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1. Student attitudes in an innovative active learning approach in calculus

   https://doi.org/10.1080/0020739X.2021.2023771  

   Castillo, Adam J.; Durán, Pablo; Fuller, Edgar; Watson, Charity; Potvin, Geoff; Kramer, Laird H. (February 2022, International journal of mathematical education in science and technology)

   A study conducted by the Mathematical Association of America showed that calculus not only has significant effects on students’ decision to pursue STEM fields, but also on their attitudes towards mathematics. Inspired by this large-scale study, the present study sought to deepen the current understanding of the impact of calculus on student attitudes towards mathematics. Results of an implementation of the Modeling Practices in Calculus (MPC) model, an innovative active learning in mathematics (ALM) approach, in Calculus I at a large, urban, research intensive (R1) institution are presented. Using a randomized-control trial research design, stu- dents were randomly assigned to either traditional, lecture-based classrooms, or MPC classrooms. The Attitudes Towards Mathematics Inventory (ATMI) was used to measure student attitudes at the begin- ning and end of the course and results were compared from both MPC and traditional sections. Overall, MPC sections showed improve- ment over traditional instruction by having less negative impact on student attitudes. The enjoyment and self-confidence ATMI sub- scales showed significant differences at course completion for both semesters, when controlling for pre-ATMI score and term. Further- more, the MPC model had a positive impact on female students’ self-confidence as opposed to male students, acting as a gender equalizer. 

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2. Promoting Success of Undergraduate Engineering Students Through Curricular Improvements in First-year Mathematics Courses

   Olsen, D. (July 2021, ASEE Annual Conference and Exposition, Conference Proceedings)

   Norwich University, a private military college that serves both civilian and Corps of Cadets students, secured an NSF S-STEM award to develop a program to attract and retain highly talented, low-income students. Norwich recognizes that students who enter college with less experience in mathematics are less likely to graduate with a degree in a STEM discipline. With that in mind, the project aims to measure the benefits of a corequisite implementation of precalculus and calculus to help students complete the required calculus sequence by the end of their first year. In the first year of the study, 34 engineering students among 72 total STEM students that placed into precalculus by an institutional math placement exam were randomly allocated into either precalculus or a pilot corequisite calculus course with precalculus review. The content, delivery, and outcomes of the first semester offering of the corequisite implementation of precalculus and calculus will be discussed. The short-term success of the corequisite course using survey results, DFW rates, and retention in the engineering major will be examined. 

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3. Measuring the Impact of an Enrichment Program for First-Term Undergraduate Engineering Students in Mathematics and Engineering Curricula

   Cruse, K. C.; & Boyet, C.; Savercool, L.; Holloway, H. (June 2023, 2023 ASEE Annual Conference & Exposition)

   First-year students frequently struggle with the transition from high school to college as they juggle academic requirements, new living accommodations, and social expectations. Transitional struggles can be amplified for engineering students due to the challenging mathematics, engineering, and science courses taking during their first term. First-year students are commonly ill-equipped to manage their time wisely and study properly. Structure and guidance can assist in fostering skills and behaviors that are vital for success. The SUCCESS Scholars (SS) Program was developed to provide foundational support for 24 low-income first-year engineering students. The program was designed to provide academic support in the form of extra Fridays sessions for engineering and peer mentorship led supplemental instruction (SI). The 24 students were grouped into exclusive sections of a precalculus course and an engineering course. Two upper-level students were selected to lead the SI sessions while providing peer mentorship and community engagement for the first-year students. The faculty teaching both courses worked together with the peer mentors to develop a plan for the SI sessions. This paper will detail the SS Program and analyze the performance of the students in their first quarter at the university. Data from common exams given in their precalculus and engineering courses will be used to examine the effectiveness of the program. 

