Conference Session

Pre-College: Perceptions and Attitudes on the Pathway to Engineering (3)

Collection

2017 ASEE Annual Conference & Exposition

Authors

Aimee Cloutier, Texas Tech University; Guo Zheng Yew, Texas Tech University; Siddhartha Gupta, Texas Tech University; C. Kalpani Dissanayake; Paula Ann Monaco, Texas Tech University; Susan A. Mengel, Texas Tech University; Audra N. Morse P.E., Michigan Technological University

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Pre-College Engineering Education Division

to his graduate work in the United States, he obtained his Bachelor’s degree from Malaysia and has participated in research projects involving offshore structures in Malaysia. As a graduate part-time instructor at Texas Tech University, he teaches an intro- ductory course in engineering to freshmen undergraduate students. He has taught at Texas Tech University since the fall of 2013.Mr. Siddhartha Gupta, Texas Tech University Siddhartha Gupta is a third-year PhD student in the department of Chemical Engineering at Texas Tech. He received a bachelor’s degree in chemical engineering from the Indian Institute of Technology and subsequently worked as shift engineer for two years with a Fortune 500 chemical company

Conference Session

Pre-College: Organizing Instruction Around a Theme

Collection

2017 ASEE Annual Conference & Exposition

Authors

Elena Nicolescu Veety, North Carolina State University; Jesse S. Jur, North Carolina State University; Hannah Kimrey Elliott; James Edward Lamberth III, William G. Enloe Magnet High School

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Pre-College Engineering Education Division

to disseminate the core of our research to the K-12 community and build thepipeline of young scientists and engineers who will be prepared to continue the important workof identifying and solving the grand global challenges of the future.Program DescriptionAt its core, the program teaches middle and high school teachers and students how to apply theEngineering Design Process (EDP) to solve real world problems through a project basedapproach. The prompt presented to participants is: Design a wearable device for a human,animal, or both, to address a “One Health” related issue. The One Health Initiative2 bringslight to issues at the intersection of human, animal, and environmental health. This promptencourages creativity in the brainstorming

Conference Session

K-12 & Pre-College Engineering Division: Outreach in K12 through College Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tony Lee Kerzmann, Robert Morris University; John Howard Walker, University of Pittsburgh; David V.P. Sanchez, University of Pittsburgh

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Pre-College Engineering Education Division

built environment. Current projects include: Renewable electrode materials for Microbial Fuel Cells and the Electro-Fenton process, Recirculating Aquaponic Systems, Environmental Quality wireless sensor networks, and incorporating Sustainable De- sign/Innovation into engineering curricula. He serves as a director for Pitt’s Design EXPO and a variety of the Mascaro Center’s Sustainability programs including the Manchester Academic Charter School ”Green week” and the Teach the Teacher program. Dr. Sanchez teaches Introduction to Sustainable Water Technology and Design, classes in the Civil & Environmental Engineering Department and the Swanson School of Engineering Freshmen program. He works closely with K-12

Conference Session

K-12 & Pre-College Engineering Division: Fundamental: K-12 Student Beliefs, Motivation, and Self Efficacy

Collection

2016 ASEE Annual Conference & Exposition

Authors

Vanessa Svihla, University of New Mexico

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Pre-College Engineering Education Division

practices, they need opportunities to developownership of these practices by coming up with their own ways to solve problems, posing theirown questions, and developing their own conclusions [22]. In engineering, in particular, theyneed opportunities to have ownership over the design problem; although posed by a customer orclient, design problems are framed by the designer [23], leading to a sense of agency [24] andownership [25].Interest can drive a sense of ownership over learning [26], which in turn can foster a mastery-oriented stance on learning [27] and help students make decisions about their futures [28]. Oneapproach to support ownership development is through the use of project-based instruction [29];creating artifacts that reflect learning

