Conference Session

Pre-College Engineering Education Division Resource Exchange

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Tejaswini S. Dalvi, University of Massachusetts, Boston; Kristen B. Wendell, Tufts University; Chelsea Joy Andrews, Tufts University; Nicole Alexandra Batrouny, Tufts University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

final tests and revisions. Day 10: Design Challenge - Conference How do engineers share their ideas through speaking and writing? Groups prepare for and engage in a conference-style share-out, where they present their designs and design process with peers from other classes, school administration, and parents. Design Brief Design Task: You are working as engineers to design a playground structure that would be fun and safe for all children, including children who use wheelchairs. Criteria: Playground equipment MUST be: Constraints: The playground equipment, ● Sized for ● Functional ● Must fit on the cardboard square given. wheelchair ● Fun

Conference Session

Pre-College Engineering Education in the Formal Classroom

Collection

2019 ASEE Annual Conference & Exposition

Authors

Cara N. Morton, Washington State University; Kira J. Carbonneau, Washington State University

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Diversity

Tagged Divisions

Pre-College Engineering Education

self-evaluation. Reading &Writing Quarterly, 19(2), 159-172.Schunk, D. H., & Hanson, A. R. (1985). Peer models: Influence on children's self-efficacy and achievement. Journal of Educational Psychology, 77(3), 313.Sungur, S., & Güngören, S. (2009). The role of classroom environment perceptions in self- regulated learning and science achievement. Elementary Education Online, 8(3), 883- 900.Usher, E. L., & Pajares, F. (2006). Sources of academic and self-regulatory efficacy beliefs of entering middle school students. Contemporary Educational Psychology, 31(2), 125- 141.

Conference Session

Bridge Programs Connecting to First-Year Engineering

Collection

2019 ASEE Annual Conference & Exposition

Authors

Rezvan Nazempour; Houshang Darabi, University of Illinois, Chicago; Peter C. Nelson, University of Illinois, Chicago; Renata A. Revelo, University of Illinois, Chicago; Yeow Siow, University of Illinois, Chicago; Jeremiah Abiade

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Diversity

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First-Year Programs, Pre-College Engineering Education

Standards and Technology.Dr. Peter C. Nelson, University of Illinois, Chicago Peter Nelson was appointed Dean of the University of Illinois at Chicago’s (UIC) College of Engineer- ing in July of 2008. Prior to assuming his deanship, Professor Nelson was head of the UIC Depart- ment of Computer Science. In 1991, Professor Nelson founded UIC’s Artificial Intelligence Laboratory, which specializes in applied intelligence systems projects in fields such as transportation, manufacturing, bioinformatics and e-mail spam countermeasures. Professor Nelson has published over 80 scientific peer reviewed papers and has been the principal investigator on over $30 million in research grants and con- tracts on issues of

Conference Session

Pre-college Engineering Education Division Technical Session 15

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sarah Hug, Colorado Evaluation and Research Consulting; Suzanne Eyerman, Fairhaven Research and Evaluation; Trina L. Fletcher, Florida International University; Araceli Martinez Ortiz, Texas State University; Michael A. Soltys, University of Colorado, Boulder

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Diversity

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Pre-College Engineering Education

modest funding forsupplies and are expected to attend the national Society for Women in Engineering conference inthe fall along with their local sponsor or a chaperone. Ambassadors are asked to write monthlyjournals of their progress in their projects, including photos when possible of any events. Viaonline webinars and phone calls, the Ambassadors have a few opportunities to meet one anotherbefore attending SWE and sharing a room with a peer. Formative feedback suggested that girlswho are paired together for rooming at SWE should receive notice of their partner early in thefall, so they could communicate before sharing space for 4 days. At the SWE conference,Ambassadors engage in some of the content of the conference, including keynotes

Conference Session

Pre-College Engineering Education Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Theresa Green, Utah State University; Angela Minichiello P.E., Utah State University; Amy Wilson-Lopez, Utah State University

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Diversity

Tagged Divisions

Pre-College Engineering Education

). Research has shown that implementing DLI inother subjects, such as history, has led to students showing greater mastery of historical thinking,increased ability to transfer historical knowledge to other contexts, and improved readingcomprehension compared to peers that did not receive DLI [5], cf. [6], [7]. Similar studies havebeen conducted in science [8].Research on disciplinary literacy suggests that use of DLI in engineering may increase students’abilities to engage in engineering thinking as well as lessen literacy-based barriers that preventwomen and underrepresented students from pursuing STEM pathways. To accomplish this goal,a robust model of DLI in engineering must be developed and disseminated into K-16 classroompractice.BackgroundThis

