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

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

addressingthe following research questions: 1) How does the combination of programming and electronics exercises and design activities affect student engagement when learning programming concepts? 2) How does learning about the relationship between programming and electronics influence students’ understanding of commonly encountered technologies like smartphones and computers?MethodThe outreach activities described in this paper took place in the Spring of 2015 at South MiddleSchool, an economically and racially diverse school serving the residents of Boise, Idaho. Theactivities were carried out in two 8th grade and one 9th grade technology classes. We worked withthe school’s Technology and Engineering teacher to integrate the

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

Jonathan D. Hertel, Museum of Science; Christine M. Cunningham, Museum of Science; Gregory John Kelly, Pennsylvania State University; Cathy P. Lachapelle, Museum of Science

Tagged Divisions

Pre-College Engineering Education Division

CADRE Fellow as part of the NSF Community for Advancing Discovery Research in Education (CADRE) project.Dr. Christine M. Cunningham, Museum of Science Dr. Christine Cunningham is an educational researcher who works to make engineering and science more relevant, accessible, and understandable, especially for underserved and underrepresented populations. A vice president at the Museum of Science, Boston since 2003, she founded and directs Engineering is ElementaryTM , a groundbreaking project that integrates engineering concepts into elementary curriculum and teacher professional development. As of September 2014, EiE has served 6.2 million children na- tionwide and 71,000 educators. Cunningham has previously served as

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

Alison Haugh Nowariak, University of St. Thomas; Olivia Lang, University of St. Thomas ; AnnMarie Polsenberg Thomas, University of St. Thomas; Debra Monson, University of St. Thomas; Deborah Besser P.E., University of St. Thomas

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #15045Assessing The Effectiveness of an Engineering Summer Day CampMs. Alison Haugh, University of St. Thomas Alison Haugh is in the third year of her studies at the University of St. Thomas, Majoring in Elementary Education and STEM Education,while Minoring in Engineering Education. Her undergraduate Playful Learning Lab research is focused on expanding quality engineering education with an eye to under-served populations, including students with disabilities. Alison is the Lead STEPS (Science, Technology and En- gineering Preview program) curriculum constructor, lead trainer and lead on-site researcher

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Anna Danielle Newley, Sonoran Schools; Erdogan Kaya, University of Nevada; Ezgi Yesilyurt, University of Nevada; Hasan Deniz, University of Nevada

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

to integrate science, language arts, and engineering education within the context of Next Generation Science Standards. c American Society for Engineering Education, 2017 Measuring Engineering Perceptions of Fifth Grade Minority Students with the Draw-an-Engineer-Test (DAET) (Work In Progress)IntroductionResearch continues to combat the national decline in STEM fields through motivationalstrategies that can be applied in teaching students 1,2,3,4. Next Generation Science Standards(NGSS) underscore the importance of making engineering education available to all students,especially minorities in STEM 5. NGSS creates a holistic approach to understanding engineeringby blending scientific and

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

John E. Post P.E., Embry-Riddle Aeronautical University - Prescott

Tagged Divisions

Pre-College Engineering Education Division

2 others.In addition to the survey conducted by the Office for Summer Programs, the instructor alsosurveyed the camp attendees at the conclusion of the camp. This survey focused on studentsatisfaction with the curriculum, the SIK and the experiments, team presentations of the designprojects, and how much the camp increased their interest in studying computer, electrical, orsoftware engineering. Table 6 reports the number of responses in agreement with each categoryfrom the 15 students taking the survey (one student departed early before the survey wasadministered).The results of the student evaluations in Table 6 confirm the success of the camp as an outreachactivity design to stimulate student interest in STEM topics. In responding to the

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Linda S. Hirsch, New Jersey Institute of Technology; Howard S. Kimmel, New Jersey Institute of Technology; Marie Anne Aloia, Bayonne High School; Laurent Simon, New Jersey Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

, students at each school collected air samples, andmeasured and analyzed trace concentration levels of specified pollutants. Each class shared theirresults with the other participating schools, and comparisons were made among locations. Thiscollaborative project between New Jersey Institute of Technology (NJIT) and high schools inNew Jersey not only provided a research experience for the students, the teachers also gainednew knowledge and skills that enabled them to translate the research process into theirclassroom practice.A collaborative project of this type was replicated on an international scale through thepartnership of NJIT and the Curriculum Research & Development Group at the University ofHawaii-Honolulu12. Teachers and students in 15