Conference Session

K-12 & Pre-College Engineering Division Poster Session: Works in Progress

Collection

2016 ASEE Annual Conference & Exposition

Authors

Brian Patrick O'Connell, Tufts University Center for Engineering Education and Outreach

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Pre-College Engineering Education Division

focusing his research in engineering design, educational tech- nologies, and engineering education. c American Society for Engineering Education, 2016 Implementation of a Mobile Makerspace in a K-8 School - Work in ProgressThis paper describes a work in progress aspect of the Novel Engineering research project at TuftsUniversity, a maker cart developed for participant support. This research project provides anapproach for teachers to integrate engineering into their curriculum with greater ease. In thisprogram, students develop functional solutions to problems they’ve identified from variousliterary sources and then develop their solutions for, typically using found

Conference Session

K-12 & Pre-College Engineering Division: Evaluation: Exploring the Impact of Programs & Professional Development for K-12 Teachers

Collection

2016 ASEE Annual Conference & Exposition

Authors

Kathleen A. Harper, The Ohio State University

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Pre-College Engineering Education Division

content as the basis forengineering, rather than using engineering projects to motivate the learning of science. Finally,unlike many outreach efforts, this program is not connected with particular content areas ofengineering, such as nanotechnology or electrical engineering.Developed through the collaboration of a university physicist and a high school teacher in thelate 80’s, the Modeling framework for science instruction has spread to high schools throughoutthe U. S. and internationally, largely through grass-roots teacher efforts. It is one of only twohigh school science reform efforts designated as exemplary by the U. S. Department ofEducation and has reached an estimated 7,500 teachers. Further, the cohesive Modelingcommunity has created

Conference Session

Pre-College: Teacher Impact on Student Mastery

Collection

2017 ASEE Annual Conference & Exposition

Authors

Marissa H. Forbes, University of Colorado, Boulder; Jacquelyn F. Sullivan, University of Colorado, Boulder; Denise W. Carlson, University of Colorado, Boulder

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Pre-College Engineering Education Division

School of Science and Technology, where she also created and taught a year-long, design-based engineering course for seniors. Forbes earned her PhD in civil engineering, with an engineering education research focus.Dr. Jacquelyn F. Sullivan, University of Colorado, Boulder Jacquelyn Sullivan has led the multi-university TeachEngineering digital library project, now serving over 3.3M unique users (mostly teachers) annually, since its inception. She is founding co-director of the design-focused Engineering Plus degree program and CU Teach Engineering initiative in the University of Colorado Boulder’s College of Engineering and Applied Science. With the intent of transforming en- gineering to broaden participation

Conference Session

Pre-College: Teacher Impact on Student Mastery

Collection

2017 ASEE Annual Conference & Exposition

Authors

Julie Steimle, University of Cincinnati; Anant R. Kukreti, University of Cincinnati; Helen Meyer, University of Cincinnati

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Pre-College Engineering Education Division

. Currently, she is the Project Director of the Cincinnati Engineering Enhanced Math and Science Program.Dr. Anant R. Kukreti, University of Cincinnati ANANT R. KUKRETI, Ph.D., is Director for Engineering Outreach and Professor in the Department of Biomedical, Chemical and Environmental Engineering at the University of Cincinnati (UC), Cincinnati Ohio, USA. He joined UC on 8/15/00 and before that worked 22 years at University of Oklahoma. He teaches structural mechanics, with research in steel structures, seismic analysis and design, and engineer- ing education. He has won five major university teaching awards, two Professorships, two national ASEE teaching awards, and is internationally recognized in his primary research

Conference Session

K-12 & Pre-College Engineering Division: Outreach in K12 through College Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Margaret Pinnell, University of Dayton; Elizabeth S Hart, University of Dayton; Laura Kozuh Bistrek, University of Dayton; Shaquille T. Tensley, University of Dayton

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Diversity

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Pre-College Engineering Education Division