Conference Session

Pre-College Engineering Education Division Technical Session 12

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Amy Wilson-Lopez, Utah State University; Jorge Americo Acosta Feliz

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

also affirming the imperative for educators to recognize thediversity of Latinx communities and to develop partnerships that foreground local communityknowledges and resources. Funds of Knowledge and TranslanguagingAlthough the aforementioned previous descriptions of funds of knowledge did not addressmultilingualism, other writings by Moll foregrounded the role of bilingualism as a vital resourcein learning for many Latinx youth.16 If schools and educators embrace the ethical imperative tosustain rather than erase minoritized students’ home cultures, then sustaining home languages isvital to education in a democracy.17 Accordingly, translanguaging has gained prominence as animportant approach across academic

Conference Session

Pre-College Engineering Education Division Poster Session

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Kaylee Andree Wersant, University of Texas at El Paso; Diane Elisa Golding, University of Texas at El Paso; Irma Y. Torres-Catanach, University of Texas at El Paso; Karla Alejandra Ayala, University of Texas at El Paso; Nora Cuvelier, University of Texas at El Paso; Ivonne Santiago P.E., University of Texas at El Paso; Victor Manuel Garcia Jr., University of Texas at El Paso

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Diversity

Tagged Divisions

Pre-College Engineering Education

technical presentations. The educational activities and technical presentation weredeveloped to cover several topics such as financial literacy, standardized testing, resume writing,and time management. Pre-college students also participated in individual mentoring sessions toallow for a one-on-one learning environment. Online surveys were formulated and distributed tothe participants at different stages of the STEM Education Workshop during the summer of 2020.The information collected was preliminarily analyzed to generate conclusions about the STEMEducation Workshop and draw recommendations to improve the material content, presentationmethods and communication technology for use in upcoming STEM Education Workshops.IntroductionSchools and

Conference Session

Pre-college Engineering Education Division Technical Session 10

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Christina Anlynette Alston, Rice University; Carolyn Nichol, Rice University; Robert Wimpelberg, University of Houston; Jean S. Larson, Arizona State University; Alison Cook-Davis, Arizona State University

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Diversity

Tagged Divisions

Pre-College Engineering Education

and with what levels of effectiveness. For that research, we will seekadditional funding to study how teachers use and apply these materials. References1. S. E. Lopez, W. H. Goodridge, M. Tajvidi, K. H. Becker, Assessing the Need for Professional Development in Engineering Among Ru-ral High School Science Teachers (Fundamental) (2017).2. T. Porter, M. E. West, R. L. Kajfez, K. L. Malone, K. E. Irving, The effect of teacher professional development on implementing engineering in elementary schools. Journal of Pre-College Engineering Education Research (J-PEER) 9, 5 (2019).3. K. Eby, The Essential Guide to Writing S.M.A.R.T. Goals 2019 (2019).4. T. J. Moore, A. W. Glancy, K. M. Tank, J. A

Conference Session

Bridge Programs Connecting to First-Year Engineering

Collection

2019 ASEE Annual Conference & Exposition

Authors

Amanda Simson, The Cooper Union; Laura C. Broughton, City University of New York, Bronx Community; Elizabeth J. Biddinger, City College of the City University of New York

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Diversity

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First-Year Programs, Pre-College Engineering Education

. Additionally,students were exposed to common college practices like office hours, course syllabi, coursereadings, and class discussions. In the 2018 course, specific time was set aside to allow studentsto work on their own (with freedom to work anywhere on campus). These portions of time werespecifically designed to give students choices in how to manage their time.The course, which drew juniors and seniors from various local high schools, did not havespecific prerequisites. Thus, a fundamental challenge of the course was to incorporatedifferentiation into the curriculum delivery to meet the needs of a variety of skill levels. Toaccommodate all students, each section of the course included peer-peer tutoring, office hoursduring lunch, and optional

Conference Session

Engineering Career Attitudes

Collection

2018 ASEE Annual Conference & Exposition

Authors

Bugrahan Yalvac, Texas A&M University; Oluwatosin A. Bewaji, Texas A&M University; Madison Elaine Spier, Texas A&M University; Gustavo Mosqueda Elizondo III, Texas A&M University; Chiamaka Theclar Umah; Todd Sherron, Texas State University; J. Timothy Lightfoot, Texas A&M University; Carolyn L. Cannon, Texas A&M University; Robin S.L. Fuchs-Young, Texas A&M University

