The Operation of Bureaus of Educational Research–With Particular Reference to Wisconsin

ABSTRACT

Advanced mathematics and science coursetaking is critical in building the foundation for students to advance through the STEM pathway—from high school to college to career. To invigorate students’ persistence in STEM fields, high schools have been introducing applied STEM courses into the curriculum as a way to reinforce concepts learned in traditional mathematics and science classes and to motivate students’ interests in a long-term pursuit of these areas. The author examines the role of taking applied STEM courses early in high school on taking advanced mathematics and science courses later in high school. The results suggest a positive link between early applied STEM coursetaking and later advanced mathematics and science coursetaking—one that is delineated by specific type of applied STEM course and by individual-level demographic characteristics. The findings of this study thus support policymakers and practitioners’ efforts to expand the STEM curriculum beyond traditional subjects. Continuing to do so may be one way to expand the number of students persisting in STEM.     

STEM课程校本开发的国际经验与启示

在STEM教育起步阶段,课程选择是教学实践的首要问题。通过文献分析发现,“国家或地方非营利性组织机构”提供的支持或指导型STEM课程、“第三方机构”提供的直接交付型STEM课程以及学校自主开发或与其它组织合作开发的校本开发型STEM课程构成了STEM课程可选择的三种类型。其中,兼具“学生发展立场-学校改革创新-教师专业实践”多重内涵的“校本开发型STEM课程”是办学主体实践智慧的凝结。国际上主要从教育决策、学校发展定位、教师专业发展、课程开发方法和策略等四个方面展开STEM课程校本开发的研究和实践。STEM课程校本开发的国际经验为我国STEM教育起步和发展提供了有益借鉴。     

Do stricter high school math requirements raise college STEM attainment?

This paper examines the impact of stricter high school math requirements on the likelihood of completing a degree in STEM fields. Exploiting cross-state variation in the timing of math reforms, I find that stricter math curriculum requirements significantly increased the proportion of the college-educated population earning a STEM degree. Within STEM, the increases in degree completion are concentrated in math and science while there is little discernible impact in technology and engineering. Further analysis suggests that high school graduation, college attendance, and overall degree completion are largely unaffected by the implementation of math reforms. Instead, stricter math curriculum requirements appear to have shifted some students away from non-STEM fields into STEM fields.     

Transforming STEM Education in an Innovative Australian School: The Role of Teachers' and Academics' Professional Partnerships

The Australian Science and Mathematics School (ASMS) is a purpose-built innovative senior secondary school situated on the grounds of Flinders University, South Australia. The school was established to address declining enrollments in senior secondary mathematics and science, students' negative attitudes, a shortage of qualified science, technology, engineering, and mathematics (STEM) teachers, and a curriculum that lacked relevance to contemporary life. Such research evidence called for transformation in STEM education and acknowledged that teachers' professional learning was central to achieving transformation. A key professional learning strategy employed by the school to transform STEM education was the engagement of teachers and academics as professional partners in developing interdisciplinary curriculum. The value and challenges of the professional partnership are explored in this article, noting the importance of valuing rather than dismissing dissonance between the groups.     

A Journey from STEM to STEAM: A Middle School Case Study

ABSTRACT

This article examines the initial journey of a middle school in South Carolina from a STEM (science, technology, engineering, and math) curriculum to a STEAM (STEM + art) curriculum. This is the first of a three-year longitudinal study that investigated the perceptions of the effectiveness, relative importance, and sustainability of a STEAM curriculum in which the arts animated learning on a daily basis for both teachers and administrators during the first year of implementation beginning in the fall 2014. The article also investigates the response that the faculty of a STEM-oriented middle school had to the induction of STEAM curriculum training.     

基于设计思维的技术教育STEM整合课程研究--以“设计更好的学校”课程为例

设计是技术教育中不可忽略的关键要素之一,设计思维可为各个领域的创新工作提供策略与方法上的指导。基于此,文章首先分析了技术教育中开展基于设计思维的STEM整合课程的机遇和必要性;接着,文章以“设计”为核心理念,提出了技术教育STEM整合课程的设计理念,并以此为指导,构建了基于设计思维的技术教育STEM整合课程框架;随后,文章以“设计更好的学校”课程为例,进行了框架的实践应用;最后,文章就未来技术教育的发展提出了建议。基于设计思维的STEM整合课程将技术与数学、科学、工程进行整合,让学生基于真实的设计挑战开展实践,有助于培养学生的批判性思维、问题解决能力和创新能力。     

“Finding the Joy in the Unknown”: Implementation of STEAM Teaching Practices in Middle School Science and Math Classrooms

In response to a desire to strengthen the economy, educational settings are emphasizing science, technology, engineering, and mathematics (STEM) curriculum and programs. Yet, because of the narrow approach to STEM, educational leaders continue to call for a more balanced approach to teaching and learning, which includes the arts, design, and humanities. This desire created space for science, technology, engineering, arts, and mathematics (STEAM) education, a transdisciplinary approach that focuses on problem-solving. STEAM-based curricula and STEAM-themed schools are appearing all over the globe. This growing national and global attention to STEAM provides an opportunity for teacher education to explore the ways in which teachers implement STEAM practices, examining the successes and challenges, and how teachers are beginning to make sense of this innovative teaching practice. The purpose of this paper is to examine the implementation of STEAM teaching practices in science and math middle school classrooms, in hopes to provide research-based evidence on this emerging topic to guide teacher educators.     