Humanitarian Opportunities of Service-Learning) for approximately ten years. She has incorporated service-learning projects into her classes and laboratories since she started teaching in 2000. Her research interests include community engaged learning and pedagogy, K-12 outreach, biomaterials and materials testing and analysis.Prof. Elizabeth S Hart, University of Dayton Beth Hart is a Lecturer for the University of Dayton School of Engineering Dean’s Office. She received her B.S. and M.S. degrees from the University of Dayton, both in Chemical Engineering. She currently teaches engineering design and oversees the Women Engineering Program, part of the Diversity in Engi- neering Center.Mrs. Laura Kozuh Bistrek, University

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Rohit Dua, Missouri University of Science & Technology

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Pre-College Engineering Education Division

Progress)Abstract The goal of this project is to address and contribute to the ever-growing demand todevelop innovative and interactive education modules, catered towards K-12 students, which willencourage them to pursue a career path in computer engineering, a STEM field area, upongraduating from high school. Even though kids are experienced in using consumer electronicgadgets, they rarely understand the basics of how these devices were built. Exposing them to thefoundations of computer hardware, may encourage them to think about how basic computeroperations are performed. In addition to developing multiple tools, to teach kids about theworking of logic gates, decimal-to-binary conversion, and representing positive and negativenumbers, in

Conference Session

Pre-College: Resource Exchange

Collection

2017 ASEE Annual Conference & Exposition

Authors

Holly Miller, Riverside Intermediate School; Tamara J. Moore, Purdue University, West Lafayette (College of Engineering); Aran W. Glancy, University of Minnesota, Twin Cities; Emilie A. Siverling, Purdue University, West Lafayette (College of Engineering); Siddika Selcen Guzey, Purdue University, West Lafayette (College of Engineering); Amanda C. Johnston, Purdue University, West Lafayette (College of Engineering); Hillary E. Merzdorf, Purdue University, West Lafayette (College of Engineering); Elizabeth Suazo-Flores, Purdue University, West Lafayette; Murat Akarsu, Purdue University, West Lafayette (College of Engineering)

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Pre-College Engineering Education Division

@purdue.edu sguzey@purdue.edu Amanda C. Johnston1 Hillary E. Merzdorf2 Elizabeth Suazo-Flores2 Murat Akarsu2 johnst78@purdue.edu merzdor@purdue.edu esuazo@purdue.edu markarsu@purdue.edu 1 2 3 Riverside Intermediate School, Purdue University, University of Minnesota Project Description The EngrTEAMS project has been developing a suite of 13 integrated STEM curricula for grades 4 – 8. The curricula are hands-on engineering design challenges that integrate mathematics and science grade- appropriate content, mapping to Next Generation Science Standards for engineering and discipline-specific standards. Each unit was inspired by

Conference Session

K-12 & Pre-College Engineering Division: Fundamental & Research-to-Practice: K-12 Engineering Resources: Best Practices in Curriculum Design (Part 2)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Louis Nadelson, Utah State University; Christina Marie Sias, Utah State University; Anne Seifert, Idaho National Laboratory

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Pre-College Engineering Education Division

executive director of the i-STEM network. She holds a BS degree in elementary education, an MA in Education Administration and an EDS in Educational Leadership. As a 30 year veteran teacher and administrator she has been in- volved in school reform, assessment, literacy, student achievement, and school improvement. Her current work involves coordinating partnerships with educators, the Idaho Department of Education, business, and industry to raise STEM Education awareness. Anne’s research interests include STEM education, inquiry and project-based instruction with the incorporation of 21st Century learning, change practices, and cultural influences on school effectiveness. c American Society

Conference Session

K-12 & Pre-College Engineering Division: Research to Practice: K-12 Engineering Resources: Best Practices in Curriculum Design (Part 1)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Noah Salzman, Boise State University; Sin Ming Loo, Boise State University

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Pre-College Engineering Education Division

