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1.
AbstractDespite evidence of quality teaching in Science, Technology, Engineering and Mathematics (STEM) subject domains and insistence on the part of many national governments on the economic value of STEM, education, recruitment and retention into STEM subject fields and occupations is said to be continually blighted by a ‘leaky pipeline’. In the UK context, schools are seen to benefit from a multitude of external STEM engagement and enrichment providers and initiatives. However, despite evidence of the positive impacts of STEM engagement on learners, there exists a dearth of understanding related to how principles of STEM engagement can facilitate STEM teachers in becoming more pedagogically innovative and relevant and, therefore, engaging of their learners in the classroom context. In this article, we employ a secondary data analysis of two prominent cases of public engagement in science and technology (PEST) in the UK to elicit combined lessons for STEM engagement and the pedagogical development of teachers. We consider the successes of science dialogue in establishing principles of best practice that might be transposed to the development of teachers as more able and effective in the engagement of learners in STEM. 相似文献
2.
Alexandra J. Macbeth Hannah S. Zurier Erin Atkins Sam R. Nugen Julie M. Goddard 《Journal of Food Science Education》2021,20(1):31-47
Connecting the public to concepts in science, technology, engineering, and mathematics (STEM) is an essential for technological advancement and inspiring future scientists, impacting both the communicator and the audience's understanding of scientific topics. Without proper communication of scientific knowledge, acceptance and implementation of new technologies can be hindered. Additionally, increasing public awareness about current scientific issues through STEM engagement permits more informed policy and consumer choices, especially in the field of food science where many new food technologies are met with initial resistance by the consuming public. Here, we describe an event that introduced topics in food science to the nonexpert public, including K‐8th grade participants and their adult caregivers in an informal learning environment. This program consists of six activities that collectively introduce three areas in food science: food chemistry, food microbiology, and process engineering. Protocols are provided for each activity including a materials list (with the option to scale up or down according to event duration, event space allowances, and number of participants), learning objectives and discussion points that are adaptable to different age groups, event spaces, or budgets. Each activity has a participatory component to ensure both audience member and instructor engagement. A program designed for food science communication empowers young scientific minds to better understand complex scientific topics and could inspire them to envision a possible career in STEM fields, with the additional benefit of providing graduate students an exciting medium through which they may practice their science communication skills, potentially benefiting not only their personal academic and professional skills but also broader societal needs. 相似文献
3.
Sheron L. Mark 《Cultural Studies of Science Education》2018,13(4):983-1003
Black males, as one non-dominant population, remain underrepresented and less successful in science, technology, engineering, and mathematics (STEM). Researchers focused on non-dominant populations are advised against generalizations and to examine cultural intersections (i.e. race, ethnicity, gender, and more) and also to explore cases of success, in addition to cases of under-achievement and underrepresentation. This study has focused on one African American male, Randy, who expressed high-achieving STEM career goals in computer science and engineering. Furthermore, recognizing that culture and identity development underlie STEM engagement and persistence, this long-term case study focused on how Randy developed a STEM identity during the course of the study and the implications of that process for his STEM career exploration. Étienne Wenger’s (1999) communities-of-practice (CoP) was employed as a theoretical framework and, in doing so, (1) the informal STEM program in which Randy participated was characterized as a STEM-for-social-justice CoP and (2) Randy participated in ways that consistently utilized an “economics” lens from beyond the boundaries of the CoP. In doing so, Randy functioned as a broker within the CoP and developed a non-traditional STEM identity-in-practice which integrated STEM, “economics”, and community engagement. Randy’s STEM identity-in-practice is discussed in terms of the contextual factors that support scientific identity development (Hazari et al. in J Res Sci Teach 47:978–1003, 2010), the importance of recognizing and supporting the development of holistic and non-traditional STEM identities, especially for diverse populations in STEM, and the implications of this new understanding of Randy’s STEM identity for his long-term STEM career exploration. 相似文献
4.
Peggy Shadduck 《Community College Journal of Research & Practice》2013,37(11):719-732
ABSTRACTDespite good career prospects in science, technology, engineering, and mathematics (STEM) fields, persistence of students in STEM fields of study at the community college and transfer to universities to pursue STEM majors is often quite low. Theories of persistence emphasize the importance of engagement, integration, validation, and financial assistance. The DCCCD STEM Institute is a comprehensive cocurricular program for community college STEM students. It illustrates the application of persistence theories in a multicollege urban district with a diverse student body. The STEM Institute uses a student/faculty cohort model with mentoring, professional skills programming, and scholarship support to transform student perceptions of themselves, integrate them into a STEM educational community, and validate their membership within that community. Institute membership also reduces isolation and financial concerns as potential barriers to persistence. STEM faculty also participate in professional skill development through a cross-college and cross-disciplinary cohort. Data on students who participated in the DCCCD STEM Institute from 2010 through 2014 show that 92% remain in a STEM educational or career pathway. Important practice implications for community college professionals include (1) forming student and faculty cohorts, (2) facilitating the development of mentoring relationships, (3) providing adequate centralized staffing, and (4) integrating resources and opportunities into a unified cocurricular program. 相似文献
5.
