Physics teaching assistants’ views of different types of introductory problems: Challenge of perceiving the instructional benefits of context-rich and multiple-choice problems

Good, Melanie; Marshman, Emily; Yerushalmi, Edit; Singh, Chandralekha

doi:10.1103/physrevphyseducres.14.020120

Cited by 9 publications

(3 citation statements)

References 88 publications

(134 reference statements)

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“…One possible way to increase students' interest in physics is to provide opportunities in class that relate to students' interests and career paths, so students can see how they could use physics in their careers. Relating physics to everyday life could be another effective approach to increasing interest (Good et al, 2018) Post self-efficacy has direct effects from pre self-efficacy ( = 0.45), belonging ( = 0.49), peer interaction ( = 0.21), and a smaller direct effect from perceived recognition ( = 0.13). Self-efficacy is important for students' persistence in the class and future careers.…”

Section: Sem Path Modelmentioning

confidence: 99%

Role of Inclusiveness of Learning Environment in Predicting Students’ Outcomes in Courses in Which Women Are Not Underrepresented

2022

JHETP

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Student beliefs in introductory physics courses can influence their course outcomes and retention in STEMdisciplines and future career aspirations. This study used survey data from 501 students in the first of twosemester algebra-based introductory physics courses primarily taken by bioscience majors, in which women make up approximately 65% of the class. We investigated how the learning environment including perceived recognition, peer interaction, and sense of belonging students' physics outcomes, including their physics self-efficacy, interest, and identity. We found that in general, women had lower physics beliefs than men and the learning environment plays a major role in explaining student outcomes. We also found that perceived recognition played an important role in predicting students' physics identity and students' sense of belonging played an important role in predicting students' physics self-efficacy. These findings can be useful to contemplate strategies to create an equitable and inclusive learning environment to help all students to excel in these physics courses.

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Section: Sem Path Modelmentioning

confidence: 99%

Role of Inclusiveness of Learning Environment in Predicting Students’ Outcomes in Courses in Which Women Are Not Underrepresented

2022

JHETP

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“…At large research universities where introductory physics labs are often taught by graduate student teaching assistants (TAs), these TAs may not receive adequate professional development for their work [1][2][3][4][5][6][7][8][9][10]. We are seeking to understand and develop a model for how TAs can most effectively help support student learning in physics labs, and what type of professional development can most effectively help TAs facilitate lab activities so that all students can learn.…”

Section: Introduction and Frameworkmentioning

confidence: 99%

All aboard! Challenges and successes in professional development for physics lab TAs

Doucette¹,

Clark²,

Singh³

2020

2019 Physics Education Research Conference Proceedings

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At large research universities in the USA, introductory physics labs are often run by graduate student teaching assistants (TAs). Thus, efforts to reform introductory labs should address the need for effective and relevant TA professional development. We developed and implemented a research-based professional development program that focuses on preparing TAs to effectively support inquiry-based learning in the lab. We identify positive effects by examining three possible ways in which the professional development might have impacted TAs and their work. First, we examine lab TAs' written reflections to understand the effect of the program on TAs' ways of thinking about student learning. Second, we observe and categorize TA-student interactions in the lab in order to investigate whether TA behaviors are changing after the professional development. Third, we examine students' attitudes toward experimental science and present one example case in which students' attitudes improve for those TAs who 'buy in' to the professional development. Our results suggest lab TA professional development may have a tangible positive impact on TA performance and student learning.

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“…The role of TAs in promoting student learning: Many physics graduate teaching assistants (TAs) are potential future faculty. Moreover, now or in the future, they may be responsible for making decisions about the use of different problem types in different instructional situations depending upon their perceived instructional value and constraints [28][29][30][31][32][33][34][35][36][37][38][39]. Therefore, their views about the pros and cons of posing an introductory physics problem in different ways and in different instructional contexts can be useful in developing activities to improve their professional development and help them recognize the pedagogical value of posing the same problem in various ways.…”

Section: Introductionmentioning

confidence: 99%

Strong preference among graduate student teaching assistants for problems that are broken into parts for their students overshadows development of self-reliance in problem-solving

Good¹,

Marshman²,

Singh³

et al. 2020

2019 Physics Education Research Conference Proceedings

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Different physics problem types, i.e., the same physics scenario posed as a problem in different ways, can emphasize different learning goals for students and can be used in diverse situations to meet various instructional goals. We examined graduate teaching assistants' (TAs') views about broken-into-parts introductory physics problems within the context of a semester-long TA professional development course. The TAs were asked to list the pros and cons of the broken-into-parts problem type, rate this type of problem in terms of its instructional benefit and the level of challenge it might produce for their students, and describe when and how often they would use broken-into-parts problems in their own classes in different situations if they had complete control of teaching the class to meet different instructional goals. We find that TAs reported the broken-into-parts problem type to be the most instructionally beneficial out of all the problem types and would use a broken-intoparts problem type often and in a variety of ways (e.g., homework assignments, exams, and quizzes). Written explanations and interviews suggest that they preferred to use a broken-into-parts problem type more often than other problem types in various instructional contexts because of the guidance such problems offer. While providing guidance to students is an appropriate instructional approach, our findings from interviews suggest that many TAs may be motivated to assign broken-into-parts problems out of a desire to make the problem-solving process easy and/or less stressful for students, especially because they felt that introductory students may not be capable of breaking a problem into sub-problems on their own. The instructional benefits of gradually removing the scaffolding support to help students develop self-reliance in solving problems appeared to be overlooked by most TAs. This lack of awareness or reflection on the important role that removing scaffolding support gradually and providing adequate challenge can play in helping introductory students develop self-reliance and become independent, expert-like problem-solvers has implications for the professional development of TAs.

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Physics teaching assistants’ views of different types of introductory problems: Challenge of perceiving the instructional benefits of context-rich and multiple-choice problems

Cited by 9 publications

References 88 publications

Role of Inclusiveness of Learning Environment in Predicting Students’ Outcomes in Courses in Which Women Are Not Underrepresented

Role of Inclusiveness of Learning Environment in Predicting Students’ Outcomes in Courses in Which Women Are Not Underrepresented

All aboard! Challenges and successes in professional development for physics lab TAs

Strong preference among graduate student teaching assistants for problems that are broken into parts for their students overshadows development of self-reliance in problem-solving

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