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Direct linkJanney, Benjamin A.; Sobotka, Alex J.; Kidd, Aaron E. – Clearing House: A Journal of Educational Strategies, Issues and Ideas, 2022
Despite holding wide-ranging experiences with constant velocity and non-zero acceleration, students wrestling with physical science concepts struggle to demarcate the two distinct characteristics of motion. In fact, this prior experience and loose familiarity with associated terminology often act as an obstacle toward a deep and robust…
Descriptors: Scientific Concepts, Physical Sciences, Motion, Experience
Czocher, Jennifer A.; Moss, Diana L. – Mathematics Teaching in the Middle School, 2017
This article presents the Snail problem, a relatively simple challenge about motion that offers engaging extensions involving the notion of infinity. It encourages students in grades 5-9 to connect mathematics learning to logic, history, and philosophy through analyzing the problem, making sense of quantitative relationships, and modeling with…
Descriptors: Mathematical Concepts, Motion, Concept Formation, Problem Solving
Bolger, Molly S.; Kobiela, Marta; Weinberg, Paul J.; Lehrer, Richard – Cognition and Instruction, 2012
Reasoning about mechanisms is one of the hallmarks of disciplined inquiry in science and engineering, but comparatively little is known about its precursors and development. Children at grades 2 and 5 predicted and explained the motion of simple mechanical systems composed entirely of visible linkages (levers). Students' explanations of device…
Descriptors: Motion, Concept Formation, Grade 2, Logical Thinking
