Title: Navigating Pre-college Engineering Teaching during COVID-19: A Review and Analysis of Teacher Experiences
The start of the COVID-19 pandemic with its unique constraints led teachers of all disciplines, across all levels to employ diverse strategies in their quick transition to online learning. Emerging literature has suggested readiness and resources for the transition to remote learning along with intrinsic and extrinsic factors such as motivation and engagement to be frequent challenges faced by teachers. The purpose of this work is twofold: a) conduct a review of the post-pandemic literature to summarize the challenges of teaching engineering during the pandemic, and b) summarize the experiences of secondary teachers when teaching a pre-college engineering curriculum at the beginning of the pandemic. Collectively the literature review and experimental findings enable greater understanding and sense-making of adaptations made to prepare for future abrupt changes that may arise. Focus group data (n= 39) of high school engineering teachers were analyzed using sensemaking theory to reveal several challenges faced and strategies adopted during this unprecedented time. Our review findings suggest Lack of Engagement and Motivation, Scheduling, the Right Resources, and Training with Technology were the most frequent challenges noted in the literature. Our empirical findings showed similar challenges faced by pre-college teachers which were summarized into four themes: Teaching logistics, Time Management, Available Support, and Regulations. The themes provide the foundation for mitigation strategies for teachers during a crisis or abrupt change in the future. more »« less
Dalal, M.; Carberry, A.R.; Warmington, D.; Maxwell, R.
(, Proceedings of 2020 IEEE Frontiers in Education Conference (FIE))
null
(Ed.)
This Research Work in Progress paper presents a case study that demonstrates how a secondary school teacher with a non-STEM background identifies parallels between the engineering design process and music creation to embrace teaching an engineering course for the first time. Multiple interviews and classroom observations were open coded using a two-cycle coding approach to reveal four themes: overcoming imposter syndrome, connections between engineering and music, challenges encountered, and changes in practice. These themes highlight the processes involved in transferring a pedagogical philosophy that can inform future efforts to explore the necessary preconditions for bridging seemingly disparate and unconnected content areas. Further exploration building on these findings will inform efforts to broaden the pool of teachers capable of teaching pre-college engineering classes.
Broneak, Cassandra; Rosato, Jennifer
(, ICER 2021: Proceedings of the 17th ACM Conference on International Computing Education Research)
null
(Ed.)
To meet the rising demand for computer science (CS) courses, K-12 educators need to be prepared to teach introductory concepts and skills in courses such as Computer Science Principles (CSP), which takes a breadth-first approach to CS and includes topics beyond programming such as data, impacts of computing, and networks. Educators are now also being asked to teach more advanced concepts in courses such as the College Board's Advanced Placement Computer Science A (CSA) course, which focuses on advanced programming using Java and includes topics such as objects, inheritance, arrays, and recursion. Traditional CSA curricula have not used content or pedagogy designed to engage a broad range of learners and support their success. Unlike CSP, which is attracting more underrepresented students to computing as it was designed, CSA continues to enroll mostly male, white, and Asian students [College Board 2019, Ericson 2020, Sax 2020]. In order to expand CS education opportunities, it is crucial that students have an engaging experience in CSA similar to CSP. Well-designed differentiated professional development (PD) that focuses on content and pedagogy is necessary to meet individual teacher needs, to successfully build teacher skills and confidence to teach CSA, and to improve engagement with students [Darling-Hammond 2017]. It is critical that as more CS opportunities and courses are developed, teachers remain engaged with their own learning in order to build their content knowledge and refine their teaching practice [CSTA 2020]. CSAwesome, developed and piloted in 2019, offers a College Board endorsed AP CSA curriculum and PD focused on supporting the transition of teachers and students from CSP to CSA. This poster presents preliminary findings aimed at exploring the supports and challenges new-to-CSA high school level educators face when transitioning from teaching an introductory, breadth-first course such as CSP to teaching the more challenging, programming-focused CSA course. Five teachers who completed the online CSAwesome summer 2020 PD completed interviews in spring 2021. The project employed an inductive coding scheme to analyze interview transcriptions and qualitative notes from teachers about their experiences learning, teaching, and implementing CSP and CSA curricula. Initial findings suggest that teachers’ experience in the CSAwesome PD may improve their confidence in teaching CSA, ability to effectively use inclusive teaching practices, ability to empathize with their students, problem-solving skills, and motivation to persist when faced with challenges and difficulties. Teachers noted how the CSAwesome PD provided them with a student perspective and increased feelings of empathy. Participants spoke about the implications of the COVID-19 pandemic on their own learning, student learning, and teaching style. Teachers enter the PD with many different backgrounds, CS experience levels, and strengths, however, new-to-CSA teachers require further PD on content and pedagogy to transition between CSP and CSA. Initial results suggest that the CSAwesome PD may have an impact on long-term teacher development as new-to-CSA teachers who participated indicated a positive impact on their teaching practices, ideologies, and pedagogies.