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Sharon Wensel Bowers, Virginia Tech; Jeremy V. Ernst, Virginia Tech; Aaron C. Clark, North Carolina State University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

collaborative, inquiry-based instruction.Dr. Jeremy V. Ernst, Virginia Tech Jeremy V. Ernst is an Associate Professor of Integrative STEM Education at Virginia Tech and he is also the Associate Director for the School of Education/Office of Educational Research and Outreach. He is also a Fellow of the Institute for Creativity Arts and Technology at Virginia Tech. Jeremy specializes in research focused on dynamic intervention means for STEM education students categorized as at-risk of dropping out of school. He also has curriculum research and development experiences in technology, engineering, and design education.Dr. Aaron C. Clark, North Carolina State University Aaron C. Clark is a Professor of Technology, Design, and

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Krystal S. Corbett, Cyber Innovation Center; Joshua M. Coriell, Cyber Innovation Center; Sara Hahler, Louisiana Tech University

Tagged Divisions

Pre-College Engineering Education Division

at Louisiana Tech. During her time as an undergraduate, she served as a tutor for the mathematics department at Louisiana College. In 2015 she earned her Masters of Math- ematics and Statistics from Louisiana Tech. Currently, she is performing research in the area of mathe- matics education exploring the connection between high school ACT mathematics scores and freshmen mathematic/engineering class grades. c American Society for Engineering Education, 2016 Logic Gates www.NICERC.orgBuilding Circuits with Logic Gates to DemonstrateMathematical Logic (P12 Resource Exchange)The National Integrated Cyber

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Vicki V. May, Dartmouth College

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #15164Building Tensegrity Structures to Explore Interactions Between Tension andCompression (P12 Resource Exchange)Prof. Vicki V. May, Dartmouth College Vicki V. May, Ph.D., P.E. is an Associate Professor of Engineering at Dartmouth College. Her research focuses on engineering education and K-12 outreach. She teaches courses in solid mechanics, structural analysis, and integrated design at Dartmouth. Prior to relocating to the east coast, Professor May was an Associate Professor of Architectural Engineering at the California Polytechnic State University in San Luis Obispo. c American

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jeffrey H. Rosen, Georgia Institute of Technology; Roxanne Moore, Georgia Institute of Technology; Marion Usselman, Georgia Institute of Technology

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #16259Middle Grades STEM Innovation and Design Courses: From Data to Design(P12 Resource Exchange)Mr. Jeffrey H. Rosen, Georgia Institute of Technology After 14 years in the middle and high school math and engineering classroom where Mr. Rosen was working on the integration of engineering and robotics into the teaching of the core curricula classrooms. He has now been at Georgia Tech’s CEISMC for the past 8 years working on curriculum development and research on authentic STEM instruction and directing the state’s FIRST LEGO League competi- tion program. Mr. Rosen has authored or co-authored papers and book

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jacquelyn Kay Nagel, James Madison University; Steve E. Watkins, Missouri University of Science & Technology

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #14966P12 Resource Exchange – Electronics of Everyday ThingsDr. Jacquelyn Kay Nagel, James Madison University Dr. Jacquelyn K. Nagel is an Assistant Professor in the Department of Engineering at James Madison Uni- versity. She has eight years of diversified engineering design experience, both in academia and industry, and has experienced engineering design in a range of contexts, including product design, bio-inspired de- sign, electrical and control system design, manufacturing system design, and design for the factory floor. Dr. Nagel earned her Ph.D. in mechanical engineering from Oregon State University and

Conference Session

K-12 & Pre-College Engineering Division: Curriculum and Resource Exchange

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jana Sebestik, University of Illinois, Urbana-Champaign; Samantha Lindgren, University of Illinois, Urbana-Champaign

Tagged Divisions

Pre-College Engineering Education Division

connect their work to educators, consumers, and students. She is author of curriculum modules in computer science, mathematics, and science including, Discovering Computer Science & Programming through Scratch and The Power of the Wind, published as part of the National 4-H STEM Initiative.Samantha Lindgren, University of Illinois, Urbana-Champaign Samantha Lindgren is the Coordinator of STEM Teacher Development at The Office for Mathematics, Science, and Technology Education (MSTE) in the College of Education at the University of Illinois Urbana-Champaign. A former Physics and Environmental Science teacher, she now writes STEM cur- riculum that integrates engineering into science curriculum. She has presented at

