Conference Session

Flaming Moe's Influence: Bio-Inspired STEM Explorations, Hot Stuff!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Kimberly Quell; Cristian Robbins, United States Military Academy; Kathryn Blair Newhart; Andrew Ross Pfluger, United States Military Academy

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Pre-College Engineering Education Division (PCEE)

an Associate Professor and Academy Professor in the Department of Geography and Environmental Engineering at the United States Military Academy. He currently serves as the director of the Environmental Engineering and Science Program. ©American Society for Engineering Education, 2024 A Summer Leader Experience for Rising High School Seniors – Integrating an Introduction to Environmental Science & EngineeringAbstractEach summer the United States Military Academy at West Point hosts approximately 1,110rising high school seniors in a unique week-long immersive program called the West PointSummer Leader Experience (SLE). SLE students experience life at West Point, which includesexposure to academic

Conference Session

Instructional Showcase

Collection

2024 ASEE Annual Conference & Exposition

Authors

Tamara J Moore, Purdue University, West Lafayette; Siddika Selcen Guzey, Purdue University, West Lafayette; Greg J Strimel, Purdue University, West Lafayette; Morgan M Hynes, Purdue University, West Lafayette; Kerrie A Douglas, Purdue University, West Lafayette; Molly H Goldstein, University of Illinois Urbana-Champaign; Rachel E. Gehr, Purdue University, West Lafayette; Emily M. Haluschak, Purdue University, West Lafayette; Azizi Penn, Purdue Engineering Education; Breejha Sene Quezada, Purdue Engineering Education; Deana Lucas, Purdue University, West Lafayette; JaKobi Burton, Purdue University, West Lafayette; Mary K. Pilotte, Purdue University, West Lafayette; Rena Ann Sterrett, Purdue Engineering Education

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Professional Interest Council (PIC)

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Pre-College Engineering Education Division (PCEE)

interested in leveraging integrated curriculum development in K-12 settings to positively impact underserved populations in the field of engineering. She utilizes past experiences in STEM program evaluation, education policy, and chemical engineering research.Ms. Azizi Penn, Purdue Engineering Education Azizi Penn is a professional software engineer, a California State University, Sacramento adjunct professor, and an engineering education Ph.D. student at Purdue University. ©American Society for Engineering Education, 2024 Paper ID #43246Ms. Breejha Sene Quezada, Purdue Engineering EducationDeana Lucas, Purdue

Conference Session

Flanders' Fellowship: Building STEM Community Impact, Hi-Diddly-Ho!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Marie Anne Aloia, Bayonne High School; Kathryn Hoppe

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Diversity

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Pre-College Engineering Education Division (PCEE)

completely different. She accepted a job teaching chemistry and physics at Bayonne High School. Since then she was able to write curriculum for a science research program and an engineering program. Now she teaches mostly pre-college engineering. She also brought in many new programs to her school including FIRST Tech Challenge, Lemelson InvenTeam, Technology Students Association, and Society for Science with a local science fair and ISEF.Kathryn Hoppe ©American Society for Engineering Education, 2024Empowering the Future: Integrating Invention and Intellectual Property Education in P-12 Engineering to Foster Innovation (RE, Diversity, Curriculum)AbstractOver the years, the U.S

Conference Session

Flaming Moe's Influence: Bio-Inspired STEM Explorations, Hot Stuff!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Abeera P. Rehmat, Georgia Institute of Technology; Meltem Alemdar, Georgia Institute of Technology; Dyanne Baptiste Porter, Georgia Institute of Technology; Michael Helms; Jeffrey H Rosen, Georgia Institute of Technology; Marc Weissburg, Georgia Institute of Technology

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Pre-College Engineering Education Division (PCEE)

understanding of theirsubjects impact their pedagogy [28], [29], [30], [31]. Teacher beliefs are a “messy construct” [32] butare related to teaching and encompass teacher knowledge, practices, and students [33]. Teachers' beliefsare instrumental in shaping teachers as individuals and influence their teaching decisions and application[32], [34], [35]. Teachers’ beliefs and perceptions have a powerful impact on their willingness to adaptnew pedagogies and teaching strategies [36]. As STEM-integrated curricula like BID become an integralpart of K -12 curricula, it is important to examine the impact of BID on teachers’ BID understanding andpedagogy. In Rehmat et al.’s [15] study, teachers’ implementation of the BID curriculum differed dueto teaching and

