More Like this

1. Undergraduate students’ participation in Calculus I coursework and peer-led, complementary instruction workshop: Case of Neil.

   Yu, Karmen T (November 2024, North American Chapter of the International Group for the Psychology of Mathematics Education (PME-NA))

   In postsecondary education, Calculus has been historically recognized as a “gateway course” for students to pursuit STEM fields. Responding to this issue, researchers at Montclair State University designed a model of complementary instruction to engage Calculus I students in collaborative problem solving on groupworthy tasks. This multiple-case study seeks to address the question, “How do undergraduate students experience their calculus learning in the parallel spaces of coursework and inquiry-oriented complementary instruction?” The findings of Neil’s case study are presented here and include characterizations of the different forms of agentive participation afforded to students in the two spaces, as well as their complementary nature relative to learning calculus with understanding. Implications for dismantling the persistent barriers imposed by calculus on access to postsecondary STEM fields are also discussed. 

   more » « less
2. Case Studies of Undergraduate Students’ Agentive Participation in the Parallel Spaces of Calculus I Coursework and Peer-Led, Inquiry-Oriented, Complementary Instruction

   Yu, K; Greenstein, S (February 2024, Research on Undergraduate Mathematics Education (RUME))

   Calculus has long been known as a “gateway course” to STEM fields in postsecondary education. To address this issue, researchers in the Math Department at Mountain State University (pseudonym) designed a model of complementary instruction that features peer-facilitated workshops where Calculus I students work in groups on inquiry-oriented, groupworthy tasks. The purpose of this multiple-case study is to seek answers to the question, "How do undergraduate Calculus I students experience and navigate their learning of calculus in the parallel spaces of coursework and inquiry-oriented complementary instruction?" The findings of one case study are presented here and include characterizations of the different forms of agentive participation afforded to students in each of the two spaces, as well as their complementary nature relative to learning calculus with understanding. Implications for dismantling the persistent barriers imposed by calculus on access to postsecondary STEM fields are also discussed. 

   more » « less
3. Characterizing variations in the figured worlds of teachers and students in science class

   https://doi.org/10.1002/tea.22022  

   Alzen, Jessica L; Buell, Jason Y; Edwards, Kelsey; Reiser, Brian J; Passmore, Cynthia; Penuel, William R; Griesemer, Chris D; Zhang, Yang (December 2024, Journal of Research in Science Teaching)

   Abstract This article explores the challenges of enacting reform‐oriented curriculum in science classrooms. We use the concept of figured worlds to analyze a case study of an eighth‐grade science class where the teacher reported that the students were resistant to changes she was trying to make. By examining stimulated recall interviews with the teacher (including the associated classroom episodes) and post‐unit interviews with a subset of the students, we found that the students and the teacher constructed different figured worlds about the science learning in the classroom. These differences centered on the goals that students and teachers had for the class and the roles of the teacher and students in the learning environment. Specifically, we found that there was a lack of alignment around how students and the teacher viewed the purpose of student agency and collaboration and therefore they had different ideas about how they should interact with one another in the classroom. We conclude by discussing the implications of our findings for science education. We believe that the concept of figured worlds allows researchers and teachers to better understand the challenges of implementing reform‐oriented practices in science classrooms. This understanding can help teachers and professional development providers to create strategies for bridging the gap between different figured worlds and creating more collaborative and productive learning environments for all students. 

   more » « less
4. The nature of an online work group reveals the teaching knowledge of inquiry-oriented linear algebra instructors through their goals for instruction

   Kim, M; McCrackin, S (December 2023, The Special Interest Group of the Mathematical Association of America for Research in Undergraduate Mathematics Education)

   Cook, S; Katz, B; Moore-Russo, D (Ed.)

   Postsecondary instructors interested in inquiry-oriented instruction of linear algebra participated in a sequence of eight one-hour online work group meetings with other inquiry-oriented linear algebra instructors and facilitators. Recordings were analyzed for how two participants referenced goals for instruction in discussions of implementing a new instructional unit on subspaces. We identified four goals for the instruction of teaching subspaces. We discuss the intersections of several goals that exist due to the tension caused by real-world contexts and abstract mathematical concepts. The instructors presented resolutions to the tension by utilizing varying teaching knowledge. Based on the results, we make suggestions for those who want to transition to inquiry-oriented instructional approaches. 

   more » « less
5. Detailing Racialized and Gendered Mechanisms of Undergraduate Precalculus and Calculus Classroom Instruction

   https://doi.org/10.1080/07370008.2020.1849218  

   Leyva, Luis A.; Quea, Ruby; Weber, Keith; Battey, Dan; López, Daniel (January 2021, Cognition and Instruction)

   null (Ed.)

   Undergraduate mathematics education can be experienced in discouraging and marginalizing ways among Black students, Latin
   students, and white women. Precalculus and calculus courses, in particular, operate as gatekeepers that contribute to racialized and gendered attrition in persistence with mathematics coursework and pursuits in STEM (science, technology, engineering, and mathematics). However, student perceptions of instruction in these introductory mathematics courses have yet to be systematically examined as a contributor to such attrition. This paper presents findings from a study of 20 historically marginalized students’ perceptions of precalculus and calculus instruction to document features that they found discouraging and marginalizing. Our analysis revealed how students across different race-gender identities reported stereotyping as well as issues of representation in introductory mathematics classrooms and STEM fields as shaping their perceptions of instruction. These perceptions pointed to the operation of three racialized and gendered mechanisms in instruction: (i) creating differential opportunities for participation and support, (ii) limiting support from same-race, same-gender peers to manage negativity in instruction, and (iii) activating exclusionary ideas about who belongs in STEM fields. We draw on our findings to raise implications for research and practice in undergraduate mathematics education. 

   more » « less