Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Beau Vezino, University of Arizona

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

the uncertainty of divergent problems byconstructing multiple problem spaces and then engaging in reflective practice or reflectiveconversation as they interpret and evaluate alternatives. These metacognitive strategies enableengineers to deal with uncertainty by continuously engaging in acts of self-evaluation, self-monitoring and reflection as they work through the engineering design process.10, 13 The use of acollaborative environment has been found to help engineers reduce and manage uncertainty.10, 14Shin and his colleagues14 explain that working in teams allows engineers to reduce ambiguity bydistributing the knowledge and skills and collectively making decisions. The ability to logicallyand persuasively argue for or against a decision

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

David Crismond, City College of the City University of New York; Michal Lomask

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

),  influenced  our  efforts  to  develop  the  teaching  standards  used  for  this  project.  In  addition,  a  framework  that  articulates  what  informed  design  thinking  entails  –  students  using  design  strategies  effectively;  making  knowledge-­‐driven  decisions;  conducting  sustained  technological  investigations;  working  creatively;  and  reflecting  upon  their  actions  and  thinking  –  was  another  foundation  upon  which  this  work  was  built  (Crismond  &  Adams,  2012).  The  final  set  of  the  design  teaching  standards  (see  Table  1  for  details)  created  for  this  project  is  organized  around  three  dimensions:      Dimension  I  –  STEM  Concepts  –  Teachers’  understanding  of  science,  technology

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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Diversity

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Engineering Physics & Physics, Pre-College Engineering Education Division

learners receive and process information. The FSLM incorporates someelements of the Myers-Briggs model and the Kolb’s model. The main reasoning for its selection inthe DLMS evaluation is that it focuses on aspects of learning that are significant in engineeringeducation.The FSLM consists of four dimensions, each with two contrasting learning styles: Processing(Active/Reflective); Perception (Sensing/Intuitive); Input (Visual/Verbal); and Understanding(Sequential/Global). The details of the dimensions can be found in Ref.6. In order to determine anindividual’s specific learning style, Felder and Soloman13developed the Index of Learning Style(ILS) survey. Each of the 44 questions within the survey is designed to place the learner’spreference within

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Lana Plumanns M.Sc., RWTH Aachen University; Sebastian Reuter P.E., RWTH Aachen University; Kristina Lena Lahl, RWTH Aachen University; Rene Vossen, RWTH Aachen University; Sabina Jeschke, RWTH Aachen University

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Diversity

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Pre-College Engineering Education Division

insectoid robots, etc.). This relaxed introduction to robotics reduces anyreservations that the students might have about the field of robotics. After a welcome phase, ashort lecture is given introducing some of the main themes of robotics and the core researchareas studied by the scientists and robotic engineers at DLR and RWTH Aachen University.A small group size of four to six persons allows for active participation in the six practicalexperiments, of which each group carries out four, and the necessary concentration forhandling the high-tech equipment. Each experiment is followed by a short break, allowing thestudents reflection time to discuss the experiments with their peers. Each experiment startswith a clarification of the educational

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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Diversity

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Pre-College Engineering Education Division

learners construct newunderstanding by building on what they already know [8]. We see approaches that connect toculture as a critical extension of such teaching; culturally relevant pedagogy connects tostudents’ cultural experiences and understanding [9-13]. In such approaches, students’ “funds ofknowledge” are leveraged, using the resources students bring from their experiences in home andother culturally-specific out-of-school settings [14]. Such approaches reflect a range of student-centered teaching, including using students’ strengths to introduce new instruction, supportingcollaborative learning spaces, adapting curriculum, engaging in social justice and communityengaged learning, etc. [15]. These approaches align to engineering education

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Michael A. de Miranda, Colorado State University; Karen E. Rambo-Hernandez, West Virginia University; Paul R. Hernandez, West Virginia University