Engineering and others have assertedthe need for exposing K-12 students to engineering to help them develop 21st century skills,improve science and mathematics achievement, develop technological literacy, and inspire andprepare students to pursue careers in engineering4–6. This has resulted in the rapid growth of K-12 engineering curricula like Project Lead The Way, the International Technology andEngineering Education Association’s Engineering byDesign, and extracurricular programs likeFIRST Robotics.Many of these engineering initiatives included significant programming components. Roboticscompetitions typically involve varying degrees of programming to control the robots and allowthem to operate autonomously, while many K-12 engineering curricula

Conference Session

K-12 & Pre-College Engineering Division: Evaluation: Impact of Curriculum for PreK-12 Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jennifer B. Listman, New York University; Vikram Kapila, New York University

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Pre-College Engineering Education Division

Research.Dr. Vikram Kapila, New York University Vikram Kapila is a Professor of Mechanical Engineering at NYU Tandon School of Engineering (NYU Tandon), where he directs a Mechatronics and Control Laboratory, a Research Experience for Teachers Site in Mechatronics and Entrepreneurship, a GK-12 Fellows project, and a DR K-12 research project, all funded by NSF. He has held visiting positions with the Air Force Research Laboratories in Dayton, OH. His research interests include K-12 STEM education, mechatronics, robotics, and control system technology. Under Research Experience for Teachers Site and GK-12 Fellows programs, funded by NSF, and the Central Brooklyn STEM Initiative (CBSI), funded by six philanthropic foundations

Conference Session

K-12 & Pre-College Engineering Division: Fundamental; K-12 Students & Engineering Division: Fundamental; K-12 Students & Engineering Design Practices: Best Paper Session

Collection

2016 ASEE Annual Conference & Exposition

Authors

Pamela S. Lottero-Perdue Ph.D., Towson University; Elizabeth A. Parry, North Carolina State University

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Pre-College Engineering Education Division

, parents, preservice and in- service teachers to both educate and excite them about engineering. As the Co-PI and project director of a National Science Foundation GK-12 grant, Parry developed a highly effective tiered mentoring model for graduate and undergraduate engineering and education teams as well as a popular Family STEM event offering for both elementary and middle school communities. Parry is currently a co-Pi on two NSF DR-K12 Projects: the Exploring the Efficacy of Elementary Engi- neering Project led by the Museum of Science Boston studying the efficacy of two elementary curricular programs and Engineering For All, a middle school project led by Hofstra University. Other current projects include

Conference Session

Pre-College: Techniques and Programs for Promoting Engineering Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Afroditi Vennie Filippas, Virginia Commonwealth University; Lorraine M. Parker, Virginia Commonwealth Universtiy

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Pre-College Engineering Education Division

during the summer, and continue theirfellowship during the school year, when they are expected to work four hours a week. DERIfellows receive up to $200 to participate in a local scientific event and may also apply for a travelallowance based on financial need. Research mentors involve the high school student in theirongoing research. Each mentor receives a $500 travel grant to attend a scientific conferenceapproved by their faculty advisor.Program organizationMentors propose the projects, which are developed with a view to be challenging but appropriatefor a high-achieving high school senior, and that could lead to publishable results. Preferably,mentors are graduate students or post-doctoral fellows, but we also accept proposals from

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Margaret Pinnell, University of Dayton; Richard Douglas Stock; Vanisa Turney

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Pre-College Engineering Education Division

Humanitarian Opportunities of Service-Learning) for approximately ten years. She has incorporated service-learning projects into her classes and laboratories since she started teaching in 2000. Her research interests include community engaged learning and pedagogy, K-12 outreach, biomaterials and materials testing and analysis.Richard Douglas StockDr. Vanisa Turney, Dr. Vanisa Turney has more than ten years of experience in public education. Having served as a class- room teacher, curriculum specialist, assistant principal, and principal she has contributed to the methods in which the urban child is best educated. Dr. Turney received a bachelor’s and master’s degree in mid- dle childhood education from Wright State