Yu, Fan; Milord, Johanna; Orton, Sarah L.; Flores, Lisa. Y.; & Marra, Rose. M.
(, 2022 ASEE Annual Conference)
This research evaluates the impact of switching college engineering courses from in-person instruction to emergency remote learning among engineering students at a university in the Midwest. The study aimed to answer the question: What were the concerns and perceived challenges students faced when traditional in-person engineering courses suddenly transitioned to remote learning? The goal of this study is to uncover the challenges students were facing in engineering online courses and to understand students’ concerns. Our findings can help improve teaching instruction to provide students with previously unavailable educational assistance for online engineering courses. We collected online survey responses during weeks 8 and 9 of the academic semester, shortly after the COVID-19 shutdown and emergency transition to remote learning in Spring 2020. The survey included two open-ended questions which inquired about students’ feedback about moving the class online, and one two-item scale which assessed students’ confidence in online engineering learning. Data analysis for the open-ended questions was guided by the theoretical framework - Social Cognitive Career Theory [1] that explores how context, person factors and social cognitions contribute to career goals, interests and actions. A phenomenological approach [2] was conducted to understand the experience of these students. Open coding and axial coding [2] methods were used to create initial categories then themes related to students' concerns and challenges. Data from the two-item scale was evaluated using descriptive statistics: means, standard deviations, and ranges. Four main themes with separate sub-categories emerged from the student responses: 1) Instructor’s ability to teach course online (Instructional limitations, Seeking help, Increased Workload), 2) Student’s ability to learn online (Time Management, Lower engagement and motivation, Harder to absorb material, Hard to focus, Worry about performance), 3) Difficulties outside of class (Technology issues), and 4) No concerns. Students seemed more concerned about their ability to learn the material (48% of responses) than the instructor’s ability to teach the material (36% of responses). The instructional limitations or lack of instructional support (22% of responses) and time management (12% of responses) were among the major concerns in the sub-categories. The results from two-item scale indicated participants' s confidence in their ability to master their classroom knowledge was at an intermediate level via online instruction (6/10), and participants' confidence in the instructor's ability to teach knowledge in online classes is moderate to high (7/10). The results align with the open-ended question response in which students were somewhat more concerned about their ability to learn than the instructor’s ability to teach. The themes and analysis will be a valuable tool to help institutions and instructors improve student learning experiences.
Dalal, M.; Carberry, A.
(, 2021 ASEE Annual Conference and Exposition)
null
(Ed.)
Pre-college engineering education has been on a sharp rise in the United States. Numerous schools offer some variation of an engineering curricula, but challenges remain regarding socio-cultural perceptions of engineering, teacher training, curricular alignment with state standards, and policy decisions. Many past studies have examined students’ and teachers’ knowledge, perceptions, and beliefs regarding pre-college engineering instruction. Few studies have investigated the viewpoints of school administrators, or state and district personnel. This qualitative study investigated perspectives of three such administrators in a southwest US public high school. The school was one of nine pilot locations offering a new engineering course designed to ‘demystify’ engineering for high school students and teachers from all walks of life. Results converged around four major themes: 1) relevance and current state of pre-college engineering education, 2) teacher certification and professional development, 3) industry connections, and 4) expectations of pre-college engineering curricula. The resulting themes shed light on long standing issues affecting adoption of engineering at the pre-college level and highlight a few areas that upcoming pre-college engineering education programs could focus on.