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

triggered a decrease in confidence inSTEM learning among entering college students. This can be illustrated by the fact thatenrollment in U.S. institutions of higher education has grown steadily at all levels rising from14.5 million students in 1994 to 20.7 million in 2009, but such a growth is not fully reflected inscience and engineering. Institutions of higher education in the United States granted engineeringdegrees in the mid-2000s at a lower rate than in the mid-1980s. The number of Americanstudents earning bachelor’s degrees increased by 16% over the past 10 years, however, thenumber of bachelor’s degrees earned in engineering decreased by 15%. Nationally, less than50% of the students who enrolled in engineering curriculum complete the

Conference Session

K-12 & Pre-College Engineering Division Evaluation: Exploring the Impact of Summer Programs on K-12 Youth (Part 2)

Collection

2016 ASEE Annual Conference & Exposition

Authors

Mike Thomas Pitcher, University of Texas - El Paso; Pedro Arturo Espinoza, University of Texas - El Paso; Hugo Gomez, University of Texas - El Paso; Randy Hazael Anaya, University of Texas - El Paso; Hector Erick Lugo Nevarez, University of Texas - El Paso; Herminia Hemmitt, University of Texas - El Paso; Oscar Antonio Perez, University of Texas - El Paso

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Diversity

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Pre-College Engineering Education Division

and how project-based learning (PBL)takes the center stage in this strategy. We assert that building a camp or even a lesson plan fromlearning blocks creates a totally immersive and engaging environment for the learner and makes itmuch more plug-and-play for the designer/instructor.Our paper will also focus on implementing these learning blocks in a K-12 mixed environment (allgrade levels, male and female participants) versus a much more homogenous cohort (all highschool, all female) type of camp. A showcase of student products (from reflective pieces to actualcreations) will be discussed along with how “check-ins” are built into the learning blockchallenges; the latter as a means to embed assessment into the project workflows dynamically

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Marilyn Barger, Florida Advanced Technological Education Center of Excellence; Richard Gilbert, University of South Florida

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Diversity

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Pre-College Engineering Education Division

. Utilizing a three-year Magnet School grant,DLJ established a Center for Mathematics and Engineering to developed and thenimplement its integrated, whole school curriculum with engineering as the core and theconnector. The results of this careful planning and meticulous attention to detailsproduced an elementary school environment that fosters student creative thinking withthe expectation of quantitative metrics to gauge that creativity. The merit of this totalemersion of engineering into an elementary curriculum is reflected in student scores onstandardized test as well as a plethora of awards and acknowledgements for the schoolincluding being named the top elementary STEM program in the nation by the 2015Future of Education Technology Conference

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

Anthony Steven Brill, New York University; Colin Hennessy Elliott, New York University; Jennifer B. Listman, New York University ; Catherine E Milne, New York University; Vikram Kapila, New York University

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

effective classroom activity with a visual representation of the solution process.As a final assessment of teachers’ TPACK, on the final day of PD, they answered a set ofquestions designed to identify the role of the robot in each of the 10 lessons. The teachersidentified the pedagogical constraints and the benefits of incorporating the robot as a teachingtool for each lesson. This paper provides a description of three of these lessons, and anassessment of teacher reflections toward these lessons.2. Professional Development StructureThe goal of the professional development was to collaboratively and iteratively construct tenlessons that infused the LEGO EV3 robotics kit into existing middle school math and sciencecurricula; allowing

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

Michael T. Frye, University of the Incarnate Word; Sreerenjini C. Nair, University of the Incarnate Word; Angela Meyer, Rawlinson MS

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

the student received prizes. The UIW SMSE paid for the LunchBanquet.Program Evaluation, Effectiveness, and ResultsA pre-survey was administered while the students were applying for the camp, shown in Table 3below. Daily and final program surveys were conducted to assess the effectiveness ofminiGEMS 2015. The daily surveys indicated the program execution efficiency and allowedimmediate corrective actions, if necessary. The participant interest in engineering as a potentialcareer increased considerably, partially due to popular, hands-on, robot projects and the dailyguest speakers as were reflected in the post-survey results shown in Table 4. The finalsummative survey quantified program effectiveness and is shown in Table 5. The

Conference Session

K-12 & Pre-College Engineering Division: Home, Parents, and Other Out-of-School Issues Related to K-12 and Pre-College Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tamecia R. Jones, Purdue University, West Lafayette; Jean M. Trusedell, EPICS; William C. Oakes, Purdue University, West Lafayette; Monica E. Cardella, Purdue University, West Lafayette