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Diversity

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Pre-College Engineering Education

]. Research shows that student interest in STEM field decreases as their grade levelsincrease [2]. It is expected that in the next five years, there will be a shortage of talented andskilled employees in STEM fields [1], [2].Among the reasons that U.S. students lack interest in STEM fields is their perception that formalK-12 STEM education is not directly relevant to their daily life experiences [3], [4]. Themathematical and scientific content presented in formal settings does not appear to be directlyuseful in their day-to-day experiences and their interactions with others in their community.Content knowledge is often presented in a way that seems compartmentalized and impractical [3]– [7]. Especially in their social interactions with peers, family

Conference Session

Communication in Pre-College Engineering Education

Collection

2019 ASEE Annual Conference & Exposition

Authors

Christine M. Cunningham, Pennsylvania State University, University Park; Gregory John Kelly, Pennsylvania State University ; Natacha Meyer

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

to fail. This encourages English learners to take risks linguistically and engage more actively with their peers. (Environment: fail & risks) 4) Engineering allows students to experience success in ways that are not contingent on language fluency. For example, children can explore properties of materials, test their designs and make improvements based on testing data, without having language fluency. (Success w/o English fluency) 5) Engineering provides opportunities for English learners to engage in non-verbal communication in the form of writing, drawing, and gesturing. This allows students, who may not be able to articulate what they are thinking verbally, to participate. (Participation

Conference Session

Pre-college Engineering Education Division Technical Session 10

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Diane L. Nelson, Carnegie Mellon University; Ilhem F. Hakem, Carnegie Mellon University

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Diversity

Tagged Divisions

Pre-College Engineering Education

these materials were investigated. During the concluding ceremony of theSAMS program, a mini-symposium-style final project presentation gave students the opportunityto share their results and educate their peers about their insights on the role of sustainableengineering in their respective domain.IntroductionThe development of pipelines for students to introduce them to STEM careers before college andto increase their confidence in STEM-related skills is the key for the students’ success [1-5]. In2001, the Summer Academy for Math and Science (SAMS) program at Carnegie MellonUniversity was established to provide opportunities for rising high school seniors fromunderrepresented communities (i.e., students that belong to one or more of the

Conference Session

Pre-College Engineering Education Focused on Female Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jeanna R. Wieselmann, University of Minnesota; Emily Anna Dare, Florida International University; Gillian Roehrig, University of Minnesota; Elizabeth Ring-Whalen, St. Catherine University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

understand how changes in classroom instruction impacts their attitudes towards and beliefs about STEM fields. In particular, she is looking at methods that positively impact girls, which may increase the number of women pursuing careers in STEM-related fields where they are currently underrepresented.Dr. Gillian Roehrig, University of Minnesota Dr. Roehrig is a professor of STEM Education at the University of Minnesota. Her research explores issues of professional development for K-12 science teachers, with a focus on beginning teachers and implementation of integrated STEM learning environments. She has received over $30 million in federal and state grants and published over 80 peer-reviewed journal articles and book

Conference Session

Underrepresented Populations

Collection

2018 ASEE Annual Conference & Exposition

Authors

Kayla R. Maxey, Purdue University, West Lafayette; Morgan M. Hynes, Purdue University, West Lafayette

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Diversity

Tagged Divisions

Pre-College Engineering Education

socioeconomicbackgrounds, social positioning influences peer-to-peer relations and their status within anengineering team. Furthermore, we aim to explore how this position relates to their engagementwith engineering concepts, practices, and habits. We expect the rich examples of how K-12students experience status in collaborative engineering projects to inform curriculum design andinstructional practice.The methods applied follow a case study approach where video-recorded observations of peerinteractions and one-on-one interviews comprise the data in this case. The case is a two-weeksummer engineering camp for students in grades 6-8. In this case study, we conducted interactionanalysis of the video data by coding peer-to-peer exchanges and the associated impact

Conference Session

Pre-College Engineering Education Division Technical Session 4

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Amanda M. Gunning, Mercy College; Meghan E. Marrero, Mercy College; Kristen V. Larson, Mercy College

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Diversity

Tagged Divisions

Pre-College Engineering Education

collaborative notes [44], [46] Throughout the finalstages of analysis, the team reviewed collective comments to categorize codes and consideroverarching themes [44], [46]. These themes resulted in the findings described below.Triangulation and rigor were ensured through the use of varied data sources that capturedwritten, spoken, and performed moments in the process of professional development through thetwo courses [44]. Rigor was further established through prolonged engagement with theparticipants which allowed for continuous conversations, member checking, and peer debriefingalong the process of analysis and writing [45]. This participatory research approach amplified theparticipating teachers’ voices and created the space for an iterative process