Conference Session

Duff's Dynamic Duo: Harnessing the Power of Teamwork for STEM Excellence!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Joshua D. Carl, Milwaukee School of Engineering; Amii LaPointe, Milwaukee School of Engineering; Cindy Miller, Milwaukee School of Engineering; Cory J. Prust, Milwaukee School of Engineering; Elizabeth Taylor, Milwaukee School of Engineering

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Diversity

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Pre-College Engineering Education Division (PCEE)

Paper ID #42881Cross-functional, Multi-organizational STEM Camp Partnership: TeachingTechnology and Human-Centered Design in a Project-Based Curriculum (Other,Diversity)Dr. Joshua D. Carl, Milwaukee School of Engineering Joshua Carl is an Associate Professor of Electrical Engineering at the Milwaukee School of Engineering. He received a B.S. degree in Computer Engineering from Milwaukee School of Engineering in 2005, and attended graduate school at Vanderbilt University where he earned his PhD in Electrical Engineering in 2016. He primarily teaches courses in embedded systems, programming, and digital systems.Ms. Amii LaPointe

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Ibrahim H. Yeter, Nanyang Technological University; Xue Jia Xie, Singapore University of Technology and Design; Jeffrey D Radloff, The State University of New York at Cortland; Michael Jin Khoo

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Pre-College Engineering Education Division (PCEE)

elementary teachers to teach engineering: Impact on self‐efficacy and outcome expectancy. School Science and Mathematics, 119(3), 161-170.Radloff, J., & McCormick, K. (2022, October). Exploring STEM education in prekindergarten settings: a systematic review. In SSMA 2022 Annual Convention: Missoula, MT (Vol. 2021, p. 38).Roehrig, G. H., Dare, E. A., Ring-Whalen, E., & Wieselmann, J. R. (2021). Understanding coherence and integration in integrated STEM curriculum. International Journal of STEM Education, 8, 1-21.Ring, E. A., Dare, E. A., Crotty, E. A., & Roehrig, G. H. (2017). The Evolution of Teacher Conceptions of STEM Education Throughout an Intensive Professional Development

Conference Session

Meet at Springfield Middle: Where Engineering Meets Education, Woozle Wuzzle!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Zeynep Gonca Akdemir, Purdue University; Muhsin Menekse, Purdue University; Erica W. Carlson, Purdue University; Nicholas Dang, Purdue University; Mahdi Hosseini, Northwestern University; Dongyang Li, Purdue University

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Pre-College Engineering Education Division (PCEE)

, particularly within the context of quantumcomputers. The purpose of this step was to foster a comprehensive understanding of whyrandomness behaves predictably in the classical physics while exhibiting unique characteristicsin the quantum domain [14].MethodsThis study integrated two methods, conjecture mapping as a method of DBR and a pretestposttest research design to examine the desired outcomes of IQ-PARC project. Conjecturemapping involves the explicit delineation of specific conjectures and their anticipatedinteractions to facilitate learning [18]. Like how the flight of an airplane is contingent onachieving adequate lift, designs alone cannot directly yield outcomes; rather, they necessitatemediating processes. Consequently, each curriculum

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Latanya Robinson, Florida International University; Alexandra Coso Strong, Florida International University

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Pre-College Engineering Education Division (PCEE)

studies and design challenges. Richards andcolleagues [9] define five elements of a case study: Relevance, Motivation, Active Involvement,Consolidation/Integration, and Transfer (see Table 1). There are multiple similarities whencompared with the elements of a design challenge (see Table 2). For instance, the activeinvolvement element requires effective communication with peers to come up with viablesolutions. Given these similarities and the ability of a case study to connect to the practices ofengineers, there is an opportunity to examine the potential for this pedagogical method withinengineering education in elementary classrooms. Table 1 Case Study Elements Elements Description Relevance Cases