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

Technology Education and the recipient of the National Society of Professional Engineers’ Educational Excellence Award and the ASEE Chester Carlson Award. He is a fellow of the American Society for Engineering Education and the National Society of Professional Engineers.Dr. Monica E Cardella, Purdue University, West Lafayette Monica E. Cardella is the Director of the INSPIRE Institute for Pre-College Engineering Education and is an Associate Professor of Engineering Education at Purdue University. c American Society for Engineering Education, 2016 High School Students’ Reflections about Participation in Engineering Service Learning Projects (Work-in-Progress)IntroductionThere

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

the feedback forms and pre-and post-tests of the children and respond to prompts on a reflection sheet.In an effort to make the activity modules freely available to other engineering students, K-12teachers and parents, a website was developed. The activity kit instructions, resources, materiallists and other related resources are posted on this website so that they can be widely accessed bypeople nationwide who would like to engage in meaningful and effective outreach to middleschool students. Additional resources including fun engineering websites for kids, informationabout engineering for parents and teachers and links to websites with additional engineeringactivities are also included on the website. The website is housed on the University

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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Diversity

Tagged Divisions

Pre-College Engineering Education Division

outcomes in teaching and learningAs shown in this assessment the workshop successfully introduced learning styles to engineering studentsand improved their readiness for effective presentations.Each workshop was evaluated individually and required changes were applied. For example, after“learning style” workshop, we identified that these types of workshops can be more effective if offered asa two part training session and students work on a related assignment between two sessions and reflect ontheir learnings in group meetings. 2. Assess content validity of workshop plansOnce ambassadors select a topic and study the related background, they design a related hands-onactivity. Then they meet with a faculty mentor to evaluate the designed

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

Mohamad Musavi, University of Maine; Cary Edward James, University of Maine; Paige Elizabeth Brown, Bangor High School

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

: Viewers like you. New England Board of Higher Education, 22(1), 26-28.8 Blickenstaff, J. C. (2005). Women and science careers: Leaky pipeline or gender filter? Gender and Education, 17(4), 369-386.9 Kohlstedt, S. G. (2004). Sustaining gains: Reflections on women in science and technology in 20th century United States. NWSA Journal, 16(1), 1-26.10 Blickenstaff, J. C. (2005). Women and science careers: Leaky pipeline or gender filter? Gender and Education, 17(4), 369-386.11 th Kohlstedt, S. G. (2004). Sustaining gains: Reflections on women in science and technology in 20 -century United States. NWSA Journal, 16(1), 1

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

Chelsea Joy Andrews, Tufts Center for Engineering Education and Outreach

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

groups are not synced, so times do not line up with each otherperfectly (up to 5-minute offsets are likely). The bottom group, Julian and Alex, only have sixcoded turns; this group was difficult to hear on the camera because they spoke very softly,answered many facilitator questions with “I don’t know,” and spent much of the task time offtask building “launchers.” Even so, they had the most successful designs of any group (threeunique designs, one was tested twice).Note that ideas, factors, and designs are related but distinct. While ideas are often reflected indesigns, designs include a multitude of ideas of varying scale, many of which are not explicitlyexpressed. Ideas may or may not be expressed as factors about a design or the test related

Conference Session

K-12 & Pre-College Engineering Division: Fundemental and Evaluation: Embedded Programs in Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Corey A. Mathis, Purdue University, West Lafayette; Emilie A. Siverling, Purdue University, West Lafayette; Aran W. Glancy, University of Minnesota, Twin Cities; Siddika Selcen Guzey, Purdue University, West Lafayette; Tamara J. Moore, Purdue University, West Lafayette

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Diversity

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Pre-College Engineering Education Division

included a claim inan engineering context, which was a suggestion or decision related to the engineering design,plus at least one other element of an argument (data, warrants, backing, modal qualifiers, orrebuttals) was coded as EBR for this paper.Coding for EBR occurred within two types of data: student conversations and worksheets.Conversational instances of EBR were identified in terms of episodes since they reflect the back-and-forth dynamics of conversation. As such, some episodes contain multiple interweavinginstances of reasoning from evidence, but because of this interrelated nature, each episode wascoded as one instance of EBR. When coding worksheets for EBR, each individual instance ofEBR was coded separately since worksheets are a form

