Computational Thinking and Metacognition

被引:0
|
作者
Aman Yadav
Ceren Ocak
Amber Oliver
机构
[1] Michigan State University,
[2] Robin Hood Learning + Technology Fund,undefined
来源
TechTrends | 2022年 / 66卷
关键词
Computational thinking; Metacognition; Metacognitive strategies; K-12; Problem-solving;
D O I
暂无
中图分类号
学科分类号
摘要
Since Wing Communications of the ACM, 49, 33–35, (2006) popularized computational thinking (CT) as a skill for every student, it has gained significant traction as an approach to bring computer science tools and practices into K-12 classrooms. At the same time, teachers often see the relevance of CT as a tool to introduce problem solving and thinking strategies in the classroom. Despite the increasing use of CT in K-12, questions remain about its role in supporting teaching and learning of disciplinary ideas. While CT can be used to bring computer science to all students, we believe that it can serve a bigger purpose to explicitly teach metacognitive strategies, which play a significant role in academic outcomes. In the paper, we discuss the connections between CT and metacognition and how CT could support the development of metacognition in K-12 classrooms.
引用
收藏
页码:405 / 411
页数:6
相关论文
共 50 条
  • [31] On Computational Tools, Computational Thinking and Computational Methods
    Zhang Xiaofeng
    Zou Hailin
    PROCEEDINGS OF THE FIRST INTERNATIONAL WORKSHOP ON EDUCATION TECHNOLOGY AND COMPUTER SCIENCE, VOL I, 2009, : 503 - 507
  • [32] THINKING ABOUT DESIGN THINKING: TOWARD CAPTURING STUDENTS' METACOGNITION IN SOLVING DESIGN PROBLEMS
    Olewnik, Andrew
    Stuhlmiller, Brian
    Yerrick, Randy
    PROCEEDINGS OF THE ASME INTERNATIONAL DESIGN ENGINEERING TECHNICAL CONFERENCES AND COMPUTERS AND INFORMATION IN ENGINEERING CONFERENCE, 2019, VOL 3, 2020,
  • [33] Computational thinking and thinking about computing
    Wing, Jeannette M.
    PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, 2008, 366 (1881): : 3717 - 3725
  • [34] The bayesian thinking, a pervasive computational thinking
    Zapata-Ros, Miguel
    Buenano Palacios, Yamil
    RED-REVISTA DE EDUCACION A DISTANCIA, 2021, 21 (68):
  • [35] Computational thinking and thinking about computing
    Wing, Jeannette
    2008 IEEE INTERNATIONAL SYMPOSIUM ON PARALLEL & DISTRIBUTED PROCESSING, VOLS 1-8, 2008, : 28 - 28
  • [36] From Computational Thinking to AI Thinking
    Zeng, Daniel
    IEEE INTELLIGENT SYSTEMS, 2013, 28 (06) : 2 - 4
  • [37] Integrating Mathematical Thinking, Abstract Thinking, and Computational Thinking
    McMaster, Kirby
    Rague, Brian
    Anderson, Nicole
    2010 IEEE FRONTIERS IN EDUCATION CONFERENCE (FIE), 2010,
  • [38] From Computational Thinking to Computational Making
    Rode, Jennifer A.
    Weibert, Anne
    Marshall, Andrea
    Aal, Konstantin
    von Rekowski, Thomas
    el Mimoni, Houda
    Booker, Jennifer
    PROCEEDINGS OF THE 2015 ACM INTERNATIONAL JOINT CONFERENCE ON PERVASIVE AND UBIQUITOUS COMPUTING (UBICOMP 2015), 2015, : 239 - 250
  • [39] From Computational Thinking to Computational Action
    Tissenbaum, Mike
    Sheldon, Josh
    Abelson, Hal
    COMMUNICATIONS OF THE ACM, 2019, 62 (03) : 34 - 36
  • [40] Computational Thinking Is Not Necessarily Computational Respond
    Koutroumpis, Pantelis
    Leiponen, Aija
    Thomas, Llewellyn D. W.
    COMMUNICATIONS OF THE ACM, 2017, 60 (09) : 9 - 9
12345