Conference Session

Mr. Burns' Brainchild: AI in the Springfield STEM Classroom, Release the Hounds!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Alvin Talmadge Hughes IV, University of Florida; Jacob Casey Yarick, University of Florida; Nancy Ruzycki, University of Florida; Hajymyrat Serdarovich Geldimuradov, University of Florida; Sarah Louise Langham, University of Florida; Katherine Miller, University of Florida

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Diversity

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Pre-College Engineering Education Division (PCEE)

crucial aspects of its implementation to improve its organization andexecution in future iterations. The primary goal of this curriculum is to provide a pathway forunderrepresented minority (URM) students to gain experience with Artificial Intelligence (AI)and Programming topics, equipping them with relevant knowledge and inspiring them to pursuefuture careers in the industry.Owing to the potential of AI systems to reduce workloads and expand the capacity of variouspublic services, AI is being integrated in an increasing number of industries, ranging fromhealthcare, law enforcement, department stores, to aspects of the judicial system [1,2]. Theseservices are an integral part of citizens’ lives, and the outcome of these AI algorithms can

Conference Session

Instructional Showcase

Collection

2024 ASEE Annual Conference & Exposition

Authors

Michelle Jordan, Arizona State University; Katie Spreitzer, Arizona State University; Sarah Bendok

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Professional Interest Council (PIC)

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Pre-College Engineering Education Division (PCEE)

Engineering Education, 2024 Lighting a Pathway to Energy Transitions: Collecting, interpreting and sharing engineering designs and research data across a school-based agrivoltaics citizen science network (Resource Exchange)Grade level: 1-12 Time: School year integration Standards Focus: NGSS 3-5 ETSThe Sonoran Photovoltaics Laboratory (SPV Lab) is a network of K-12 students and teachers,scientists, engineers, and community partners encouraging equitable, lasting, sustainableenergy transitions. Specifically, SPV Lab is developing an innovative model for school-basedcitizen science that supports a networked approach to building knowledge in agrivoltaics, a

Conference Session

Marge's Mission: Empowering STEM Innovation

Collection

2024 ASEE Annual Conference & Exposition

Authors

Emily M. Haluschak, Purdue University; Melissa Colonis PhD, Purdue University; Kaitlyn B. Myers, Purdue University; Tamara J Moore, Purdue University

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Pre-College Engineering Education Division (PCEE)

adapt contexts outside of their typical content area to their classrooms, we are askingthe following research questions: RQ1: How and why do high school mathematics teachers adapt when experiencing technological issues during an integrated microelectronics, engineering, and mathematics curriculum unit? RQ2: How do these adaptations help students reengage in the curriculum?Literature ReviewThis section begins with an overview of perspectives on student engagement in the classroomand connects subthemes of adaptive expertise to adaptive performance.Student EngagementTo be able to learn, students must be engaged in the classroom. In practice, this looks liketeacher observation of student engagement and as a result

Conference Session

Duff's Dynamic Duo: Harnessing the Power of Teamwork for STEM Excellence!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Morgan R Broberg, Purdue Applied Research Institute; Jose Capa Salinas, Purdue University; Susan Khalifah

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Pre-College Engineering Education Division (PCEE)

Paper ID #42381Lessons Learned through Multi-Year Team Teaching of an Engineering Coursefor Pre-College StudentsDr. Morgan R Broberg, Purdue Applied Research Institute Dr. Morgan Broberg is a Research Engineer at the Purdue Applied Research Institute (PARI). She received a Ph.D. in Civil Engineering from Purdue University and a B.S. in Engineering from LeTourneau University. Her research interests include modeling, analysis, and design of steel-concrete composite systems and effective teaching in civil engineering.Jose Capa Salinas, Purdue University Jose Capa Salinas is a Ph.D. Candidate in the Lyles School of Civil