Conference Session

Makerspaces

Collection

2018 ASEE Annual Conference & Exposition

Authors

Foad Hamidi, University of Maryland, Baltimore County; William Easley, University of Maryland, Baltimore County; Stephanie Grimes, Digital Harbor Foundation; Shawn Grimes, Digital Harbor Foundation; Amy Hurst, University of Maryland, Baltimore County

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

commented that it might be useful to find ways thatassessments could be built into the courses such that they do not conflict with the final projects.Despite the difficulties the staff members believed that quantitative tools could be useful andcomplement qualitative assessments. They stated that sometimes it is difficult for youth toexpress themselves through online writing. Additionally, some youth are not as expressiveduring public events such as the showcase. While anecdotal information from the youth parentsand peers showed positive outcomes, capturing these using structured, detailed methods wouldbe useful. Thus, the staff expressed that with better assessment tools and procedures, surveys orquestionnaires could still be useful in this

Conference Session

Underrepresented Populations

Collection

2018 ASEE Annual Conference & Exposition

Authors

Srinjita Bhaduri, University of Colorado, Boulder; Katie Van Horne; John Daniel Ristvey Jr., UCAR Center for Science Education; Randy Russell, UCAR Center for Science Education; Tamara Sumner

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Diversity

Tagged Divisions

Pre-College Engineering Education

-centered computing, and interdisciplinary research methods for studying cognition. I have written 140 articles on these topics, including over 80 peer-reviewed scholarly publica- tions. c American Society for Engineering Education, 2018 From toys to tools: UAVs in middle school engineering education (RTP, Diversity)AbstractWe have developed, implemented, and studied a 16-week, afterschool engineering programaimed at low-income middle school youth. The curriculum is based on Unmanned AerialVehicles (UAV/Drones), which participating youth must use and modify as appropriate toconduct a range of scientific investigations, culminating in the aerial survey of a mock

Conference Session

Pre-College Engineering Education Division Technical Session 15

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Diane Elisa Golding, University of Texas at El Paso; Heather Kaplan, University of Texas El Paso

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Diversity

Tagged Divisions

Pre-College Engineering Education

with paint that allowed students todraw and write on the wall’s surface. The approach to the makerspace design supported theReggio Emilia philosophy that the environment benefits the learning experience. Further, thesespaces can provide a feeling of belongingness for students, as has been the case in makerspacesat the university level. [11][12] For this paper, we begin with one of the stories shared with the kindergarten students,Creepy Carrots by Aaron Reynolds. This fictional text was read and discussed as a preliminaryactivity to provide a problem for students to think about followed by students’ designs of asolution to the problem (the Youtube read aloud may be found here:https://youtu.be/NJnIEbVLq90 ). The crux of the problem is

Conference Session

Pre-college Engineering Education Division Technical Session 2

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Younkyeong Nam, Pusan National University; Jina Yoon, Pusan National University; Jeanna Wieselmann, Southern Methodist University

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Diversity

Tagged Divisions

Pre-College Engineering Education

President Moon of South Koreaasking them to choose five renewable energy sources that they think are most efficient and suitablefor the economic and geological context of South Korea. Students individually work to rank fivechoices for renewable energy and write reasons including important values they considered fortheir choice. Then they are grouped in a single-gender group (boys or girls) and asked to discusstheir individual ideas to move toward a collective decision about what kind of renewable energythey will recommend as a group.Phase two. In phase two, more information about renewable energy is given to the students in asingle-gender group. They individually read the information and discuss their decisions in light ofthe new information

Conference Session

Pre-College Engineering Education Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Laura Bottomley, North Carolina State University; Susan Beth D'Amico, North Carolina State University; Amber L. M. Kendall, Tufts Center for Engineering Education and Outreach; Daniel Gordon Mendiola Bates, North Carolina State University; Whitney N. McCoy, North Carolina State University

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Diversity

Tagged Divisions

Pre-College Engineering Education

teacher familiarity or comfort with teachingdesign, engineering, and technology subjects [16] , and a focus on literacy and math standardizedtesting in the early grades, with STEM subjects like science not being assessed in [this state]until fifth grade. At the time of writing this paper, a search of the NSF-sponsoredTeachEngineering.org website--a peer-reviewed repository of standards-aligned engineeringactivities, lessons, and curricula--produced only 28 entries recommended for grades K-2, out of1660 total K-12 entries in the database [17].Camp designAdding the richness of a scenario and background via a storybook, campers connected theproject work they were doing with a broader cause. During the first day, we read Mr. BearSquash-You-All-Flat

