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Direct linkYifan Zhang – ProQuest LLC, 2024
Computational thinking (CT) has been an increasing focus of research and practice since the seminal paper by Wing in 2006, especially in pre-college (K-12) education. Barr and Stephenson defined CT as a problem-solving methodology that can be automated, transferred, and applied across disciplines. With the challenges of fitting CT into already…
Descriptors: Mental Computation, Elementary Education, Problem Solving, Intellectual Disciplines
Peer reviewedSimon D. Weaver; G. Alex Ambrose; Rebecca J. Whelan – Journal of Chemical Education, 2022
Students completing undergraduate majors in chemistry are not typically required to undergo formal training in computer programming or coding. As a result, many chemistry students are graduating without skills in understanding, writing, or manipulating computer code. This skills gap places students at a disadvantage, considering the widespread and…
Descriptors: Coding, Undergraduate Students, Majors (Students), Chemistry
Rabin, Jeffrey M.; Burgasser, Adam; Bussey, Thomas J.; Eggers, John; Lo, Stanley M.; Seethaler, Sherry; Stevens, Laura; Weizman, Haim – International Journal of STEM Education, 2021
Rate of change concepts from calculus are presented and applied rather differently in college mathematics, physics, biology, and chemistry classes. This is not simply a matter of pedagogical style but reflects real cultural differences between these disciplines. We describe the efforts of our interdisciplinary collaboration to understand and…
Descriptors: STEM Education, Interdisciplinary Approach, College Mathematics, College Science