Conference Session

Principal Skinner's Secrets: Cultivating STEM in Remote Locations, Steamed Hams!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Taryn Melkus Bayles, University of Pittsburgh; Claudia J. Morrell, STEM Equity Initiative, LLC; Sandra Staklis, RTI International; Kevin A Jordan, RTI International

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Diversity

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Pre-College Engineering Education Division (PCEE)

) in their monthly logs,through information shared during the FLC meetings, and in the focus groups, in which teachersshared examples of how they successfully integrated engineering design and the NEIR Model intheir instruction. Their examples typically included their perceptions of how the material enhancedstudent engagement, such as: • “This month I did an engineering design challenge in my STEM class. During this challenge, I used the equation provided in the curriculum and had the students work to figure out and debate which variables were most important. This process was very inclusive because it allowed for everyone to express their opinion and how to improve the design.” • “I had my students research water

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Adam W Davidson, Duke University; Kip D. Coonley, Duke University

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Diversity

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Pre-College Engineering Education Division (PCEE)

an ardent reader. He and his wife share their home with two disabled cats and a disabled dog. Looking ahead, Adam is committed to enhancing undergraduate lab spaces and curriculum, facilitating the transition from secondary to post-secondary education in STEM, and improving Teaching Assistant (TA) training. His mentorship and guidance continue to impact individuals, educators, and STEM enthusiasts, solidifying his role as a leader in the field.Mr. Kip D. Coonley, Duke University Kip D. Coonley received the Ph.D. degree in Electrical and Computer Engineering from Duke University, Durham, NC in 2023, the M.S. degree in Electrical Engineering from Dartmouth College, Hanover, NH, in 1999 and the B.S. degree in

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Matthew Perkins Coppola, Purdue University, Fort Wayne; Beomjin Kim; Guoping Wang, Purdue University, Fort Wayne; Michelle Rene Parker; Thomas John Bolinger, Purdue University, Fort Wayne

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Pre-College Engineering Education Division (PCEE)

. Specific skills developed include computerprogramming in Python, basics of electrical circuits, integrating computer hardware andsoftware, computer networking, and cyber security. Campers were introduced to computingcareers and majors through presentations and guest speakers during the Lunch and Learn time.At the end of the week, teams of campers applied these skills to an Internet of Things-themedCapstone project, which they presented to their peers and parents.Pre- and post-surveys, daily reflections, and structured interviews were collected to establishcontinuous improvements for the program and to further our understanding of how to betterprepare high school students to choose disciplines of study. Triangulation of the multiple sourcessupports

Conference Session

Bart's Big Plan: Engaging High Schoolers in Engineering Adventures ... Ay Caramba!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Per G. Norstrom, Royal Institute of Technology (KTH); Charlotta Nordlöf, Linkoping University; Konrad J. Schönborn; Jonas Hallström, Linkoping University

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Pre-College Engineering Education Division (PCEE)

is most important, whereas for the teacher it is the learningand the curriculum goals that are fore fronted (cmp., Norström, 2016, pp. 37–39; Tomasi, 2008).McConville et al. (2017) have identified at least three challenges for realizing the pedagogicalpotential of role-playing in engineering education. These include challenges of clearlycommunicated learning outcomes, a shortage of teaching expertise, and adoption of an approachthat students are not familiar with. In this regard, our study shows that integrating authenticteaching approaches are very demanding for the teacher, even when teachers are highlyexperienced. In our case, the systematic implementation of the project was made possible thanksto the experience and background of the

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Amelia Yeo, Nanyang Technological University; Ibrahim H. Yeter, Nanyang Technological University; Sharyn Anastasia Limas, Nanyang Technological University

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Diversity

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Pre-College Engineering Education Division (PCEE)

Sharyn Anastasia Limas is an undergraduate student in Electrical and Electronic Engineering at Nanyang Technological University, consistently earning a spot on the Dean’s List due to her academic excellence. Her research focuses on psychological development and semiconductors, demonstrating a keen interest in integrating technical expertise with impactful societal applications. Sharyn is also heavily involved in extracurricular and volunteer activities, leading initiatives that support the elderly, economically disadvantaged families, and environmental conservation efforts. A strong proponent of cultural immersion and skill development, she actively seeks opportunities to enhance her learning and contribute meaningfully

