Volume 18, Issue 2 (partial) July - December 2022 | | Advertisement APS is pleased to announce the launch of the newest Physical Review title, PRX Life, a high impact, fully open access journal dedicated to publishing outstanding research at all scales of biological organization. As the first interdisciplinary journal focused exclusively on quantitative biological research, PRX Life aims to catalyze discoveries that advance our understanding of living systems by publishing research articles, perspectives, reviews, and tutorials by and for scientists working at the interface of physics and biology. Learn more and sign up for alerts » | | | | | Advertisement Nominations are now open for APS Historic Sites. Each year, the Society formally acknowledges sites with significance to the history of physics. By participating, you help raise public awareness about the impact of scientific advancements on everyday life. Send us your recommendation by January 31, 2023. Submit a Nomination » | | | | | Not an APS member? Join today to start connecting with a community of more than 50,000 physicists. | | | | Charles Henderson Phys. Rev. Phys. Educ. Res. 18, 020001 (2022) – Published 22 November 2022 | | | Eder Hernandez, Esmeralda Campos, Pablo Barniol, and Genaro Zavala Phys. Rev. Phys. Educ. Res. 18, 020101 (2022) – Published 7 July 2022 | Different visual representations can influence student responses to questions about electric and magnetic phenomena. | | | | | | Zengze Liu, Sudong Pan, Xiangqun Zhang, and Lei Bao Phys. Rev. Phys. Educ. Res. 18, 020102 (2022) – Published 11 July 2022 | A concept test for simple electric circuits is effective in identifying features of knowledge integration, including context dependence and fragmentation of knowledge components, memorization-based problem solving, difficulty in transfer to novel contexts, and lack of meaningful connections between microscopic and macroscopic models of electric current. | | | | | | Cassandra A. Paul and David J. Webb Phys. Rev. Phys. Educ. Res. 18, 020103 (2022) – Published 13 July 2022 | Switching from percent scale grading scale to a 4.0 grade scale reduces equity gaps by 20-25% without making any other course changes. | | | | | | Shams El-Adawy, Tra Huynh, Mary Bridget Kustusch, and Eleanor C. Sayre Phys. Rev. Phys. Educ. Res. 18, 020104 (2022) – Published 20 July 2022 | It is important to use asset-based models of physics faculty that support the different ways they navigate professional growth in their local context. | | | | | | Victoria Borish, Alexandra Werth, Nidhal Sulaiman, Michael F. J. Fox, Jessica R. Hoehn, and H. J. Lewandowski Phys. Rev. Phys. Educ. Res. 18, 020105 (2022) – Published 21 July 2022 | Undergraduate physics students who experienced remote labs during COVID-19 were most likely to report positive outcomes when they had access to guidance from their instructors. | | | | | | Daniel P. Weller, Theodore E. Bott, Marcos D. Caballero, and Paul W. Irving Phys. Rev. Phys. Educ. Res. 18, 020106 (2022) – Published 25 July 2022 | A framework of 14 computational thinking practices relevant for a high school physics course. | | | | | | Sebastian Becker, Stefan Küchemann, Pascal Klein, Andreas Lichtenberger, and Jochen Kuhn Phys. Rev. Phys. Educ. Res. 18, 020107 (2022) – Published 26 July 2022 | Collecting eye-tracking data while students solve a problem allows one to identify the visual strategies and may be useful for predicting the correctness of their responses. | | | | | | Michael M. Hull, Alexandra Jansky, and Martin Hopf Phys. Rev. Phys. Educ. Res. 18, 020108 (2022) – Published 2 August 2022 | A student idea should not be classified as a misconception, even if the student expresses confidence in the idea. | | | | | | Editors' Suggestion Paul C. Hamerski, Daryl McPadden, Marcos D. Caballero, and Paul W. Irving Phys. Rev. Phys. Educ. Res. 18, 020109 (2022) – Published 2 August 2022 | A computation-integrated curriculum for high school physics can make science learning more authentic for students who are familiar with computation, and can generate frustration and an aversion towards physics for students who are not. | | | | | | W. Brian Lane and Cortney Headley Phys. Rev. Phys. Educ. Res. 18, 020110 (2022) – Published 16 August 2022 | The communities of practice framework is more useful when it is supplemented with information about how participants perceive the community, for example, the extent to which participants share the community's goals. | | | | | | Sonja Cwik and Chandralekha Singh Phys. Rev. Phys. Educ. Res. 18, 020111 (2022) – Published 22 August 2022 | Even in physics courses in