Math, Science, and Technology in the Early Grades

4区 法学 Q1 Social Sciences Future of Children Pub Date : 2016-12-15 DOI:10.1353/FOC.2016.0013
D. Clements, J. Sarama
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引用次数: 77

Abstract

Summary:Do young children naturally develop the foundations of science, technology, engineering, and math (STEM)? And if so, should we build on these foundations by using STEM curricula in preschools? In this article, Douglas Clements and Julie Sarama argue that the answer to both these questions is yes.First, the authors show that young children possess a sophisticated informal knowledge of math, and that they frequently ask scientific questions, such as why questions. Preschoolers’ free play involves substantial amounts of foundational math as they explore patterns, shapes, and spatial relations; compare magnitudes; and count objects.Moreover, preschool and kindergarten children’s knowledge of and interest in math and science predicts later success in STEM. And not only in STEM: the authors show that early math knowledge also predicts later reading achievement—even better than early literacy skills do. Thus mathematical thinking, Clements and Sarama say, may be cognitively foundational. That is, the thinking and reasoning inherent in math may contribute broadly to cognitive development.Is teaching STEM subjects to preschool children effective? The authors review several successful programs. They emphasize that STEM learning for young children must encompass more than facts or simple skills; rather, the classroom should be infused with interesting, appropriate opportunities to engage in math and science. And instruction should follow research-based learning trajectories that include three components: a goal, a developmental progression, and instructional activities.Clements and Sarama also discuss barriers to STEM teaching in preschool, such as the cultural belief in the United States that math achievement largely depends on native aptitude or ability, and inadequate professional development for teachers.
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低年级的数学、科学和技术
总结:幼儿是否能自然地发展科学、技术、工程和数学(STEM)的基础?如果是这样,我们是否应该在这些基础上,在学前教育中使用STEM课程?在这篇文章中,Douglas Clements和Julie Sarama认为这两个问题的答案都是肯定的。首先,作者表明,幼儿拥有复杂的非正式数学知识,并且他们经常提出科学问题,例如为什么问题。学龄前儿童在探索模式、形状和空间关系时,自由玩耍涉及大量的基础数学;比较大小;计数对象。此外,学龄前和幼儿园儿童对数学和科学的知识和兴趣预示着他们在STEM方面的成功。而且不仅仅是在STEM领域:作者表明,早期的数学知识也能预测以后的阅读成绩,甚至比早期的识字技能更有效。因此,克莱门茨和萨拉马说,数学思维可能是认知的基础。也就是说,数学中固有的思考和推理能力可能对认知发展有广泛的贡献。向学龄前儿童教授STEM课程是否有效?作者回顾了几个成功的项目。他们强调,幼儿的STEM学习必须包含的不仅仅是事实或简单的技能;相反,课堂应该充满有趣、适当的机会,让学生参与数学和科学。教学应遵循以研究为基础的学习轨迹,包括三个组成部分:目标、发展进程和教学活动。克莱门茨和萨拉马还讨论了学前STEM教学的障碍,比如美国的文化观念认为数学成绩在很大程度上取决于天生的天赋或能力,以及教师的专业发展不足。
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Future of Children
Future of Children Multiple-
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期刊介绍: The Future of Children is a collaboration of the Woodrow Wilson School of Public and International Affairs at Princeton University and the Brookings Institution. The mission of The Future of Children is to translate the best social science research about children and youth into information that is useful to policymakers, practitioners, grant-makers, advocates, the media, and students of public policy. The project publishes two journals and policy briefs each year, and provides various short summaries of our work. Topics range widely -- from income policy to family issues to education and health – with children’s policy as the unifying element. The senior editorial team is diverse, representing two institutions and multiple disciplines.
期刊最新文献
Introducing the Issue Introducing the Issue Scaling Early Childhood Evidence-Based Interventions through RPPs Building Capacity for Research and Practice: A Partnership Approach A Unique Opportunity for Education Policy Makers
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