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jennifer Lee Kouo, The Johns Hopkins University; Jeanette Chipps, The Johns Hopkins University

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Diversity

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Pre-College Engineering Education Division (PCEE)

Paper ID #42498Board 161: Engineering Community Inclusion of Individuals with Autism(ECIIA): The Commitment of Community Collaborators in Engineering Educationand Industry (Work in Progress)Dr. Jennifer Lee Kouo, The Johns Hopkins University Dr. Jennifer Kouo is an Assistant Research Scientist at the Center for Technology in Education (CTE) at the Johns Hopkins University School of Education. Jennifer’s areas of expertise include Universal Design for Learning, technology integration, assistive technologies, and serving students with a range of disabilities, particularly autism spectrum disorder. She is currently engaged in

Conference Session

Flaming Moe's Influence: Bio-Inspired STEM Explorations, Hot Stuff!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Holly M Golecki, University of Illinois Urbana-Champaign; Nathan Yoonsuh Chung, University of Illinois Urbana-Champaign; Thomas Tran, University of Chicago; Phillip Liang, University of Illinois Urbana-Champaign

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Diversity

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Pre-College Engineering Education Division (PCEE)

Paper ID #44292Improving Outreach Interactivity in the Virtual Environment – Evaluation ofA Computer Vision Controlled Soft Robotic Hand to Broaden Participationin BioengineeringDr. Holly M Golecki, University of Illinois Urbana-Champaign Dr. Holly Golecki (she/her) is a Teaching Assistant Professor in Bioengineering at the University of Illinois Urbana-Champaign and an Associate in the John A Paulson School of Engineering and Applied Sciences at Harvard University. She holds an appointment at the Carle-Illinois College of Medicine in the Department of Biomedical and Translational Sciences. She is also a core faculty member

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jeanette Chipps, Montana State University ; Suzanne G Taylor, Montana State University; Nicholas Lux Lux, Montana State University; Elizabeth Nelson, Montana State University

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Pre-College Engineering Education Division (PCEE)

Paper ID #42723Board 157: Design of a Geospatial Skills Camp for Rural Youth (Work inProgress)Dr. Jeanette Chipps, Montana State University Jeanette Chipps is an assistant teaching professor at Montana State University and the educator professional development lead at the Science Math Resource Center.Suzanne G Taylor, Montana State UniversityDr. Nicholas Lux Lux, Montana State University Dr. Nicholas Lux has is an Associate Professor of Curriculum and Instruction in MSUˆa C™s Department ˆ He has of Education. His teaching and

Conference Session

Mr. Burns' Brainchild: AI in the Springfield STEM Classroom, Release the Hounds!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Geling Xu, Tufts Center for Engineering Education and Outreach; Milan Dahal, Tufts Center for Engineering Education and Outreach; Brian Gravel, Tufts University

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Pre-College Engineering Education Division (PCEE)

confidence to change.FindingsTeachers’ confidence shifted when: 1) they completed the hands-on projects; 2) theirperspectives got positive feedback 3) they collaborated on curriculum design, and 4) they saw achance to integrate ML/AI into their classroom.1. Hands-on projects provide opportunities for participants to engage in emerging technologies, and understand and use emerging ML tools. We had several hands-on projects for participants during the co-design workshop, such as exploring and playing the AI games on Google Labs, using Smart Motors to build an interactive garden project, and using Smart Motors to build a project based on the given context (Figure 1). We observed that participants got familiar with the emerging technology tools

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jennifer Lee Kouo, The Johns Hopkins University; Jeanette Chipps, The Johns Hopkins University; Rachel Figard, Arizona State University

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Diversity

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Pre-College Engineering Education Division (PCEE)