which women are not underrepresented, women have lower physics beliefs, including physics identity, than men. | | | | | | Jiwon Lee and Nilüfer Didiş Körhasan Phys. Rev. Phys. Educ. Res. 18, 020112 (2022) – Published 26 August 2022 | When there is a variety of individual answers prior to group discussion in a two-part exam, group performance improves. | | | | | | Robert P. Dalka, Diana Sachmpazidi, Charles Henderson, and Justyna P. Zwolak Phys. Rev. Phys. Educ. Res. 18, 020113 (2022) – Published 2 September 2022 | Network analysis provides a new way to investigate phenomena assessed by Likert-style surveys. | | | | | | Alexandru Maries, Mary Jane Brundage, and Chandralekha Singh Phys. Rev. Phys. Educ. Res. 18, 020114 (2022) – Published 6 September 2022 | Many upper-level electricity and magnetism students struggle with introductory concepts even after traditional instruction in their upper-level course. | | | | | | Katherine D. Rainey, Michael Vignal, and Bethany R. Wilcox Phys. Rev. Phys. Educ. Res. 18, 020116 (2022) – Published 12 September 2022 | The upper-level evaluation for thermodynamics and statistical physics is valid and reliable for use with a diverse population of upper-division physics students. | | | | | | John Stewart, John Hansen, and Eric Burkholder Phys. Rev. Phys. Educ. Res. 18, 020117 (2022) – Published 15 September 2022 | Student attrition from a physics degree occurs differently at different types of institutions; each physics department needs to explore their own data to understand the points where there is an opportunity to improve retention. | | | | | | Allison J. Gonsalves, Anders Johansson, Anne-Sofie Nyström, and Anna T. Danielsson Phys. Rev. Phys. Educ. Res. 18, 020118 (2022) – Published 19 September 2022 Opportunities that emphasize relationship building are effective at encouraging young women to engage in physics. | | | | | Muhammad Aswin Rangkuti and Ricardo Karam Phys. Rev. Phys. Educ. Res. 18, 020119 (2022) – Published 21 September 2022 | Static representations of intrinsically dynamic phenomena, such as a propagating pulse on a string, are frequently challenging for students to grasp. | | | | | | Kim Svensson and Esmeralda Campos Phys. Rev. Phys. Educ. Res. 18, 020120 (2022) – Published 26 September 2022 | The combined use of two semiotic perspectives provides better information about student physics learning than either perspective alone. | | | | | | Ronja Langendorf, Susanne Schneider, and Pascal Klein Phys. Rev. Phys. Educ. Res. 18, 020121 (2022) – Published 27 September 2022 | Students that were most successful at solving problems using the Hertzsprung-Russell diagram became familiar with the diagram and its plotted quantities before attempting the problem solving task. | | | | | | Elina Palmgren, Kimmo Tuominen, and Inkeri Kontro Phys. Rev. Phys. Educ. Res. 18, 020122 (2022) – Published 4 October 2022 | The student-centered pedagogy, prime-time learning, results in high conceptual learning and high self-efficacy, even during remote instruction. | | | | | | Jessi Randolph, Jonathan Perry, Jonan Phillip Donaldson, Callie Rethman, and Tatiana Erukhimova Phys. Rev. Phys. Educ. Res. 18, 020123 (2022) – Published 10 October 2022 | Female students who facilitated informal physics programs experience a statistically significant shift in their confidence of choosing to major in physics. | | | | | | Eric Burkholder, Shima Salehi, Sarah Sackeyfio, Nicel Mohamed-Hinds, and Carl Wieman Phys. Rev. Phys. Educ. Res. 18, 020124 (2022) – Published 10 October 2022 | An introductory physics course that emphasizes deliberate practice applied to learning real-world problem-solving leads to more equitable student outcomes. | | | | | | Gina M. Quan, Chandra Turpen, and Andrew Elby Phys. Rev. Phys. Educ. Res. 18, 020125 (2022) – Published 12 October 2022 | A longitudinal analysis of shifts in personal and perceived normative identities suggests implications for making physics more inclusive. | | | | | | Laura Timonen, Kalle Juuti, and Sari Harmoinen Phys. Rev. Phys. Educ. Res. 18, 020126 (2022) – Published 14 October 2022 | Learning enhancing emotions lead to course success and student retention. | | | | | | Alysa Malespina and Chandralekha Singh Phys. Rev. Phys. Educ. Res. 18, 020127 (2022) – Published 21 October 2022 | The average grade anomaly can be a useful metric to identify physics courses that have inequitable learning environments for particular types of students. | | | | | | Alexandra Werth, Kristin Oliver, Colin G. West, and H. J. Lewandowski Phys. Rev. Phys. Educ. Res. 18, 020128 (2022) – Published 25 October 2022 | The assessment of