The purpose of Science in Action (SIA) was to examine the relationship between implementing quality science, technology, engineering, and math (STEM) service-learning (SL) projects and the effect on students' academic engagement in middle school science, civic responsibility, and resilience to at-risk behaviors. The innovative project funded by the Corporation for National and Community Service (CNCS) included 6,000+ middle school at-risk students (eligible for at least 50% free or reduced-cost lunch), 126 science teachers who integrated STEM problem-based SL pedagogy into science instruction to teach students to solve real problems in schools and communities. The project involved 20 schools and communities with assistance from 120 community partners. Participants completed pre- and post-SL surveys on academic engagement, civic responsibility, and resilience; qualitative data were collected from journals, interviews, focus groups, observations, and field notes. Results highlight exemplary SL projects that demonstrated increased student academic engagement and achievement for students living in high poverty areas with potential at-risk behavior. Implications for future research and educational practices are discussed. 相似文献
6.
Writing-to-learn in undergraduate science education: a community-based, conceptually driven approach
Despite substantial evidence that writing can be an effective tool to promote student learning and engagement, writing-to-learn (WTL) practices are still not widely implemented in science, technology, engineering, and mathematics (STEM) disciplines, particularly at research universities. Two major deterrents to progress are the lack of a community of science faculty committed to undertaking and applying the necessary pedagogical research, and the absence of a conceptual framework to systematically guide study designs and integrate findings. To address these issues, we undertook an initiative, supported by the National Science Foundation and sponsored by the Reinvention Center, to build a community of WTL/STEM educators who would undertake a heuristic review of the literature and formulate a conceptual framework. In addition to generating a searchable database of empirically validated and promising WTL practices, our work lays the foundation for multi-university empirical studies of the effectiveness of WTL practices in advancing student learning and engagement. 相似文献
7.
Emily A. Dare Elizabeth A. Ring-Whalen Gillian H. Roehrig 《International Journal of Science Education》2013,35(12):1701-1720
ABSTRACTAs more and more science teachers in the United States are now expected to implement STEM education in their classrooms, it is important to understand how teachers conceptualise STEM education. This information can then be used to provide teachers with meaningful support as they move towards implementation of STEM education. Understanding that not all representations of STEM are equal, this mixed-methods study used a phenomenographic lens to examine science teachers’ perceptions of eight different models of STEM education through photo elicitation interviews. Part of this was done though an activity in which teachers ranked different models of STEM education by arranging them in a continuum. Findings reveal that teachers are most drawn to models of STEM education that show STEM beyond school settings and that include clear intersections between the disciplines represented in the acronym. This study sheds light on the importance of creating a shared conception of STEM education in order to have productive conversations across various stakeholders within the STEM education community. 相似文献
8.
Gale M. Sinatra Ananya Mukhopadhyay Taylor N. Allbright Julie A. Marsh Morgan S. Polikoff 《The Journal of educational research》2017,110(3):308-316
ABSTRACTThe curriculum, Hot Wheels Speedometry (Mattel, El Segundo, CA, USA), was designed to align with the Next Generation Science Standards for science and the Common Core State Standards for mathematics. Our objective was to develop, implement, and evaluate the impact of this integrated science, technology, engineering, and mathematics (STEM) curriculum on students' knowledge, interest, and engagement. The authors conducted the study in a district where students were predominantly from communities under-represented in STEM fields. The findings indicate that student individual interest developed. Furthermore, students demonstrated affective, behavioral, and cognitive engagement along their progression of interest development. The study shows promise for the development of interest and engagement in under-represented groups through the use of an integrated STEM curriculum. 相似文献
9.
AbstractHigh school underrepresented minority students in the US are at an increased risk of dropping out of the STEM pipeline. Based on expectancy-value theory, we examined if Latino students’ perception of support from parents, siblings/cousins, teachers, and friends in 10th grade predicted their science ability self-concepts and values, which in turn predicted their classroom engagement. Survey data were collected from 104 Latino high school students and their science teachers. The findings suggest that adolescents’ perceptions of overall support and home-based support predicted adolescents’ science ability self-concepts at 10th grade while controlling for their 9th grade self-concepts. Although adolescents reported high support from teachers, teacher or school-based support alone was not a strong correlate of their motivational beliefs. Perceived support was indirectly related to classroom engagement through adolescents’ ability self-concepts. Feeling supported across home and school may be necessary to sustain adolescents’ science motivational beliefs and, in turn, their science classroom engagement. 相似文献
10.