Conference Session

K-12 & Pre-College Engineering Division: Sustainability and Interdisciplinary Practices in K-12 Engineering Education Curriculum

Collection

2016 ASEE Annual Conference & Exposition

Authors

Skot Wiedmann, University of Illinois, Urbana-Champaign

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

with theircurriculum10.Pedagogical GoalsThe touch synthesizer workshop began as a means to fill a gap in the existing UniversityElectrical and Computer Education and to enrich student experiences beyond the classroom byteaching surface mount soldering techniques. By introducing electronic assembly, analysis, andrework, in the context of making sound and music, we aimed to inspire students to connect theirinterests, hobbies, and passions with their chosen field of study, even if they are traditionallyisolated practices11. We hoped to draw a diverse audience that reflected the varying perspectiveson these practices, and encouraged high school outreach and pre-college involvement. Wewanted participants to gain exposure to manufacturing processes

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Brenda Capobianco, Purdue University, West Lafayette; James D. Lehman, Purdue University; Qiming Huang, Purdue University; Chell Nyquist, Purdue University

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

- Pre-/post- with students’ science learning? based Classroom Knowledge Tests Observational RubricTeacher participant dataInterviews. Semi-structured interviews (n=20 total) were conducted at the beginning and end ofthe school year to identify and characterize teachers’ perceptions of engineering design,expectations and reflections of task implementation, and challenges they experienced throughoutthe year. Analysis and interpretation of teacher interviews involved the use of grounded theory.18During this process, members of the research team focused on identifying indicators of conceptsand categories that fit the data. Repeatedly

Conference Session

K-12 & Pre-College Engineering Division: Research-to-Practice: Principles of K-12 Engineering Education and Practice

Collection

2016 ASEE Annual Conference & Exposition

Authors

Julie Steimle, University of Cincinnati; Anant R. Kukreti, University of Cincinnati; Catherine Maltbie, University of Cincinnati

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

, completed two of her four professional development requirementsby presenting at High Schools That Work and in a department meeting at her school, Felicity-Franklin. However, she also chose to provide one-on-one mentoring to a fellow teacher from herschool by meeting with her and explaining the pedagogies associated with the program. Thatsame teacher, BF, decided to apply to the program, was accepted, and now serves as an advocateof program pedagogies throughout Felicity-Franklin.BF made a tremendous impact on one particular science teacher in her rural school throughprofessional development. She mentored “Holly” through the process of creating andimplementing two engineering design challenge units and reflected upon the experience: My first

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Gina Navoa Svarovsky, University of Notre Dame; Marjorie B. Bequette, Science Museum of Minnesota; Lauren Causey

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

Movement isdefined by the Maker Media brand may be excluding the culturally-embedded making practicesfound in communities of color. Early analysis of focus group and interview data with membersof communities of color reflect this lack of alignment between their perceptions of making intheir every day lives and what is commonly portrayed as Making within the Maker community.Using Gee’s theory on Discourses, it is possible that the branding of Making by MAKEMagazine results in a limited definition of making focused heavily on electronics andmechanics. We argue that a return to a more inclusive view of making – one characterized bycreative, innovative, and generative processes found within all cultures, and values andhighlights examples of innovation

Conference Session

K-12 & Pre-College Engineering Division: Diversity Issues in K-12 and Pre-College Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Brynn Kasper, University of St. Thomas; Alison Haugh Nowariak, University of St. Thomas; Noah Kasper, University of St. Thomas; Brett D. Gunderson, University of St. Thomas; AnnMarie Polsenberg Thomas, University of St. Thomas; Deborah Besser P.E., University of St. Thomas