Conference Session

K-12 & Pre-College Engineering Division: Professional Development for Students and Teachers

Collection

2016 ASEE Annual Conference & Exposition

Authors

Zahra Shahbazi, Manhattan College; Alexandra Emma Lehnes, Manhattan College; Mary Ann Jacobs, Manhattan College; Kathleen Christal Mancuso, Manhattan College

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Pre-College Engineering Education Division

research involves modeling and simulation of protein molecules as nano bio robots with applications in new drug design. The other aspect of her research is engineering education.Ms. Alexandra Emma Lehnes, Manhattan College Alexandra Lehnes is a senior at Manhattan College majoring mechanical engineering and minoring in mathematics. In the past she has done biomechanical research on aortic aneurysms and worked for an energy distribution company as a project engineering intern. Currently she is the president of the engi- neering ambassadors club and assisting with an National Science Foundation grant to increase engineering awareness using the engineering ambassadors, offering a minor in engineering educations, and encourag

Conference Session

Pre-college: Summer Experiences for Students and Teachers (1)

Collection

2017 ASEE Annual Conference & Exposition

Authors

Afrin Naz, West Virginia University Institute of Technology; Mingyu Lu, West Virginia University Institute of Technology

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Diversity

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Pre-College Engineering Education Division

2015. Asanother tremendous improvement compared with 2015, 25% of the participants are AfricanAmerican students in 2016. During the academy, the participating female students learnedabout fundamental knowledge of science and engineering, were exposed to cutting-edgetechnologies, and conducted multiple mini-projects. The photo in Figure 1 was taken at theacademy with all the academy participants. Figure 1: Participants of the STEM Summer Academy for Girls held in July 2016.As last year, we embraced femininity while using hands-on activities to explore STEM. Somecontents of the 2016 STEM Summer Academy was particularly tailored for girl participants.For example, the participating girls applied biomechanics of the human foot to design

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Deborah M. Grzybowski, The Ohio State University; Tiffany Wild, The Ohio State University; Se Jeong Yang, The Ohio State University

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Pre-College Engineering Education Division

learning center and as an itinerant teacher for Project PAVE. Dr. Wild was awarded a prestigious doctoral fellowship with the National Center for Leadership in Visual Impairments to pursue her doctoral degree and her dissertation was awarded the ”Dissertation of the Year” by the Council for Exceptional Children’s Division on Visual impairment. Currently Dr. Wild is an assistant professor in the Department of Teaching and Learning in the College of Education and Human Ecology and coordinates the program in visual impairment. She also is the president-elect for the Division on Visual Impairment and Deafblind and President of the Ohio Chapter for the Association for Education and Rehabilitation of the Blind and Visually

Conference Session

K-12 & Pre-College Engineering Division: Evaluation: Exploring the Impact of Summer Programs on K-12 Youth (Part 1)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Afrin Naz, West Virginia University Institute of Technology; Kenan Hatipoglu, West Virginia University Institute of Technology; Mingyu Lu, West Virginia University Institute of Technology

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Diversity

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Pre-College Engineering Education Division

American Society for Engineering Education, 2016 A Summer STEM Camp for High School Female StudentsIntroduction In the summer of 2015, a Summer STEM Camp was organized at West Virginia UniversityInstitute of Technology (WVU Tech) with the objective of inspiring female high school students’interest in STEM disciplines and encouraging them to choose STEM (science, technology,engineering, and mathematics) as their college major. Twenty-four (24) female high schoolstudents participated in the Summer STEM Camp. During the five-day camp, they learned aboutfundamental knowledge of science and engineering, were exposed to cutting-edge technologies,and conducted multiple mini-projects. They had extensive interactions with female

Conference Session

K-12 & Pre-College Engineering Division: Robotics in Pre-K-12 Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Olivia Mambo Nche, Clemson University; Barbara Jeanne Ramirez, Clemson University; Sekou Remy, Clemson University