Kier, Meredith Weaver; Johnson, Lindy L.
(, Education Sciences)
The COVID-19 global pandemic presented unprecedented challenges to K-16 educators, including the closing of educational agencies and the abrupt transition to online teaching and learning. Educators sought to adapt in-person learning activities to teach in remote and hybrid online settings. This study explores how a partnership between middle and high school teachers in an urban school district and undergraduate STEM mentors of color leveraged digital tools and collaborative pedagogies to teach science, technology, and engineering during a global pandemic. We used a qualitative multi-case study to describe three cases of teachers and undergraduate mentors. We then offer a cross-case analysis to interpret the diverse ways in which partners used technologies, pedagogy, and content to promote equitable outcomes for students, both in remote and hybrid settings. We found that the partnership and technologies led to rigorous and connected learning for students. Teachers and undergraduates carefully scaffolded technology use and content applications while providing ongoing opportunities for students to receive feedback and reflect on their learning. Findings provide implications for community partnerships and digital tools to promote collaborative and culturally relevant STEM learning opportunities in the post-pandemic era.
Memarian, Bahar, Dalal, Medha, Emiola-Owol, Olushola, Griesinger, Tina, Reid, Kenneth, and Carberry, Adam. Navigating Pre-college Engineering Teaching during COVID-19: A Review and Analysis of Teacher Experiences. Retrieved from https://par.nsf.gov/biblio/10654469. Journal of Online Learning Research 11.1 Web. doi:10.70725/224416gbxobx.
Memarian, Bahar, Dalal, Medha, Emiola-Owol, Olushola, Griesinger, Tina, Reid, Kenneth, and Carberry, Adam.
"Navigating Pre-college Engineering Teaching during COVID-19: A Review and Analysis of Teacher Experiences". Journal of Online Learning Research 11 (1). Country unknown/Code not available: Association for the Advancement of Computing in Education (AACE). https://doi.org/10.70725/224416gbxobx.https://par.nsf.gov/biblio/10654469.
@article{osti_10654469,
place = {Country unknown/Code not available},
title = {Navigating Pre-college Engineering Teaching during COVID-19: A Review and Analysis of Teacher Experiences},
url = {https://par.nsf.gov/biblio/10654469},
DOI = {10.70725/224416gbxobx},
abstractNote = {The start of the COVID-19 pandemic with its unique constraints led teachers of all disciplines, across all levels to employ diverse strategies in their quick transition to online learning. Emerging literature has suggested readiness and resources for the transition to remote learning along with intrinsic and extrinsic factors such as motivation and engagement to be frequent challenges faced by teachers. The purpose of this work is twofold: a) conduct a review of the post-pandemic literature to summarize the challenges of teaching engineering during the pandemic, and b) summarize the experiences of secondary teachers when teaching a pre-college engineering curriculum at the beginning of the pandemic. Collectively the literature review and experimental findings enable greater understanding and sense-making of adaptations made to prepare for future abrupt changes that may arise. Focus group data (n= 39) of high school engineering teachers were analyzed using sensemaking theory to reveal several challenges faced and strategies adopted during this unprecedented time. Our review findings suggest Lack of Engagement and Motivation, Scheduling, the Right Resources, and Training with Technology were the most frequent challenges noted in the literature. Our empirical findings showed similar challenges faced by pre-college teachers which were summarized into four themes: Teaching logistics, Time Management, Available Support, and Regulations. The themes provide the foundation for mitigation strategies for teachers during a crisis or abrupt change in the future.},
journal = {Journal of Online Learning Research},
volume = {11},
number = {1},
publisher = {Association for the Advancement of Computing in Education (AACE)},
author = {Memarian, Bahar and Dalal, Medha and Emiola-Owol, Olushola and Griesinger, Tina and Reid, Kenneth and Carberry, Adam},
}
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