Attitudes of Secondary School STEM Teachers towards Supervising Research and Design Activities

Research and design activities are important focus points in international policies for secondary Science, Technology, Engineering and Mathematics (STEM) education. It is up to school teachers to implement and supervise these activities in the STEM classroom. However, not much is known about the attitudes teachers hold towards supervising research projects or design projects. In this study, a questionnaire to measure teacher attitudes towards supervising research activities and design activities in secondary school was completed by 130 Dutch teachers who taught the relatively new Dutch STEM subjects O&O (research and design) and NLT (nature, life, and technology). These integrated STEM subjects are project and context based and are taught in a limited number of schools. Important differences between these integrated STEM subjects are their student and teacher populations: NLT is taught in grades 10–12 by teachers with a qualification in a science subject, while O&O is taught in grades 7–12 and can be given by any teacher in secondary school. The results showed that on average, both O&O and NLT teachers had high self-efficacy scores on supervising research and design projects even when they had received no special education in doing so. Furthermore, the teachers in general viewed supervising research projects as a more relevant activity than supervising design. Since research and design activities are becoming more important in (inter)national curriculum standards, STEM teacher education and subsequent professional development should not only familiarize teachers with supervising research projects, but with design projects as well.

     

跨学科整合视角下国内外STEM课程质量比较与优化

STEM教育的不断发展,催生了对跨学科整合型课程的迫切需求。然而当前我国的STEM课程建设更多注重形式规范,总体质量堪忧,因此从跨学科整合视角来开发优质的STEM课程以指导教学迫在眉睫。比较与借鉴是提质增效解决问题的重要途径。为提升我国STEM课程建设质量,借鉴权威的STEM课程整合评价工具,从课程背景、工程设计挑战、科学内容整合、数学内容整合、教学策略、团队合作、交流、评估、组织等9个维度对58个国内外STEM优秀课程案例进行定性与定量对比分析后发现,我国的STEM课程案例在课程背景、科学内容整合、教学策略和评估四个方面较国外STEM课程存在明显不足。这在一定程度上制约了我国STEM课程建设和教学质量提升。未来我国STEM课程建设应从以下四个方面加强:一是提升对社会问题的响应度,培养学生的社会责任感;二是鼓励有效失败,营造真实的科学体验;三是丰富以学生为中心的策略,放大学生的思维过程;四是注重非正式评价,促进学生综合能力的发展。     

Good intentions are not enough: A case study uncovering perpetuation of internalized and interpersonal oppression in middle school STEM classrooms

Science teachers and educators seek to promote equity and inclusion within their classrooms. Yet, many do not examine how their roles could reproduce oppression that continues to exclude certain groups of students. Centering on how oppression interacts with science teaching and learning, this naturalistic study observed Ms. William and her implementation of two STEM units that integrate science and engineering, to understand power, race, and privilege dynamics in her middle school STEM classrooms. Specifically, we focused on understanding oppression at the interpersonal and internalized level in Ms. William's class. We collected and analyzed video recorded lessons from two different classrooms, two STEM curricula Ms. William had co-developed, and conducted semi-structured interviews after she taught her two STEM units. We identified themes of oppression perpetuated in the classroom by employing thematic analysis, which when guided by our theoretical framework enabled us to illuminate the complex relationship between science teaching and maintaining whiteness as the dominant discourse in science learning. Our findings suggest that an active and critical role from science teachers and educators are required; we must reflect deeply on our science curriculum and teaching strategies and identify practices that remains to be oppressive if promoting equity and inclusion is at the forefront of our science teaching.     

Fighting for Desired Versions of a Future Self: How Young Women Negotiated STEM-Related Identities in the Discursive Landscape of Educational Opportunity

In this article, we investigate how the national imperative to increase opportunities for young women of color in science, technology, engineering, and mathematics (STEM) and to broaden their participation was taken up locally at two high schools in one school district. Using ethnographic and longitudinal data, we focus on four young women of color (two at each school) as they negotiated STEM-related identities in the discursive and practice contexts of their lives at school. Using Holland and Lave’s concept of history in person, we view the young women as fighting for particular versions of a future self while entangled in discursive and social relations that threatened to position them differently than they wished to be. We find that their fight for future selves was not—for them—with the national narrative about women of color in STEM but with local school narratives that negatively positioned students of color more broadly and remained silent on issues of gender, the intersection of gender and race, and the implications for STEM. High school success in STEM came as a hopeful but potentially fragile byproduct of struggles to differentiate themselves from people like them (other Blacks, Latinas, the poor). Implications of these findings are discussed.     