This mixed method study investigated the extent to which the use of a model built around student-led questioning and feedback improved the learner engagement and attainment of a cohort of students. It compared outcomes from an experimental with a control group of students in Key-Stage 3 using a set of parameters. It found that the experimental group, who were taught using this model, showed improvements in engagement and attainment when compared to the control group. A model of discourse was proposed to help students take ownership of their learning and offered as a means of helping to transform science teachers’ classroom pedagogy. 相似文献
11.
Laura S. Tenenbaum Margery K. Anderson Marti Jett Debra L. Yourick 《Innovative Higher Education》2014,39(5):375-385
This study examined a novel mentoring model, near-peer mentorship, that supports the development of mentee and mentor, incorporates established principles of mentoring, and offers unique opportunities to integrate research and teaching in a science, technology, engineering, and mathematics (STEM) internship. Using qualitative methods, this model was examined from the perspectives of near-peer mentors and student mentees during a science education internship at the Walter Reed Army Institute of Research. Results revealed that this mentorship model contributed to personal, educational, and professional growth for near-peer mentors and increased the interest and engagement of students studying STEM. We discuss implications, limitations, and future directions. 相似文献
12.
M. Gail Jones Tammy Lee Katherine Chesnutt Sarah Carrier Megan Ennes Emily Cayton 《International Journal of Science Education》2013,35(14):1962-1976
ABSTRACTAlthough there has been some success with programmes that aim to increase STEM involvement by women and underserved minorities, science educators continue to seek ways to promote students’ interest in STEM. This study builds on social cognitive career theory (SCCT) and the theory of enclothed cognition to assess the impact of wearing lab coats on 5th-grade students. Students were assigned to a treatment group (that wore lab coats, n = 106) or a control group (that did not wear lab coats, n = 110) for 10 science classes taught by their classroom science teacher. Students were assessed pre and post to the intervention with a survey designed to measure science interest, recognition from others as a science person, science self-efficacy, and STEM career goals. Results showed students’ interest in science was not significantly changed due to wearing the lab coat, but the lab coats did have significant effects on students’ perceived recognition by others as being a science learner. Furthermore, those treatment students with low self-efficacy (compared to those with high self-efficacy) and those with who did not report having access to a parent with a STEM career had significant increases in perceptions of self-efficacy in science. 相似文献
13.
Web-based science education often involvesactivities that may enhance deaf students'learning. Research efforts to date indicategreat potential for web-based instruction,while simultaneously revealing precautionswhich need to be considered when developingmaterials for use with students who are deaf.Educators of deaf students need to beparticularly aware of such factors as readingability, motivation engagement of the students,and the need for visual reinforcement of thescience content.In this paper, three empirical research studiesrelated to earth science, chemistry, andphysical science are summarized. The results ofthese studies, as well as those from relatedempirical research, support the view that theremay be a beneficial synergistic learning effectobtained by the careful interspersing of textand American Sign Language explanations withanimation and other graphic organizers, and byencouraging the deaf learner to interact withthe materials through such techniques as theuse of adjunct questions. 相似文献
14.
Calls to strengthen education in science, technology, engineering, and mathematics (STEM) are underscored by employment trends and the importance of STEM innovation for the economy. The Study of Mathematically Precocious Youth (SMPY) has been tracking over 5,000 talented individuals longitudinally for 40 years, throwing light on critical questions in talent identification and development in STEM. SMPY includes individuals identified in 7th/8th grade as in the top 1% or higher in mathematical or verbal ability, and a comparison group identified as top STEM graduate students. SMPY findings cover the educational and occupational attainments of participants, including a large percentage earning a degree or pursuing high powered careers in STEM; gender differences; the extent to which high school experiences, abilities, and interests predict later outcomes; and subsequent creative production. Mathematical reasoning ability as measured by standardized tests is a reliable predictor for later math/science engagement and achievement in adulthood, and spatial ability adds predictive value. Exposure to appropriate educational opportunities do correlate with career achievement and creative production. SMPY researchers have concluded that potential future STEM innovators can be identified early and that educational interventions can increase their chances of success. 相似文献
15.
Jillian L. Wendt Amanda Rockinson-Szapkiw Megan Cordes 《The Journal of educational research》2018,111(6):666-677
The authors of this exploratory study examine the influence of the Georgia science, technology, engineering, and mathematics (STEM) model; gender; race; and other achievement on elementary students’ science outcomes in Title I schools. Results of the study demonstrate that a positive relationship exists between students participating in a STEM-certified school and science achievement at the third-grade level (n = 339), and that race, gender, and mathematics and reading achievement did not significantly explain science achievement. At the Grade 5 level (n = 279), a negative relationship was found between science achievement and type of school, with students participating in STEM schools scoring lower than those students participating in non-STEM schools. Moreover, in Grade 5, the combination of demographic variables, race and gender, did significantly explain science achievement. The practical and empirical implications of the results are discussed. 相似文献
16.