Conference Session

Pre-College Engineering Education Division Technical Session 7

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Latanya Robinson, Florida International University; Adam Kirn, University of Nevada, Reno; Candice Guy-Gaytán, BSCS Science Learning; Joshua Alexander Ellis, Florida International University

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Diversity

Tagged Divisions

Pre-College Engineering Education

and solution for the mass of mixture/solution3 Students drawing their own Determining the filtration devices concentration of a solution4 Providing labels and Determining Writing numerical expression measurements for filtration saturation of a for saturation devices solution5-6 Students give feedback and Materials that receive feedback from peers filter out bacteria on their drawings7-8 Students design and evaluate Deriving flow rate ratio for their filtration devices selected materials in the

Conference Session

Pre-college Engineering Education Division Technical Session 4

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Neal I. Callaghan, University of Toronto; Jose Luis Cadavid, University of Toronto; Huntley H. Chang, University of Toronto; Ileana Louise Co, University of Toronto; Nicolas Ivanov, University of Toronto; Nhien Tran-Nguyen, University of Toronto; Jonathan Rubianto, University of Toronto; Locke Davenport Huyer, University of Toronto; Dawn M. Kilkenny, University of Toronto

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Diversity

Tagged Divisions

Pre-College Engineering Education

have external barriers to learning.Therein, focus tends to be on additional resource deployment or encouragement to perseverethrough challenge for specific students. However, not all strategies need focus exclusively on theindividual student; a powerful means to enhance a student’s academic interest and performanceis through the culture and environment of the classroom [7-8]. In fact, one could speculate thatindividual focus on particular students by an educator need be optimized, as social implicationscould have detriment to equitable goals. Therefore, this sum of interpersonal interactionsbetween students and the educator, in its optimal form, would allow for shared experience andachievement between students, spurring peer support and

Conference Session

Pre-college Engineering Education Division Technical Session 2

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Madhurima Das, NuVu Studio

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Diversity

Tagged Divisions

Pre-College Engineering Education

encourage them to pursue STEAM careers. One particularly effective approach isthrough hands-on learning and “making,” since children often have a natural affinity fortinkering and learn well through active involvement in meaningful activities [1]. Hands-on,project-based learning has been shown to get more students engaged with STEAM and help themlearn key skills for the future [2]. However, most STEAM education programs target students inupper-middle or high school [3]. Bustamante et. al write, “Since engineering education hastraditionally not been part of the general K–12 education experience (i.e., the beginning ofprimary school (age 5) through the end of secondary school (age 18)), early childhood educatorshave minimal background in engineering

Conference Session

Engineering Professional Development using Robotics Activities

Collection

2019 ASEE Annual Conference & Exposition

Authors

Shramana Ghosh, NYU Tandon School of Engineering; Veena Jayasree Krishnan, NYU Tandon School of Engineering; Sheila Borges Rajguru, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering

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Diversity

Tagged Divisions

Pre-College Engineering Education

most participants.Challenges in NGSS-plus-5E Implementation: One of the most significant aspects of NGSS isthat the PEs require integration of the three dimensions [17]. We found that both the facilitatorsand teachers struggled in many ways due to the rigor required by the standards, as illustrated inTable 2. Social capital [31] generated through peer support was found to be quite helpful inovercoming these challenges.Incorporating ‘old’ lessons: After receiving the initial NGSS-plus-5E one-day workshop, thefacilitators strategized for creating new lessons by using their previously designed robotics lessons(aligned to the Common Core Standards) and “trying to fit them” to the new NGSS-plus-5E lessontemplate. They had difficulty in identifying

Conference Session

Pre-College Engineering Education Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Alexandra M. Pike, Juanita High School

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Diversity

Tagged Divisions

Pre-College Engineering Education

summers, engaging in engineering research and writing pre-college engineering curricula. Her research interests include physics and engineering education and teacher professional development. c American Society for Engineering Education, 2018 Integrating Authentic Engineering Design into a High School Physics Curriculum (Work in Progress)Background and ObjectivesThe Framework for K-12 Science Education calls for the integration of engineering practicesinto pre-college science classrooms [1], because “providing students a foundation in engineeringdesign allows them to better engage in and aspire to solve the major societal and