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Pre-College Engineering Education Division

create tangible evidence of the student’s effort. Byusing computing and mathematics to create art, we see an opportunity to engage a largeraudience and also to incorporate a discussion of other aspects of STEM education. Figure 1. Scribbler 2 robot  In this experience report we present the activity, describe the resources used, and sharesome of the insights acquired during implementation.In 2015, this project was realized under the title “R2D2 meets Rembrandt,” and utilizedthe Parallax's Scribbler S2 robot shown in Figure 1 and its associated Graphical UserInterface (GUI) shown in Figure 2. This robot has the ability to draw various shapes,letters, numbers and pictures as it moves, facilitated by the pen port that can hold aSharpie or any

Conference Session

K-12 & Pre-College Engineering Division: Engineering Alignment with Core Curriculum (Physics)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Meera N.K. Singh PEng, University of Calgary; Qiao Sun, University of Calgary; Cassy M. Weber, Science Alberta Foundation (o/a MindFuel)

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Engineering Physics & Physics, Pre-College Engineering Education Division

integrated through teacher views that produce dynamic project-basedlesson plans. The system encourages an interdisciplinary approach that requires studentsto draw on multiple subject areas simultaneously to solve real world problems.This paper presents the results of the initial evaluation of the DLMS. After providing thedetails regarding its infrastructure, a critical evaluation of the platform and how itsupports both teachers and students in a balanced approach to learning is presented. Thisevaluation draws upon the Felder-Silverman Learning Style Model (FSLM) in thatelements of the DLSM are evaluated within the context of the models four dimensions.The initial results of a pilot project aimed at evaluating its effectiveness in schools

Conference Session

K-12 & Pre-College Engineering Division: Fundamental & Research-to-Practice: K-12 Engineering Resources: Best Practices in Curriculum Design (Part 2)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Cameron Denson, North Carolina State University; Matthew D. Lammi, North Carolina State University

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Pre-College Engineering Education Division

) “social learning theories contribute to adultlearning by highlighting the importance of social context and explicating the process ofmodeling and mentoring” (p. 139). This theory states that people learn from one anotherand it includes the concepts of observational learning, imitation, and modeling. Purpose This project piloted an innovative mentoring approach by creating a virtualflipped classroom experience where students received instruction via prerecordedtutorials describing tasks for the week in addition to their mentoring experience. Over aneight week-period, graduate students from a research one university in Southeast U.S.mentored underrepresented student groups from rural counties in the

Conference Session

K-12 & Pre-College Engineering Division: Student Reflection, Self-Perception, Misconceptions, and Uncertainty

Collection

2016 ASEE Annual Conference & Exposition

Authors

Avneet Hira, Purdue University, West Lafayette; Morgan M. Hynes, Purdue University, West Lafayette

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Pre-College Engineering Education Division

proceed throughdeveloping design thinking skills. According to Ibarra, individuals experiment with"provisional selves" to accept and internalize them. The three basic tasks in this adaptationprocess, are ": 1) observing role models to identify potential identities, 2) experimenting withprovisional selves, and 3) evaluating these experiments against internal standards andexternal feedback" (p. 1). In this study, middle school students were initiated into ideaspertaining to design thinking via formalized instruction at a summer camp. The learners thenengaged with design activities as they experimented with their provisional selves, and thenthey were asked to reflect upon their project. These reflective narratives that form the thirdtask of Ibarra’s

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Michelle Jordan, Arizona State University; Mia Delarosa

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Pre-College Engineering Education Division

Paper ID #20148Investigating Peer Observers’ Perspectives on Middle School Engineering De-signers’ Communication Challenges (Work in Progress)Dr. Michelle Jordan , Arizona State University Michelle Jordan is as associate professor in the Mary Lou Fulton Teachers College at Arizona State Uni- versity. She also serves as the Education Director for the QESST Engineering Research Center. Michelle’s program of research focuses on social interactions in collaborative learning contexts. She is particularly interested in how students navigate communication challenges as they negotiate complex engineering design projects. Her