Paper ID #43473Board 154: Broadening Participation and the Mission of Engineering forUS All: A Case Study of Engineering in a Classroom Serving Students withDisabilities (Work in Progress)Dr. Jennifer Lee Kouo, The Johns Hopkins University Dr. Jennifer Kouo is an Assistant Research Scientist at the Center for Technology in Education (CTE) at the Johns Hopkins University School of Education. Jennifer’s areas of expertise include Universal Design for Learning, technology integration, assistive technologies, and serving students with a range of disabilities, particularly autism spectrum disorder. She is currently engaged in

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Rachel E. Gehr, Purdue University, West Lafayette; Tamara J Moore, Purdue University, West Lafayette; Kerrie A Douglas, Purdue University, West Lafayette

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Pre-College Engineering Education Division (PCEE)

academic year by 32teachers. These units are embedded in courses that cover mathematics, science, engineering,English, and social studies content. The results from the content pre- and post-assessments willanswer the research question: How do students conceptualize microelectronics and its meaningfor engineering and society after completing an integrated STEM unit embedded withmicroelectronics contexts?A measurement of change in student understanding is collected through identical pre- and post-assessments given at the start and conclusion of each curriculum unit. These content assessmentscontain the four prompts: 1) What does the term “microelectronics” mean?, 2) How aremicroelectronics used in field?, with “field” being the subject of the class

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Natasha Lagoudas Wilkerson, Texas A&M University; Joanne K Olson, Texas A&M University

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Pre-College Engineering Education Division (PCEE)

Paper ID #41525Board 167: Pre-College Engineering: Perspectives of Engineering Faculty(Work in Progress)Natasha Lagoudas Wilkerson, Texas A&M University Natasha Wilkerson is a Ph.D. candidate in Curriculum & Instruction with an emphasis in engineering education at Texas A&M University. She received her B.S. in Aerospace Engineering and her M.S. in Curriculum & Instruction from Texas A&M University. She is the President of the Cosmic Leap Foundation and Co-Founder of Vivify, LLC.Joanne K Olson, Texas A&M University ©American Society for Engineering Education, 2024 Pre-College

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

DeAnna Bailey, Morgan State University; Baba Amin Imamu Ojuok, The Uhuru Academy; Tamara Altman, Impact Allies; Charnee Bowens, Morgan State University; Kevin Kornegay, Morgan State University; Kofi Nyarko, Morgan State University; James Holly, Jr., University of Michigan

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Diversity

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Pre-College Engineering Education Division (PCEE)

experiences at home and within the community, support African psychology andlearning, and appeal to the African personality. Strategies include the use of African terms of authority,endearment and affirmation, call and response, African griot teaching style, communal and cooperativelearning. A curriculum is considered African-Centered when the historical, philosophical, and culturalcontext of the lessons are centered around the experiences of African people. For instance, in African-Centered curricula, academic disciplines are introduced within the context of when these disciplines arefirst encountered or developed by African people (Akoto, 2018; George, 2024; Shockley, 2011). Forexample, the origin of advanced geometry in an African-Centered

Conference Session

Pre-College Engineering Education Division (PCEE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Garth V Crosby, Texas A&M University; Maram H Alaqra, Sharjah Education Academy ; Pamela Simmons-Brooks, Texas A&M University; Morgan H. Krauss, Texas A&M University; Shelly Tornquist, Texas A&M University; Bugrahan Yalvac, Texas A&M University

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Pre-College Engineering Education Division (PCEE)

Paper ID #43121Board 171: The Design of a Course to Train STEM Pre-Service Teachers(Work-in-progress)Dr. Garth V Crosby, Texas A&M University Dr. Garth V. Crosby is an associate professor in the Engineering Technology & Industrial Distribution Department at Texas A & M University. He obtained his M.S. and Ph.D. degrees from Florida International University in Computer Engineering and ElectricalDr. Maram H Alaqra, Sharjah Education Academy Dr. Maram Alaqra has over 17 years’ experience in education, working across higher education and K-12 settings. Dr. Alaqra has taught graduate and undergraduate courses at

Conference Session

Bart's Big Plan: Engaging High Schoolers in Engineering Adventures ... Ay Caramba!