Conference Session

Professional Development for Pre-Service and In-Service Teachers

Collection

2019 ASEE Annual Conference & Exposition

Authors

Sylvia W. Thomas, University of South Florida; Scott W. Campbell, University of South Florida; Manopriya Devisetty Subramanyam, University of South Florida; Cheryl R. Ellerbrock, University of South Florida

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Diversity

Tagged Divisions

Pre-College Engineering Education

and discussions over fifteen weeks covering 1) anintroduction and overview of STEM and STEM literacy, 2) guiding principles in STEM Education,3) typical components of STEM, 4) workshops on developing an instructional STEM unit(curriculum unit), 5) STEM instruction from an integrated approach, and 6) pre-service teacherresidency peer experiences (Appendix A).Evaluation Approach and Method Reflection in engineering education has become highly regarded as an evaluation approachinvolving the concept of “doing and reflecting on the doing” [8]. Supported by several engineeringeducation researchers, “reflective techniques” are important in fostering effective teaching andstimulating student learning [9-13]. Turns [9] defines reflection “as

Conference Session

Professional Development for Pre-Service and In-Service Teachers

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jeremy Dylan Smith M.S., Virginia Tech; Vinod K. Lohani, Virginia Tech

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Diversity

Tagged Divisions

Pre-College Engineering Education

funding participation from external sources. He has been directing/co-directing an NSF/Research Experiences for Undergraduates (REU) Site on interdisciplinary water sciences and engineering at VT since 2007. This site has 95 alumni to date. He also leads an NSF/Research Experiences for Teachers (RET) site on interdisciplinary water research and have 10 alumni. He also leads an NSF-funded cybersecurity education project and serves as a co-PI on two International Research Experiences for Students (IRES) projects funded by the NSF. He has published over 90 papers in peer-reviewed journals and conferences. c American Society for Engineering Education, 2019 An Interdisciplinary RET Program

Conference Session

Interest & Identity

Collection

2019 ASEE Annual Conference & Exposition

Authors

Mary Ann Jacobs, Manhattan College; Zahra Shahbazi, Manhattan College

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

schoolers salient totheir learning. Middle grades are the bridge between the wants and needs of childhood and thewants and needs of high schoolers6. Emotionally, adolescents are self-absorbed and tend toexaggerate; they are sensitive and easily offended. Garrett-Hatfield further states that middleschoolers can be moody and feel alienated. At the same time, they are also curious about theworld around them and need time to explore safely. Another salient feature of the middle schoollearner is their sense of wonder about the changes they see in themselves and in their peer group.They depend on important adults in their lives and good role models to emulate. One goal was tohave the Ambassadors be those role models who would be emulated by the middle

Conference Session

Pre-College Engineering Education Division Technical Session 20

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Johannes Strobel, University of Missouri; Alexander Franz Koch, University of Teacher Education, Fribourg, Switzerland; Hao He, University of Missouri-Columbia

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Diversity

Tagged Divisions

Pre-College Engineering Education

co-lead designer of Hands- on Standards STEM in ActionTM —a set of learning modules for preK-5th grades - in use in 35 countries and selected as finalist for two international awards. Dr. Strobel received the 2018 Science Educator of the Year Award from the Academy of Science - St. Louis and the 2018 STEM Excellence Award from the International Society for Technology in Education (ISTE), and served as an Invited Member on the National Academy of Engineering Committee for Implementing Engineering in K-12. Dr. Strobel founded the Journal of Pre-College Engineering Education Research (J-PEER), has served on the board of IEEE Transactions in Education, and currently serves as Associate Editor for the Australasian

Conference Session

Pre-College Engineering Education Division Technical Session 7

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Morgan M. Hynes, Purdue University at West Lafayette (COE); Kayla R. Maxey, Purdue University at West Lafayette (COE); Rong Su, University of Iowa

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

explored peer-reviewed journal publications on P-12 engineering education from2000-2015 across five large periodical databases (PsycInfo, EBSCO Full text/ERIC, Scopus,Professional Development Collection, EBSCO Education source. Since we are interested in themeasures of students’ affective views with respect to engineering focused interventions, wemodified the search criteria to include terms such as interests, attitudes, self-efficacy, identity,motivation, and aspirations. These affective views were chosen as areas of concentrationbecause they are the most commonly used as measures that, if increased, would predict a higherlikelihood of students pursuing engineering. With the additional search terms for students’affective views, we repeated search