Yohannes M. Abraham scite author profile

Yohannes M. Abraham

3Publications

5Citation Statements Received

81Citation Statements Given

How they've been cited

How they cite others

Affiliations

Seattle Pacific University

Publications

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Exploring student conceptual resources about heat and temperature

Abraham¹,

Valentin²,

Hansen³

et al. 2021

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Previous literature about students' understanding of heat and temperature primarily emphasizes students' misunderstandings of canonical physics concepts. In our study, we used a resources-oriented approach to analyze 653 student responses to questions about thermal phenomena, looking for ways in which their responses could serve as valuable resources for continued learning. We identified three common conceptual resources: (A) heat transfer is directional; (B) an object's physical properties matter in thermal processes; and (C) hotter objects have more energy. These resources could be used to strengthen physics teaching by using students' understandings of heat and temperature to support the development of more advanced physics ideas.

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Resources-oriented instruction: What does it mean, and what might it look like?

Robertson

Bauman

Abraham

et al. 2022

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Resources-oriented instruction in physics treats student thinking as sensible and then seeks to connect what students are saying and doing to physics content and practices. This paper uses an illustrative case to make progress toward answering the instructional questions: “What does resources-oriented instruction in physics look like?” and “How can I do it?”. We analyze an interaction between a university TA and a group of four introductory physics students completing a worksheet about mechanical wave propagation. We show some of the ways in which the TA's instructional moves supported students in making conceptual progress, even though several of the students' ideas would not be accepted as correct by many physicists.

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Identifying student resources for understanding linear momentum

Hansen¹,

Bauman²,

Abraham³

et al. 2021

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Much existing physics education research (PER) on student ideas about momentum focuses on the difficulties that students face when learning this topic. These difficulties are framed as obstacles for students to overcome in order to develop correct understandings of physics. Our research takes a resources-oriented approach to analyzing student responses to momentum questions, viewing student ideas as valuable and potentially productive for learning, over and above their correctness. Here, we highlight four conceptual resources that provide insight into students' ideas about momentum, which are the conservation resource, direction resource, collisions resource and properties resource. These resources are context-dependent and could be elicited and built on by instructors to support students in developing more complex and sophisticated understandings of physics.

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