A case for culturally relevant science education in the summer for African American youth

Abstract

This article focuses on the impact of culturally relevant teaching and learning during a summer enrichment program for high school students. Culturally relevant science instruction and curriculum helped students to foster a more positive interest in science and STEM careers as it provided students the opportunity to do science in meaningful and relevant ways. Students were able to see themselves represented in the curriculum and recognized their own strengths; as a result, they were more validated and affirmed in and transformed by, their learning. We use this case to warrant increased support for summer learning programs focused on providing African American youth with access to high quality, culturally relevant/responsive science education.     

Rural Students in Washington State: STEM as a Strategy for Building Rigor,Postsecondary Aspirations,and Relevant Career Opportunities

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.     

The consequences of “school improvement”: Examining the association between two standardized assessments measuring school improvement and student science achievement

For more than half a century concerns about the ability of American students to compete in a global workplace focused policymakers' attention on improving school performance generally, and student achievement in science, technology, engineering, and mathematics (STEM) specifically. In its most recent form—No Child Left Behind—there is evidence this focus led to a repurposing of instructional time to dedicate more attention to tested subjects. While this meant a narrowing of the curriculum to focus on English and mathematics at the elementary level, the effects on high school curricula have been less clear and generally absent from the research literature. In this study, we sought to explore the relationship between school improvement efforts and student achievement in science and thus explore the intersection of school reform and STEM policies. We used school‐level data on state standardized test scores in English and math to identify schools as either improving or declining over three consecutive years. We then compared the science achievement of students from these schools as measured by the ACT Science exams. Our findings from three consecutive cohorts, including thousands of high school students who attended 12th grade in 2008, 2009, and 2010 indicate that students attending improving schools identified by state administered standardized tests generally performed no better on a widely administered college entrance exam with tests in science, math and English. In 2010, students from schools identified as improving in English scored nearly one‐half of a point lower than their peers from declining schools on both the ACT Science and Math exams. We discuss various interpretations and implications of these results and suggest areas for future research. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 804–830, 2012     

美国K-12整合性STEM教育框架:理念、课程路径与支持系统

美国整合性STEM教育框架基于STEM理念,阐明对整合性STEM的共识性理解,首次提供了涵盖K-12阶段的整合性STEM课程资源,绘制了STEM课程路线图,提供在课堂层次实施STEM的课程路线,为整合STEM方法的系统转型提供支持,以数据驱动STEM教学与评价,制定有效的STEM课程项目和STEM教师专业发展框架,推动整合性STEM课程实施与教学方法改革,培养学生运用STEM知识去解决真实问题,提高创新、批判性思维和解决问题的能力,培养21世纪技能。美国整合性STEM教育框架的课程理念、课程路径与课程支持系统,对我国在基础教育阶段推进STEM教育改革,开发全学段的STEM教育整体框架和课程路线图可以提供有益借鉴,包括基于标准的整合性STEM课程框架,赋能STEM教师的整合性教学实践和推动整合性STEM教育的系统性转变。     

韩国现行初中科学课程的特色

韩国现行初中科学课程反映了各种教育思想的综合,强调了科学概念与探究过程、科学兴趣与关心、学习内容的连贯性及与实际生活的关联性.该课程设置国民共同基础课程"科学"保证了国民共同核心的科学教育,又设置深化、补充课程,满足了个别化学习要求.     

Changes in science teachers' conceptions and connections of STEM concepts and earthquake engineering

ABSTRACT

The 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.     

Improvement Science as a Promising Alternative to Barriers in Improving STEM Teacher Quality through Professional Development

STEM teaching occurs within national and state policy contexts that are constantly shifting in terms of standards and accountability due to the current and intense focus on students’ STEM outcomes. In the last two decades, federal legislation as well as common standards movements increasingly influence what and how STEM teachers instruct their students. Improvement science in education (ISE) has recently emerged as a new method of addressing many of the issues that impact teacher teaching and STEM teacher quality. ISE is a context-focused process improvement approach targeted at school improvement. This article explores three main barriers between STEM teacher professional development and student learning, and focuses on ISE as a promising alternative to current forms of STEM teacher professional development.     

Would increasing engineering literacies enable untapped opportunities for STEM education?

The main focus here is to examine the benefits of defining and developing an engineering curriculum for elementary schools. Like many other international educational systems, Australian educational settings have been seeking to effectively implement science, technology, engineering, and mathematics (STEM) education. However, current assumptions and expectations of STEM education are broad, poorly defined and intangible. This article deliberates on possible contributions and impediments that are preventing teachers from achieving engineering education in their classrooms. Using positioning theory, this article offers possible ways that the specific literacies of engineering can be better realized in teacher practices. A closer alignment will be necessary between the visions and expectations of STEM education, as perceived by governments, business, industry, and schools, to ensure a realization of the potential of STEM education. Engineering education in elementary school settings warrants the investment of time to understand what it proffers, and to enable teachers to identity and refine their practices to optimize the many benefits afforded.