Preparing inservice science teachers to bring unplugged computational thinking to their students

被引:4
|
作者
Kite, Vance [1 ]
Park, Soonhye [2 ]
机构
[1] North Carolina State Univ, Kenan Fellows Program Teacher Leadership, Raleigh, NC 27695 USA
[2] North Carolina State Univ, Dept STEM Educ, Coll Educ, Raleigh, NC USA
来源
TEACHING AND TEACHER EDUCATION | 2022年 / 120卷
关键词
Computational thinking; Computational thinking integration; Process-based computational thinking; Science education; Teacher professional development; Unplugged; PROFESSIONAL-DEVELOPMENT; EFFICACY;
D O I
10.1016/j.tate.2022.103904
中图分类号
G40 [教育学];
学科分类号
040101 ; 120403 ;
摘要
Computational thinking (CT) is critical for Twenty-first century life. Ensuring equitable access to CT depends on preparing teachers to integrate CT into disciplinary curricula. We report on the design, evaluation, and outcomes of the Computational Thinking Unplugged for Science (CT-UP-S) professional development program for inservice science teachers. Our process-based approach to CT significantly improved teachers CT understanding and CT/science integration self-efficacy by systematically linking CT practices to scaffold the generation of unplugged algorithms. Additionally, we found that the process-based approach provided a framework for teachers' lesson planning and that teachers' content knowledge moderated their ability to write CT-integrated science lessons. (c) 2022 Elsevier Ltd. All rights reserved.
引用
收藏
页数:11
相关论文
共 50 条
  • [11] Kodu, Alice and Computer Science Unplugged: A Model of Effective Introducing Middle School Students to Computer Science and Computational Thinking
    Marghitu, Daniela
    Thomas, Lavaris
    Rawajfih, Yasmeen
    Hall, Jillian
    Marshall, Andrew
    PROCEEDINGS OF THE 45TH ACM TECHNICAL SYMPOSIUM ON COMPUTER SCIENCE EDUCATION (SIGCSE'14), 2014, : 712 - 712
  • [12] Preparing Primary School Teachers for Teaching Computational Thinking: A Systematic Review
    Ausiku, Maria
    Matthee, Machdel
    LEARNING TECHNOLOGIES AND SYSTEMS, ICWL 2020, SETE 2020, 2021, 12511 : 202 - 213
  • [13] Learning Computational Thinking Through Unplugged Algorithmic Explanations of Natural Selection
    Peel, Amanda
    Sadler, Troy D.
    Friedrichsen, Patricia
    JOURNAL OF RESEARCH IN SCIENCE TEACHING, 2025,
  • [14] Computational thinking in early childhood education: an analisis through the Computer Science Unplugged
    Tadeu, Pedro
    Brigas, Carlos
    REVISTA INTERUNIVERSITARIA DE FORMACION DEL PROFESORADO-RIFOP, 2022, (98): : 149 - 166
  • [15] Computational thinking in early childhood education: an analisis through the Computer Science Unplugged
    Tadeu, Pedro
    Brigas, Carlos
    REVISTA INTERUNIVERSITARIA DE FORMACION DEL PROFESORADO-RIFOP, 2022, (97): : 153 - 170
  • [16] The Effect of Unplugged Coding Activities on Computational Thinking Skills of Middle School Students
    Tonbuloglu, Betul
    Tonbuloglu, Ismail
    INFORMATICS IN EDUCATION, 2019, 18 (02): : 403 - 426
  • [17] Effectiveness of Problem-Based Learning in the Unplugged Computational Thinking of University Students
    Moreno-Palma, Natalia
    Hinojo-Lucena, Francisco-Javier
    Romero-Rodriguez, Jose-Maria
    Caceres-Reche, Maria-Pilar
    EDUCATION SCIENCES, 2024, 14 (07):
  • [18] A critical review of literature on "unplugged" pedagogies in K-12 computer science and computational thinking education
    Huang, Wendy
    Looi, Chee-Kit
    COMPUTER SCIENCE EDUCATION, 2021, 31 (01) : 83 - 111
  • [19] Improving early childhood pre-service teachers' computational thinking skills through the unplugged computational thinking integrated STEM approach
    Ciftci, Ayse
    Topcu, Mustafa Sami
    THINKING SKILLS AND CREATIVITY, 2023, 49
  • [20] Assessing Computational Thinking in CS Unplugged Activities
    Rodriguez, Brandon
    Kennicutt, Stephen
    Rader, Cyndi
    Camp, Tracy
    PROCEEDINGS OF THE 2017 ACM SIGCSE TECHNICAL SYMPOSIUM ON COMPUTER SCIENCE EDUCATION (SIGCSE'17), 2017, : 501 - 506
12345