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Download full textMoon, Peter F.; Himmelsbach, Joshua; Weintrop, David; Walkoe, Janet – Journal of Pedagogical Research, 2023
Computational thinking (CT) has the potential to enhance learning when integrated into mathematical classroom activities. Teachers are being asked to include CT concepts in their core disciplines; however, there is an open question as to how best to equip teachers to integrate CT into their practice. Oftentimes teacher candidates enter math and…
Descriptors: Methods Courses, Mathematics Education, Science Education, Computation
Direct linkMcGinnis, J. Randy; Hestness, Emily; Mills, Kelly; Ketelhut, Diane Jass; Cabrera, Lautaro; Jeong, Hannoori – Contemporary Issues in Technology and Teacher Education (CITE Journal), 2020
The authors describe their study of a curricular module on computational thinking (CT) implemented within an elementary science methods course and reported insights on preservice science teachers' (PSTs') beliefs about CT integration. The research question was, "Following participation in a curricular module on CT, what is the nature of PSTs'…
Descriptors: Preservice Teachers, Student Attitudes, Computation, Thinking Skills
Kaya, Erdogan; Newley, Anna; Yesilyurt, Ezgi; Deniz, Hasan – Journal of College Science Teaching, 2020
With the release of the Next Generation Science Standards (NGSS), assessing K-12 science teachers' self-efficacy in Computational Thinking (CT) is an important research gap to study. Bandura defines self-efficacy as awareness of the individual's potential and capabilities to accomplish a goal. Teaching efficacy beliefs is a significant identifier…
Descriptors: Thinking Skills, Computation, Self Efficacy, Preservice Teachers