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

into the Metro Deaf School science club made use of SquishyCircuits ©, MaKey MaKey ©, and incorporated other electronic design challenges such as an e-textiles workshop. The team was able to reflect on the initial Creative Circuitry program and itsreception with the middle school students in order to build more engaging programs in the future.A fall 2014 program was also run and involved a concentration on individual engineeringdisciplines with each week focusing on a different discipline. This curriculum was built tointroduce and expose the deaf students to six different disciplines in enjoyable ways. During thedevelopment of this after-school program, several goals were built into each module of theengineering curriculum. The main goal was

Conference Session

K-12 & Pre-College Engineering Division: Fundemental and Evaluation: Embedded Programs in Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Ibrahim Halil Yeter, Texas Tech University; Hansel Burley, Texas Tech University; Terrance Denard Youngblood, Texas Tech University; Casey Michael Williams, Texas Tech University

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

materials in a timely manner, fabricating parts, strengtheningteamwork and communication skills, managing funding/schedules and developing rocketscapable of stable flight. Once a school achieves success at the Tsiolkovsky step, it moves to theOberth step. At this step, the curriculum focuses on incorporating all the knowledge andexperience from the first year, while students work toward achieving a greater understanding ofmass fractions and aerodynamic loads. Students also develop skills needed to design andconstruct the rocket vehicle. The curriculum at the Goddard step focuses on understanding whatis needed to develop high altitude flight time as well as reflecting on the entire process and thelearning it took to get there. SystemsGo charges

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Fethiye Ozis, Northern Arizona University; Anna Danielle Newley, Sonoran Science Academy - Phoenix; Erdogan Kaya, University of Nevada - Las Vegas

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

compared to their peers,who were members of other clubs instead8. Schools can run successful programs if district anduniversity partnerships are established to train teachers on the best approach and receive mentorsupport from people whom share familiar backgrounds8. Unfortunately, this was not the case forour group, we lacked available mentors that reflect the culture of our student body in addition tothe lack of established partnerships with our charter school and nearby universities due to highturnover rate of coaches. To the best of our knowledge, this is the first time that data has beencollected on a FTC team comprised of 83% girls, 80% of students on refugee status, and 100%of students on national free and reduced lunch program.The need to

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Amy Trauth, University of Delaware; Jenni Buckley, University of Delaware; Manuela Restrepo Parra, The Perry Initiative

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

variables such as gender, race, ethnicity, family’seducational background, and socioeconomic status. English et al. (2013) reported findings from a STEM-based lesson in whichstudents explored engineering concepts and principles pertaining to simple machines.The students clearly indicated how the machines were simulated by the materials. Thestudents were also able to reflect on different aspects of their design, especially onmaterial properties and how they affected stability. Allowing students to suggest ways toimprove their designs provided opportunities for further reflection in subsequent designprocesses. In general, students did not make explicit references to underlyingengineering and science principles, but they were able to link

Conference Session

K-12 & Pre-College Engineering Division: Addressing the NGSS: Supporting K12 Teachers in Engineering Pedagogy, Engineering Science, Careers, and Technical Pathways

Collection

2016 ASEE Annual Conference & Exposition

Authors

Julie Cafarella, University of Colorado - Boulder; Kevin O'Connor, University of Colorado - Boulder; Jacob (Jenna) McWilliams, University of Colorado - Boulder

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

applicable to asignificant population of students and educators. Further, this case study is relevant toengineering education in that it centers around a classroom that is engaged in “application ofscientific knowledge to an engineering problem,” and NGSS frames this case study as anexample of its “vision of blending disciplinary core ideas, scientific and engineering practices,and crosscutting concepts.” Throughout this paper the authors examine and reflect on the purposes of science andengineering education as well as the ways in which large-scale science reforms (such as NGSS)attempt to address issues of access and equity that continue to persist in science and engineeringeducation. In future, the authors hope to analyze other NGSS case

Conference Session

K-12 & Pre-College Engineering Division: Addressing the NGSS: Supporting K12 Teachers in Engineering Pedagogy, Engineering Science, Careers, and Technical Pathways

Collection

2016 ASEE Annual Conference & Exposition

Authors

So Yoon Yoon, Texas A&M University; Johannes Strobel, University of Missouri

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Diversity

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Pre-College Engineering Education Division