Advances in online geospatial technologies (GST) have expanded access to K-12 classrooms which has implications for the support teachers require to effectively integrate GSTs to promote learning. Previous studies have shown the impact of GST-integrated lessons on student engagement, spatial thinking skills, and/or content knowledge; however, most of these studies have been small in scope and scale and frequently focus on the affordances of the technology, without addressing the context of the implementation and student characteristics for whom GST is most impactful. We attempt to address some of these gaps. Our program scaled an effective GST-focused professional learning and development program to a national audience through a facilitator development model. This paper explores the student characteristics and lesson factors that resulted in student interest in science and technology and careers in those fields. After teaching a Geospatial Inquiry lesson created during a teacher workshop, teachers (n = 82) submitted the lessons and surveys on the implementation of Geospatial Inquiry lessons. The implementation surveys and lessons were scored for alignment to the principles of high-quality Geospatial Inquiry. Students (n = 1924) completed a post-lesson retrospective survey and indicated the extent to which their perceptions and attitudes toward science and technology changed because of the lesson. Results indicate that teacher GST performance is associated with increases in student outcomes. Students with previous exposure to science activities were more likely to have increased interest and excitement in science and careers in science but decreased interest in technology careers. Students who had previous exposure to technology activities had increased interest and excitement in technology and careers in technology but decreased interest in science careers. Geospatial Inquiry lessons also had a significant impact on students who are traditionally underrepresented in STEM fields. After participating in the lessons, students who identify as female reported higher engagement and interest in science and higher interest in science careers. Students who identified as Black or Hispanic also reported higher interest and excitement in science and technology, and students who identified as Black reported marginally higher interest in science careers. 相似文献
17.
In this Reflection on Practice we propose a triple nexus of research, public engagement and teaching that could provide a new pathway for academic developers to enable greater engagement in learning and teaching issues from science, technology, engineering, and mathematics (STEM) academics. We argue that the public engagement activities demanded by STEM research funding can become proxies for the development of similar skills and dispositions essential to good university teaching. 相似文献
18.
There is a need to identify students' early attitudes toward mathematics and science to better support their long-term persistence in science, technology, engineering, and mathematics (STEM) careers. Seventh graders from a nationally representative sample (N = 2,861) were classified based on their responses to questions about their attitudes toward mathematics and science using latent class analysis. Four distinct groups of students that differed in terms of their attitudes were identified. There were relationships between attitudinal group membership, demographic characteristics, mathematics and science achievement, and STEM career attainment. Females and underrepresented minorities were more likely to be in the positive attitude group. However, despite these early positive attitudes, females and underrepresented minorities were less likely to be employed in a STEM career some 20 years later. Information about student interests organized in this manner can be used to better target specific interventions to support and encourage persistence in STEM careers. 相似文献
19.
The important role of self-efficacy (SE) in students' motivation, engagement, persistence, and academic achievements has been reconfirmed by ample research, both in general and for STEM disciplines. As most studies focused on traditional school systems, additional research is needed on how science SE develops in different educational environments, which was the goal of this study. Data were collected from 1979 students in Grades 5–9 from 19 traditional, Waldorf, and democratic schools in Israel. Students completed a questionnaire that assessed their science self-efficacy (SSE), general and academic self-efficacy (GASE), and the sources of their SSE: teachers', parents', and peers' social persuasions, vicarious experiences and mastery experiences. Results revealed that SSE and GASE differed in their levels and in the way they changed with grade. These differences, and variations in the roles of the various sources of SSE, appeared to be influenced by the schools' cultures and curricula. Quantitative results are accompanied by verbal illustrative examples from interviews with students and teachers. 相似文献
20.
Spela Godec 《British Journal of Sociology of Education》2020,41(2):147-159
AbstractResearch has highlighted that engagement with science is highly gendered and that the masculinised culture of science makes it difficult for many girls/women to engage. Meanwhile, a growing body of research has explored the potential of out-of-school spaces to provide more equitable engagement opportunities. In this paper, I examine engagement with science among working-class, self-identified ‘girly’ girls aged 11-13. I discuss how gender performances and engagement with science shifted across science lessons, school trips and family trips to science museums. The findings suggest that engagement with science is complex, contradictory and varies across spaces – girls’ performances of hyper-femininity supported engagement with science in some spaces, but made it difficult in others. Different spaces also afforded the girls different opportunities for performing gender, which in some instances opened up new ways for engaging with science. I conclude by discussing the implications for more equitable science education. 相似文献