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4. From Resistance to Readiness – Building Capacity to Pilot and Scale Co-requisite Calculus for First-Year Engineering Gateway Courses

   https://doi.org/10.18260/1-2--46866  

   Olsen, Darlene; Supan, Karen; Johnson, Liz (June 2024, Gardening outdoor living)

   Norwich University, the oldest Senior Military College in the nation and the first private U.S. institution to teach engineering, has a residential program for approximately 2,100 primarily undergraduate students in both the Corps of Cadets and civilian lifestyles. Norwich secured a National Science Foundation S-STEM award in the beginning of 2020 to develop a program to attract and retain highly talented, low-income students in STEM. One of the aims of the project was to support students who enter college with less experience in mathematics as these students were significantly less likely to graduate with a STEM degree. In the fall of 2020, as a result of the S-STEM award, the mathematics department offered a pilot corequisite calculus course to STEM majors requiring calculus their first semester but placed into precalculus by the mathematics departmental placement test. The corequisite calculus course includes content from precalculus into a one semester calculus course that meets daily for 6 contact hours rather than a standard 4 credit hour calculus course. The Norwich University Civil, Electrical and Computer, and Mechanical Engineering programs are accredited by the Engineering Accreditation Commission of ABET, placing restrictions on the 8-semester engineering degree pathway. The added credits to the first semester corequisite calculus course fit the constraints of the first semester engineering course load and this course has enabled engineering students that place into precalculus to complete an on-time degree plan without taking summer courses. The corequisite course has been approved by the university curriculum committee and is a regular offering at the institution. The initial offering of the corequisite course occurred during the COVID pandemic necessitating the use of additional instructional technology. There was also an increase in low stakes assessments to encourage students to engage in the material. The added credits also increased the regularity of student interacting with calculus. Since the implementation of this pilot course, there have been several similar changes in other courses required by engineering majors. The pilot corequisite course has become institutionalized and even is now scaling, with the engineering department requesting the course to be offered each semester to benefit students who are out of sync with the intended curriculum pathway. This project examines how the corequisite calculus course may have influenced changes in the general education courses and engineering first year sequence. Outcome harvesting as well as process tracing are used to determine the strength of evidence linking the corequisite course to institutional change. Qualitative and quantitative data will be examined as well to understand how the S-STEM award contributed to breakdown of the resistance to curriculum change and the readiness to implement and scale corequisite courses in other areas. It is important to understand the mechanisms used for building capacity at the institution to transform STEM education in higher education 

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5. Scaffolding Spatial Abilities in Integral Calculus

   Davishahl, E.; Singleton, L.; Haskell, T.; Rupe, K.; Glen, L. (June 2022, 2022 ASEE Annual Conference & Exposition)

   This NSF-IUSE exploration and design project began in fall 2018 and features cross-disciplinary collaboration between engineering, math, and psychology faculty to develop learning activities with hands-on models and manipulatives. We are exploring how best to design these activities to support learners’ development of conceptual understanding and representational competence in integral calculus and engineering statics, two foundational courses for most engineering majors. A second goal is to leverage the model-based activities to scaffold spatial skills development in the context of traditional course content. As widely reported in the literature, well-developed spatial abilities correlate with student success and persistence in many STEM majors. We provided calculus students in selected intervention sections taught by four instructors at three different community colleges with take-home model kits that they could reference for a series of asynchronous learning activities. Students in these sections completed the Purdue Spatial Visualization Test: Rotations (PSVT:R) in the first and last weeks of their course. We also administered the assessment in multiple control sections (no manipulatives) taught by the same faculty. This paper analyzes results from fall 2020 through fall 2021 to see if there is any difference between control and intervention sections for the courses as a whole and for demographic subgroups including female-identifying students and historically-underserved students of color. All courses were asynchronous online modality in the context of the COVID-19 pandemic. We find that students in intervention sections of calculus made slightly larger gains on the PSVT:R, but this result is not statistically significant as a whole or for any of the demographic subgroups considered. We also analyzed final course grades for differences between control and intervention sections and found no differences. We found no significant effect of the presence of the model-based activities leading to increased PSVT:R gains or improved course grades. We would not extend this conclusion to face-to-face implementation, however, due primarily to the compromises made to adapt the curriculum from in-person group learning to asynchronous individual work and inconsistent engagement of the online students with the modeling activities. 

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