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Download full textKristina M. Tank; Anne Ottenbreit-Leftwich; Tamara J. Moore; Sohheon Yang; Zarina Wafula; Jiyoung Kim; Bárbara Fagundes; Lin Chu – International Journal of Computer Science Education in Schools, 2024
Within the field of K-2 computer science (CS) education, unplugged computational thinking (CT) activities have been suggested as beneficial for younger students and shown to impact young students' skills and motivation to learn about CS. This study sought to examine how children demonstrate CT competencies in unplugged sequencing tasks and how…
Descriptors: Computation, Thinking Skills, Computer Science Education, Preschool Children
Rowe, Elizabeth; Asbell-Clarke, Jodi; Almeda, Mia; Gasca, Santiago; Edwards, Teon; Bardar, Erin; Shute, Valerie; Ventura, Matthew – International Journal of Computer Science Education in Schools, 2021
The Inclusive Assessment of Computational Thinking (CT) designed for accessibility and learner variability was studied in over 50 classes in US schools (grades 3-8). The validation studies of IACT sampled thousands of students to establish IACT's construct and concurrent validity as well as test-retest reliability. IACT items for each CT practice…
Descriptors: Puzzles, Logical Thinking, Thinking Skills, Construct Validity
Direct linkEhsan, Hoda; Rehmat, Abeera P.; Cardella, Monica E. – Science and Children, 2019
Computational thinking can provide a basis for problem solving, for making evidence-based decisions, and for learning to code or create programs. Therefore, it is critical that all students across the K-12 continuum--including students in the early grades--have opportunities to begin developing problem solving and computational thinking skills.…
Descriptors: Teaching Methods, STEM Education, Computer Science Education, Thinking Skills
