Open Access. Powered by Scholars. Published by Universities.®
- Institution
Articles 1 - 3 of 3
Full-Text Articles in Education
Exploring The Neural Mechanisms Of Physics Learning, Jessica E. Bartley
Exploring The Neural Mechanisms Of Physics Learning, Jessica E. Bartley
FIU Electronic Theses and Dissertations
This dissertation presents a series of neuroimaging investigations and achievements that strive to deepen and broaden our understanding of human problem solving and physics learning. Neuroscience conceives of dynamic relationships between behavior, experience, and brain structure and function, but how neural changes enable human learning across classroom instruction remains an open question. At the same time, physics is a challenging area of study in which introductory students regularly struggle to achieve success across university instruction. Research and initiatives in neuroeducation promise a new understanding into the interactions between biology and education, including the neural mechanisms of learning and development. These …
“All Students Are Brilliant”: A Confession Of Injustice And A Call To Action, Amy D. Robertson, Leslie J. Atkins Elliott
“All Students Are Brilliant”: A Confession Of Injustice And A Call To Action, Amy D. Robertson, Leslie J. Atkins Elliott
Curriculum, Instruction, and Foundational Studies Faculty Publications and Presentations
The two of us (AR and LAE), in our teaching, research, and work with teachers, advocate for responsive teaching—an approach that seeks out and builds on the productive “seeds of science” in what our students say and do and assumes that “all students…are brilliant.” This pedagogical approach requires a commitment to listening to and intellectually empathizing with students’ scientific ideas.
Testing The Test: Item Response Curves And Test Quality, Gary A. Morris, Lee Branum-Martin, Nathan Harshman, Stephen D. Baxter, Eric Mazur, Suvendra Dutta, Taha Mzoughi, Veronica Mccauley
Testing The Test: Item Response Curves And Test Quality, Gary A. Morris, Lee Branum-Martin, Nathan Harshman, Stephen D. Baxter, Eric Mazur, Suvendra Dutta, Taha Mzoughi, Veronica Mccauley
Faculty and Research Publications
We present a simple technique for evaluating multiple-choice questions and their answers beyond the usual measures of difficulty and the effectiveness of distractors. The technique involves the construction and qualitative consideration of item response curves and is based on item response theory from the field of education measurement. To demonstrate the technique, we apply item response curve analysis to three questions from the Force Concept Inventory. Item response curve analysis allows us to characterize qualitatively whether these questions are efficient, where efficient is defined in terms of the construction, performance, and discrimination of a question and its answer choices. This …