TY - GEN
T1 - Using psychometric tools as a window into students’ quantitative reasoning in introductory physics
AU - Smith, Trevor I.
AU - Eaton, Philip
AU - Brahmia, Suzanne White
AU - Olsho, Alexis
AU - Boudreaux, Andrew
AU - Depalma, Chris
AU - Lasasso, Victor
AU - Whitener, Christopher
AU - Straguzzi, Scott
N1 - Publisher Copyright:
© 2019, American Association of Physics Teachers. All rights reserved.
PY - 2019
Y1 - 2019
N2 - The Physics Inventory of Quantitative Literacy (PIQL), a reasoning inventory under development, aims to assess students’ physics quantitative literacy at the introductory level. The PIQL’s design presents the challenge of isolating types of mathematical reasoning that are independent of each other in physics questions. In its current form, the PIQL spans three principle reasoning subdomains previously identified in mathematics and physics education research: ratios and proportions, covariation, and signed (negative) quantities. An important psychometric objective is to test the orthogonality of these three reasoning subdomains. We present results from exploratory factor analysis, confirmatory factor analysis, and module analysis that inform interpretations of the underlying structure of the PIQL from a student viewpoint, emphasizing ways in which these results agree and disagree with expert categorization. In addition to informing the development of existing and new PIQL assessment items, these results are also providing exciting insights into students’ quantitative reasoning at the introductory level.
AB - The Physics Inventory of Quantitative Literacy (PIQL), a reasoning inventory under development, aims to assess students’ physics quantitative literacy at the introductory level. The PIQL’s design presents the challenge of isolating types of mathematical reasoning that are independent of each other in physics questions. In its current form, the PIQL spans three principle reasoning subdomains previously identified in mathematics and physics education research: ratios and proportions, covariation, and signed (negative) quantities. An important psychometric objective is to test the orthogonality of these three reasoning subdomains. We present results from exploratory factor analysis, confirmatory factor analysis, and module analysis that inform interpretations of the underlying structure of the PIQL from a student viewpoint, emphasizing ways in which these results agree and disagree with expert categorization. In addition to informing the development of existing and new PIQL assessment items, these results are also providing exciting insights into students’ quantitative reasoning at the introductory level.
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U2 - 10.1119/perc.2019.pr.Smith_T
DO - 10.1119/perc.2019.pr.Smith_T
M3 - Conference contribution
AN - SCOPUS:85095518655
SN - 9781931024365
T3 - Physics Education Research Conference Proceedings
SP - 560
EP - 566
BT - Physics Education Research Conference, PERC 2019
A2 - Cao, Ying
A2 - Wolf, Steven
A2 - Bennett, Michael
PB - American Association of Physics Teachers
T2 - Physics Education Research Conference, PERC 2019
Y2 - 24 July 2019 through 25 July 2019
ER -