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jialing Wu, Vanderbilt University; Nicolas Leger, Florida International University; Stacy S Klein-Gardner, Vanderbilt University

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Pre-College Engineering Education Division (PCEE)

]. Figure 1. The Mechanism of Learning in CLT: The new information undergoes processing by the working memory and is subsequently integrated into long-term memory. When this information is needed, the working memory retrieves it from long-term memory.CLT addresses cognitive load through instructional design [8], [9]. Cognitive load represents thedemands that an activity imposes on working memory. As mentioned earlier, the capacity ofworking memory is limited, and an excessive cognitive load can impair its functionality. Thenew CLT categorizes cognitive load into intrinsic and extraneous loads. Specifically, intrinsicload refers to the complexity of the information being processed and the knowledge to processthat information. In

Conference Session

Mr. Burns' Brainchild: AI in the Springfield STEM Classroom, Release the Hounds!

Collection

2024 ASEE Annual Conference & Exposition

Authors

John M Mativo, University of Georgia; Ramana Pidaparti, University of Georgia; Kimberlee Ann Swisher

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Pre-College Engineering Education Division (PCEE)

any.Analysis of the data would yield an informative conclusion of effects of the AI intervention inengagement and learning.AcknowledgementThis research was supported by the National Science Foundation’s Innovative TechnologyExperiences for Students and Teachers (ITEST) program under award numbers DRL–1949384and DRL–1949493.References[1]Association for the Advancement of Artificial Intelligence, and Computer Science TeachersAssociation, “Advisory Group Promotes ‘5 Big Ideas in AI’ for K-12 Schools”, June 7, 2023.[Online]. Available: http://ai4k12.org/ Accessed Dec. 26, 2023].[2] H. Zhang, I. Lee, S. Ali, D. DiPaola, Y. Cheng, and C. Breazeal, “Integrating Ethics andCareer Futures with Technical Learning to Promote AI Literacy for Middle School Students

Conference Session

Mr. Burns' Brainchild: AI in the Springfield STEM Classroom, Release the Hounds!

Collection

2024 ASEE Annual Conference & Exposition

Authors

S. Shailja, University of California, Santa Barbara; Satish Kumar, University of California, Santa Barbara; Arthur Caetano, University of California, Santa Barbara; Ayush Pandey, University of California, Merced

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Pre-College Engineering Education Division (PCEE)

research is on multi-spectral image analytics, and I lead the project BisQue, an open source ML platform for data storage, AI/ML analysis, and visualization.Arthur Caetano, University of California, Santa Barbara Arthur Caetano is a Human-Computer Interaction Ph.D. student at the University of California, Santa Barbara, researching generative user interfaces in Extended Reality at the Human-AI Integration Lab under Prof. Misha Sra. With a Bachelor of Science in Computer Science from Universide Federal Fluminense (2017), he brings 5 years of experience in Product Management within the financial industry, focusing on internal technical solutions for data scientists and data platform regulators. Arthur also mentors

Conference Session

Homer's Handy Homework: STEM Adventures from Sofa to School, Mmm... STEM

Collection

2024 ASEE Annual Conference & Exposition

Authors

Amber Simpson, Binghamton University; Sawsan Werfelli, State University of New York at Binghamton

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Pre-College Engineering Education Division (PCEE)

-Parra, K. M. Tank, T. J. Moore, and B. Fagundes, “Design decision processes of first grade students during an engineering design-based STEM unit,” American Society for Engineering Education Ann. Conf. & Exp., Tampa, FL, 2019.[24] A. M. Rynearson, T. J. Moore, K. M. Tank, and E. Gajdzik, “Evidence-based reaonng in a kindergarten classroom through an integratd STEM curriculum, American Society for Engineering Education Ann. Conf. & Exp., Minneapolis, MN, 2022.[25] V. Cappelle, L. G. Franco, and D. Munford, “Use of drawings and connections between epistemic practices in grade 1 science lessons,” Science & Education, 2023.[26] K. A. Douglas, T. J. Moore, A. C. Johnston, and H. E. Merzdorf, “Informed designers