, there were exceptions in severalcourses and gender and racial/ethnic differences in the trends. Based on the findings, weidentified several interesting characteristics in the trends of student course-taking in CTE-STEMcourses and addressed each characteristics one by one with discussion.A. Overall, Student Enrollment Rates Increase across Time in CTE-STEM CoursesAs shown in Figures 2 through 5, overall over a six-year time frame, Texas high school studentenrollment rates were increasing in CTE-STEM courses when the effects of natural increase ofpopulation were controlled in enrollment rates. Even though the proportion of students taking theCTE-STEM courses is relatively small, the trends are promising as it reflects a continuousincrease of

Conference Session

Women in Engineering Division Technical Session - Pre-college Programs for Women

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jenni Buckley, University of Delaware; Amy Trauth, University of Delaware; Laura Meszaros Dearolf, The Perry Initiative ; Amy C Bucha, The Perry Initiative; Lisa L Lattanza MD, University of California San Francisco

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Diversity

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Pre-College Engineering Education Division, Women in Engineering

to 5-pt Likert Scale. Whiskers represent ±1 standard deviation.Table 1: College majors for program alumnae and controls for both high school (intended major)and college (actual major). Students were permitted multiple responses to reflect dual majors andinterdisciplinary areas of study. Choice of college major was compared between alumnae andcontrols using chi-square test for independence (df=1, N=627 for high school, N=324 forcollege). High School CollegeCollge Major Program Control p value Program Control p valuePhysics, Chemistry, Math 29.4% 30.8% 0.68 7.3% 8.3% 0.86Biology or Biosciences 80.8

Conference Session

K-12 & Pre-College Engineering Division: Student-Centered Activities and Maker Spaces in Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

James Holly Jr., Purdue University, West Lafayette; Cole H. Joslyn, Purdue University, West Lafayette; Avneet Hira, Purdue University, West Lafayette; Morgan M. Hynes, Purdue University, West Lafayette; Chanel Beebe, Purdue University, West Lafayette

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Diversity

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Pre-College Engineering Education Division

engineering and investigating how engineering habits of mind can enhance pre-college students’ learning abilities.Cole H. Joslyn, Purdue University, West Lafayette Cole Joslyn is a PhD student in the School of Engineering Education at Purdue University. His research interests include holistic approaches to humanizing engineering education (such as ethics of care, human- istic education, contemplative and reflective practices, and spirituality) and how they can shape engineer- ing as a socially just profession in service to humanity. He holds a B.S. in Industrial Engineering and a M.Ed. specializing in mathematics education and has worked as an engineer, a pastor, and a high school math teacher.Miss Avneet Hira, Purdue

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Eric Iversen, Start Engineering

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Diversity

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Pre-College Engineering Education Division

participate in anoutreach survey than those not. We could well have a disproportionate data set. But outreach certainly“feels” like a nearly pervasive activity among universities, and this magnitude of extrapolation is likelyto be generally valid.Three programs reported about 65,000 of the 147,000-plus student total, each with about 20,000participants. The median figure for student programs was 200. The spiky-ness of participation numberspoints up something fundamental about the nature of the field. Outreach is a highly varied undertaking.Different schools have different goals, capabilities, and opportunities. Programs come in all shapes andalso all sizes.The community member total does reflect one unusually large program total that might bear

Conference Session

K-12 & Pre-College Engineering Division: Use of Technology and Tools for K-12 Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Henry M. Clever, New York University; Allison Graham Brown, New York University ; Vikram Kapila, New York University

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Diversity

Tagged Divisions

Pre-College Engineering Education Division

by incorporating real work: real-worldrelevant assignments, ill-defined problems, sustained investigation, collaboration, and reflection.The AR Drone lab targeted all of these real work elements with its inherent real-worldimportance in technology, ill-defined experimental process, sustained investigation of errorsources, and continuous collaboration and reflection between teams. Simultaneously, it promotedthe three categories within quantitative research through this real work scenario: actualexperimental design and setup, theoretical calculations of ground speed from distance and time,and descriptive analysis of a real-world scenario.Within the “real work” learning process, it is essential to account for how the Net Generationlearns.21 The