teamwork in the context of a large-scale, introductory level course based research experience contributes on metacognition in labs and reveals the importance of socially shared regulation in effective group work. | | | | | | Alexandra Werth, Jessica R. Hoehn, Kristin Oliver, Michael F. J. Fox, and H. J. Lewandowski Phys. Rev. Phys. Educ. Res. 18, 020129 (2022) – Published 2 November 2022 | During COVID, most instructors who used virtual labs did not require students to work in groups. | | | | | | Gerd Kortemeyer, Wolfgang Bauer, and Wade Fisher Phys. Rev. Phys. Educ. Res. 18, 020130 (2022) – Published 3 November 2022 | When students were free to choose either online or face-to-face lectures, there was no difference in exam performance; it is not clear what would have happened if they were forced into one mode or the other. | | | | | | Salome Wörner, Sebastian Becker, Stefan Küchemann, Katharina Scheiter, and Jochen Kuhn Phys. Rev. Phys. Educ. Res. 18, 020131 (2022) – Published 9 November 2022 | The 15-item ray optics in converging lenses concept inventory is a valid and comprehensive instrument to assess middle school students' understanding of image formation by a converging lens. | | | | | | Christopher Wheatley, James Wells, David E. Pritchard, and John Stewart Phys. Rev. Phys. Educ. Res. 18, 020132 (2022) – Published 14 November 2022 | Misconceptions persist postinstruction for a substantial number of students even in courses with medium to large improvements in Force Concept Inventory scores. | | | | | | Ben Lutz and Laura Ríos Phys. Rev. Phys. Educ. Res. 18, 020133 (2022) – Published 14 November 2022 | By applying principles from peripheral participation and cognitive apprenticeship, faculty can improve learning assistant pedagogy and help them develop a stronger identity as educators. | | | | | | Jason M. May, Lauren A. Barth-Cohen, Jordan M. Gerton, Claudia De Grandi, and Adrian L. Adams Phys. Rev. Phys. Educ. Res. 18, 020134 (2022) – Published 17 November 2022 | Laboratory instructors should increase support for students as they recognize, categorize, and then resolve inconsistencies during experimentation. | | | | | | Victoria Borish, Jessica R. Hoehn, and H. J. Lewandowski Phys. Rev. Phys. Educ. Res. 18, 020135 (2022) – Published 21 November 2022 | Appropriately designed projects can help students develop modeling skills without needing expensive lab equipment. | | | | | | K. K. Mashood, Kamakshi Khosla, Arjun Prasad, Sasidevan V, Muhammed Ashefas CH, Charles Jose, and Sanjay Chandrasekharan Phys. Rev. Phys. Educ. Res. 18, 020136 (2022) – Published 23 November 2022 | Physics instructors' epistemic cognitions influence their sense-making in a professional development program aimed at helping them integrate integrate computational modelling into their introductory courses. | | | | | | Kelly Miller, Greg Kestin, and Olivia Miller Phys. Rev. Phys. Educ. Res. 18, 020137 (2022) – Published 28 November 2022 | Female students perform better on two-part collaborative exams when they are in student-formed groups. | | | | | | Bing Wei, Chengran Wang, and Lihua Tan Phys. Rev. Phys. Educ. Res. 18, 020138 (2022) – Published 28 November 2022 | The majority of graphics in the textbooks studied only depicted isolated phenomena without making connections to a larger system. | | | | | | Khanh Tran, Ana Maria Barrera, Kim Coble, Mireya Arreguin, Marissa Harris, Alex Macha-Lopez, Michaela Perez, and Alegra Eroy-Reveles Phys. Rev. Phys. Educ. Res. 18, 020139 (2022) – Published 29 November 2022 | Reflective journaling helps students feel heard and affirmed; it is one way for instructors to humanize their students and recognize the experiences they bring to physics. | | | | | | Featured in Physics Nicholas T. Young, K. Tollefson, Remco G. T. Zegers, and Marcos D. Caballero Phys. Rev. Phys. Educ. Res. 18, 020140 (2022) – Published 30 November 2022 | Rubric-based admissions processes increase equity in graduate admissions. | | | | | | Featured in Physics Dörte Sonntag and Oliver Bodensiek Phys. Rev. Phys. Educ. Res. 18, 023101 (2022) – Published 21 July 2022 | A mixed reality learning environment for experimental problem solving results in large improvements in problem-solving success for both novices and experts. | | | | | | Eric W. Burkholder and Carl E. Wieman Phys. Rev. Phys. Educ. Res. 18, 023102 (2022) – Published 27 July 2022 | Some anticipated negative impacts of the COVID-19 pandemic may not be as large as assumed based on instructors' anecdotal reports; more careful data-based analysis is needed. | | | | | | | |
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