung 《International Journal of Science and Mathematics Education》2018,16(6):1003-1023
This study adopted a researcher-generated framework to analyze STEM activities demonstrated in primary students’ science projects in an annual extracurricular event held in Hong Kong. Ten students’ project reports were randomly selected from each of the three groups of 24 outstanding, 45 merit, and 68 consolation awarded projects. Content analysis was conducted to code the activities in each project. The coded information was then changed into numerical data for quantitative analysis. The results showed that, in general, more engineering and science activities than technology and mathematics activities were adopted by the primary students in their projects. More projects with the Outstanding Award conducted STEM activities than those projects with Merit and Consolation Awards, and significant group differences existed in the science and mathematics activities. Besides, science activities significantly positively related to engineering and mathematics activities. Furthermore, STEM-related content knowledge of discipline core ideas and crosscutting concepts were reported. This study sheds light on the pattern of STEM activities in students’ science projects, and has implications for promoting STEM integration in primary education. 相似文献
15.
Today’s learners are engaging in study where access to knowledge is easier than it ever has been in human history. Rapid advancement of technology and the increasing ease with which communication and interaction can occur has dramatically changed the landscape in which teachers of science, technology, engineering and mathematics (STEM) operate. The contemporary skills that students are required to possess include inter alia problem solving, creativity, teamwork abilities, communication skills and emotional intelligence. Despite the universal acceptance of their importance, these skills are commonly cited as underdeveloped and in addition, are still accompanied by outmoded ‘traditional’ forms of teaching and assessment. While the approaches of twentieth-century education were successful in developing knowledge stores, the ubiquity of access to knowledge—coupled with the constantly changing nature of the world today—requires alternative conceptions of teaching and learning. This article focuses primarily on an exploration of learning metaphors and teaching with the overall lens of creating self-regulated and furthermore, self-determined learners. The article begins with an exploration of learning in STEM education and a critique of the pedagogical perspective, discussing why this epistemology may be insufficient for contemporary STEM learning. The article then considers an alternative and potentially more contemporary notion; the emergent pedagogic space. The article presents a theoretical model to conceptualise learning in STEM education, with the goal of informing both practice and research. The realisation of this proposed emergent pedagogical space is explored through an applied case study from a design and technology context. 相似文献
16.
Leah D. Pride 《理论付诸实践》2014,53(1):41-47
All science, technology, engineering, and mathematics (STEM) educators working in urban public school systems are expected to provide opportunities for students to develop foundational scientific literacy skills in mathematics and science learning. However, the demands on STEM educators teaching the “gifted” or “high-performing” students attending STEM-focused schools are much higher. Educators are expected to motivate, nurture, and propel the intrinsic or earned abilities these students possess. This article shares teaching- and learning-informed stories of a STEM educator (the author) and her students attending New York City Specialized High School for the Sciences. The goal is to document the complexities surrounding the notion of a gifted mindset: first from the author's own experiences as a female scientist and person of color and second from the narratives of the students. Teaching and learning within a prestigious public school for the sciences comes with many narratives of challenge and triumph. The learning stories of empowered students reveal that they desire opportunities in the STEM classroom for meaningful learning. Students who want to take ownership in their learning will find a way to appropriate meaningful learning, even in restrictive classrooms. Learning stories, as a theoretical framework and narrative assessment tool, are particularly useful in contextualizing the multi-dimensional aspects of being a STEM professional in education. 相似文献
17.
Emma Smith 《British Educational Research Journal》2011,37(6):993-1014
This paper considers gendered patterns of participation in post‐compulsory STEM education. It examines the trajectory of learning that takes students from A‐level qualifications, through undergraduate work and into employment or further study. It also uses a long‐term view to look at the best available evidence to monitor participation and attainment over an extended period of time. The findings suggest that almost three decades of initiatives to increase participation in STEM subjects have had little noticeable impact on the recruitment data and gendered patterns of participation persist in several subject areas. This is despite more women entering HE and little gender difference in the entry qualifications for STEM subjects. While more women are studying science, as broadly conceived, than ever before, recruitment to key areas, namely physics and engineering remains stagnant. However, for those women who do remain in the ‘science stream’ patterns of employment in graduate careers and further study appear relatively equitable. 相似文献
18.
The promotion of students’ achievement and competence in the so-called STEM disciplines is one cornerstone of current educational research and practice. In particular, as early as elementary school, the fostering of an adequate understanding of science is a normative goal of science education. It facilitates students’ science learning and enables them to understand the nature and development of scientific knowledge. Based on the relevance of the promotion of young children’s understanding of science, a corresponding science intervention was recently developed and successfully evaluated in a first study under highly controlled conditions. The goal of the present study was to investigate the effectiveness of this intervention when implemented in practice. One hundred seventeen third- and fourth-grade students and 10 trained course instructors participated in this study. We applied a randomized block design with waitlist control groups and repeated measures. The results revealed that children assigned to the intervention compared with children assigned to the waitlist control group showed better inquiry-related methodological competencies (a better understanding of the scientific inquiry cycle and experimentation strategies) and a higher need for cognition. The findings point to the successful implementation of the intervention and are compared with the results of the first study. 相似文献
19.
O.B. Savinskaya 《Russian Education & Society》2017,59(3-4):206-216
The article discusses the importance of introducing training programs for preschool children that allow them to master basic knowledge in science, technology, engineering, and mathematics (STEM subjects) as an academic basis for the technological transition that is currently taking place in the modern world. It is shown that when preschool students study STEM subjects, it gives them a great advantage later in elementary, middle, and high school. As a result of our investigation of STEM subjects for preschoolers and the gender considerations that should be incorporated into successful teaching strategies, we have concluded that together with the preparation and institutionalization of such training programs it is necessary to teach the designers of educational programs as well as educators about the specific features that characterize how boys and girls learn. A curriculum that takes gender differences into account is one that does not allow the development of a gender dichotomy in education. Rather, it should ensure that both boys and girls have equal motivation and a positive attitude about STEM subjects. 相似文献
20.
University science outreach programmes are used to encourage more school students to select science, technology, engineering, and mathematics (STEM) subjects in further education and pursue science-related careers. The benefits of science outreach programmes are often espoused from the perspective of programme participants. Little attention, however, is given to what university students delivering the programmes gain from the experience. This paper seeks to illustrate the benefits of engineering students delivering STEM outreach programmes in schools. It reports on a qualitative case study of the experiences of two STEM Education and Outreach team members from a regional university in Australia. Content analysis of interview data highlighted not only the participants’ motivations and perceived benefits of being involved in the STEM programme but also revealed the skills and attributes honed throughout the experience. Involvement in the STEM outreach programme resulted in the development of social and personal responsibility generic graduate attribute skills, evidenced through their motivations to be involved, the demonstration of understanding of teaching and learning, and application of science communication skills. This study demonstrates that designing and delivering STEM outreach programmes assists in the development of skills that will be beneficial when pursuing careers in engineering in the future. 相似文献