Conference Session

K-12 & Pre-College Engineering Division: Robotics in Pre-K-12 Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Saeedeh Ziaeefard, Michigan Technological University; Nina Mahmoudian, Michigan Technological University; Michele Miller, Michigan Technological University; Mo Rastgaar, Michigan Technological University

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Pre-College Engineering Education Division

Mechanics Department at Michigan Technological University. She is the founding director of the Nonlinear and Autonomous Systems Laboratory (NASLab). She is a recipient of 2015 National Science Foundation CAREER award and 2015 Office of Naval Research YIP award.Dr. Michele Miller, Michigan Technological University Dr. Michele Miller is a Professor of Mechanical Engineering at Michigan Technological University. She teaches classes on manufacturing and does research in engineering education with particular interest in hands-on ability, lifelong learning, and project-based learning.Dr. Mo Rastgaar, Michigan Technological University Mo Rastgaar received the Ph.D. degree in mechanical engineering from Virginia Polytechnic

Conference Session

Pre-College: Robotics

Collection

2017 ASEE Annual Conference & Exposition

Authors

S. M. Mizanoor Rahman, New York University; Veena Jayasree Krishnan, New York University, Tandon School of Engineering; Vikram Kapila, New York University, Tandon School of Engineering

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Pre-College Engineering Education Division

, India. She is currently pursuing Ph.D. in Mechanical Engineering at NYU Tandon School of Engineering. She is serving as a research assistant under an NSF-funded DR K-12 re- search project to promote integration of robotics in middle school science and math education. For her doctoral research, she conducts mechatronics and robotics research in the Mechatronics, Controls, and Robotics Laboratory at NYU.Dr. Vikram Kapila, New York University, Tandon School of Engineering Vikram Kapila is a Professor of Mechanical Engineering at NYU Tandon School of Engineering (NYU Tandon), where he directs a Mechatronics, Controls, and Robotics Laboratory, a Research Experience for Teachers Site in Mechatronics and Entrepreneurship, a

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jacqueline F. Handley, University of Michigan; Elizabeth Birr Moje, University of Michigan; Jerome Peter Lynch, University of Michigan; Katherine A. Flanigan, University of Michigan

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Diversity

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Pre-College Engineering Education Division

navigating the NGSS engineering designfacets. In the parallel literature on science practices, research on student understanding andlearning of practices like argumentation and modeling have provided foundations for curricularsupports and professional development (Osborne, Erduran, & Simon, 2004; Passmore, Gouvea,& Giere, 2014). Understanding how students conceptualize facets of engineering design couldhelp inform the design of better supports for teachers and students. This analysis focusesspecifically on the question of how students conceptualize problem definition in engineeringdesign.Methods Overview This work is part of a larger, on-going project entitled Sensors in a Shoebox, which aimsto connect young members of an urban

Conference Session

Pre-College: Perceptions and Attitudes on the Pathway to Engineering (4)

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jason Richard Power, Michigan Technical University; Sheryl A. Sorby, Ohio State University; Norma L. Veurink, Michigan Technological University; Kinnari Atit, Northwestern University ; Martha Carr, University of Georgia

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Diversity

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Pre-College Engineering Education Division

isdesigned to explore this potential, the current round first seeks to establishwhether desirable outcomes related to mathematical ability, previously observedin university level students, are evident in a younger cohort. Previous research hasexamined the suitability of the spatial intervention for use with younger students[1]. In order to examine these outcomes, participants will complete pre and post-testing in order to establish improvements in spatial skills attributed to theintervention. In addition, participants also complete pre and post-tests examiningvarious mathematical domains.Research DesignThe research project will take place over a four year period with data gatheredfrom 7th-9th grade students. Currently the first year of data