排序方式: 共有357条查询结果,搜索用时 31 毫秒
31.
加快推进我国STEAM教育改革不仅是培养综合型、创新型、应用型人才的必由之路,也是提升国家竞争力和教育发展应对自身危机的可行之径。然而,改革中却存在诸多阻力。从“教育改革”的视角出发探赜改革蕴含的阻力因素,并提出阻力消解对策对促进我国STEAM教育顺利开展、探索一条具有中国特色的STEAM教育发展道路具有重要价值。研究发现,我国STEAM教育改革在实践中遭遇了价值阻力、制度阻力、实际阻力和自身阻力。为消解阻力,应坚持STEAM教育价值先行的基本理路,推进不同主体的自我变革;加强制度供给,理顺STEAM教育与现行制度之间的关系;加大STEAM教师队伍建设力度,推进STEAM课程改革;促进STEAM教育的本体回归,破解“跨学科悖论”。 相似文献
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STEM教育注重通过跨学科的协作学习发展学生的知识和技能。近年来,计算机支持的协作学习(CSCL)被广泛应用于STEM教育。然而,其效果如何?其采用的各类技术和教学策略对学习效果有何影响?上述问题的明确有助于完善STEM教育中跨学科的协作学习设计。基于对2009至2019年间发表在国际期刊上的142项相关实验和准实验研究成果的元分析发现:在STEM教育中应用CSCL整体上有助于提升学习效果,且相较于过程类和情感类,其对认知类学习效果的作用最为明显;从学科来看,其对科学、工程学和教育学的影响相对较大;从采用的技术来看,通信技术、动态呈现技术和共享共建技术对学习效果的影响更加显著;从教学策略来看,案例式、游戏化、知识建构和探究式等教学策略更能提升学习效果。因此,在将CSCL应用于STEM教育时,应当加强针对情感类目标的设计以激发高水平的认知活动和认知成果,注重发挥共享共建类技术在知识可视化表征、知识追踪等方面的作用,通过整合多种教学策略推进协作探究学习。 相似文献
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ABSTRACTThis study examines academic outcomes for university students engaged in a supplemental peer learning program in a selective institution. Using a matched sample of 1266 students, half enrolled in the supplemental program and half not enrolled, we find that participating students on average earned higher grades in linked courses. Using a subsample of students in a chemistry course sequence, we find program participants were more likely to remain in the sequence than non-participants, and that the impact was greater for students with lower levels of preparation. 相似文献
34.
Gender Disparity in STEM Disciplines: A Study of Faculty Attrition and Turnover Intentions 总被引:1,自引:0,他引:1
Yonghong Jade Xu 《Research in higher education》2008,49(7):607-624
This study examines the underrepresentation of women faculty in science, technology, engineering, and mathematics (STEM) by
comparing the intentions of attrition and turnover between genders in Research and Doctoral universities. It is found that
the two genders did not differ in their intentions to depart from academia, but women faculty had a significantly higher likelihood
to change positions within academia. The indications are that women and men are equally committed to their academic careers
in STEM; nonetheless, women’s stronger turnover intentions are highly correlated with dissatisfaction with research support,
advancement opportunities, and free expression of ideas. The findings suggest that the underrepresentation of women is more
convincingly explained by an academic culture that provides women fewer opportunities, limited support, and inequity in leadership,
rather than by gender-based differences such as roles in family responsibilities. Changes in academic STEM culture are needed
in order to attract more women scientists and narrow the current gender gap. 相似文献
35.
Professional development (PD) opportunities for teachers most commonly take place outside the classroom and are typically designed to address specific components of teachers’ instruction or curriculum. However, there are other activities that take place within the classroom that may have a profound impact on the PD of a teacher. We sought to gain a deeper understanding of the influence that placing a teacher in a mentor role can have on their PD and practice. Thus, we researched the influence of mentor teachers’ work with university-level STEM education majors by engaging in teaching a limited series of STEM inquiry-based lessons in the mentors’ classrooms. Surveys of the mentor teachers indicated that there were many positive benefits for mentors, including gaining new ideas, increased reflection on their practice, increased engagement of students, and in some cases shifts in practice. 相似文献
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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
38.
The need to enhance the STEM workforce and, in turn, the STEM educational pipeline is a prevailing issue in the U.S. One critical component in this pipeline is students’ interest in STEM majors and their persistence in such majors, theorized to be a function of both students’ perceived value and expectancy beliefs in the subject matter. Using an expectancy-value lens, we examined cross-domain patterns of high school students’ expectancy beliefs and values in both mathematics and science using a person-centered or profile approach. With data from the High School Longitudinal Study, latent profile analysis revealed five profiles characterized as Low Math/Low Science (i.e., endorsing low levels of expectancy and value beliefs in math and science), Moderate Math/Moderate Science, High Math/High Science, Low Math/High Science, and High Math/Low Science. Taking into account aspects of students’ background and school context, we found that motivational profile membership predicted math and science high school achievement, college persistence, and both STEM major intentions and major choices. Moreover, there were a number of gender and racial/ethnic differences and contextual variation in profile memberships as well. Implications for theory and educational practice are discussed in relation to study findings. 相似文献
39.
专业素养是专业能力所蕴含的专业知识、思维方式和价值观。教师核心专业能力是一种被称为基于设计的行动力的综合能力,并非PACK的运用能力,因为PACK不是知识论意义上的知识。基于设计的行动力所蕴含的教师专业素养可以区分为学科素养和设计素养。学科素养蕴含在课程之中,通过课程分析可以使之清晰化;设计素养蕴含在技术性教学设计理论之中。以STEM课程“抓住风:设计风车”为例,STEM教师的学科素养包括掌握课程包含的S.T.E.M.学科知识、能利用课程提供的材料制定一款特定功能的风车、能独立完成不同材料捕捉风能的单因素实验、身体力行地传递科学精神。以“以学习活动为中心的教学设计理论”为例,STEM教师的设计素养包括能基于教学设计的基本观念思考教学设计;能运用知识建模进行学习内容分析,并用“(知识点,学习水平)”方式陈述学习目标;能结合实情和知识建模图组块确立任务类型,并将它们具体化为师生交互过程;拥有足够的FC知识(Facts and Cases),并能够设计新的FC知识;能结合实情和动力设计模型提升教学方案的质量水平;能结合经验设计探究学习的学习支架。 相似文献
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何克抗 《中国教育科学(中英文)》2019,(3):114-122
要想落实广大青少年核心素养的培育,需要解决两个根本性问题:一是培育的“途径”问题;二是培育的“关键”问题。第一个根本性问题的答案,显然就是要实施STEM的理念与模式。第二个根本性问题的答案,应当是如何落实创造性思维的培养。为了让青少年具有良好的创造性思维素养,必须从培育创造性思维的要素入手。关于创造性思维的片面乃至错误的认识,若不尽快予以批判及清除,将会成为广大青少年培养创造性思维的极大障碍。“横纵思维”是专门应对复杂问题的,与科学的发明和技术的创新有着很密切的关系,要先掌握“复杂性理论”才能理解“横纵思维”的内涵,所以在进行中小学生的创造性思维培养时,可先从其他五个更基本的要素入手。 相似文献