Conference Session

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

Collection

2017 ASEE Annual Conference & Exposition

Authors

Araceli Martinez Ortiz, Texas State University, San Marcos; Laura Rodriguez Amaya, Texas State University; Hiroko Kawaguchi Warshauer, Texas State University; Sara Garcia Torres M.Ed., Texas State University, San Marcos; Erin Scanlon, Texas State University; Michelle Pruett, Texas State University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #19230They Choose to Attend Academic Summer Camps? A Mixed Methods StudyExploring Motivation for, and the Impact of, an Academic Summer Pre-engineering Camp upon Middle School Students in a Latino CommunityDr. Araceli Martinez Ortiz, Texas State University, San Marcos Araceli Martinez Ortiz, PhD., is Research Associate Professor of Engineering Education in the College of Education at Texas State University. She leads a comprehensive research agenda related to issues of curriculum and instruction in engineering education, motivation and preparation of under served pop- ulations of students and teachers and in assessing

Conference Session

Pre-College: Evaluation

Collection

2017 ASEE Annual Conference & Exposition

Authors

Kuldeep S. Rawat, Elizabeth City State University; Robin R. Mangham, Elizabeth City State University; Orestes Devino Gooden, Elizabeth City State University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

quality evaluation (topics, instructor/staff, field trips, and guest speakers) once at the completion of 36 or 40hrs of STEM learning instead of evaluating every session. 3.   Teacher to stay at their satellite sites instead of rotating between middle school satellite camps. Provide additional training for pre-service teachers who will be assisting lead teachers. 4.   Develop home-based project activities for family connection component of the project. 5.   Integrate an Advanced Career (AC) model developed by the Southern Regional Education Board (SREB). Pilot test the AC curriculum focused on Aerospace Engineering with high school students. In addition, offer high school juniors and seniors

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

Diana Lynne Ibarra, ISF Academy

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

Paper ID #15646Sustainability-Infused CurriulumMs. Diana Lynne Ibarra, ISF Academy Shuyuan Science and SustainabilityPrograms Manager. BS degrees in Chemistry and Chemical Engineer- ing MS degrees in Management and Environmental Engineering c American Society for Engineering Education, 2016 Sustainability Infused Curriculum (WIP)AbstractA recently established school-wide sustainability policy in 2015, explicitly states, “an experimentally integrated,environmentally and ethically sustainable system of science education and conservation practices based on the 2012 JejuDeclaration of the

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

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

Tagged Divisions

Pre-College Engineering Education Division

completion of the lesson plan,educators shared the finalized copies with the other groups and the educators implemented theirnewly developed lesson plan into their curriculum. Finally, the STAR members met to discussand share the experiences, challenges, and accomplishments of their lessons and work to create,in the next session, a lesson plan with an entirely new engineering subject.Introduction The constant change and growth occurring in science and math standards, althoughchallenging at times, can be beneficial in motivating teachers to create not only interesting andthought provoking lesson plans, but illustrate concepts that students today should be exposed towhen thinking about their futures. When dissecting the Next Generation

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

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

University of Illinois at Urbana ChampaignIntroductionThe potential for interdisciplinary approaches to education in efforts to inspire learners has beenshown to be fruitful in K12 and college level curricula1-7. A movement combining Art & Designwith STEM has promoted the benefits of STEAM8. In addition to the improved performance ofstudents who are engaged in this type of curriculum, there are opportunities to develop projectsthat embody the interdisciplinarity of these practices9. Workshops held in 2014 and 2015successfully promoted engagement and collaboration, and inspired learners who attended tobuild their own touch synthesizer. By emphasizing the aesthetics and musicality of the end result,the promotion of the event aimed to broaden K12

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

Michael Grubbs, Baltimore County Public Schools; Greg J. Strimel, West Virginia University

Tagged Divisions

Pre-College Engineering Education Division

. Journal of Technology Education, 19(2), 50-64.Menary, R. (2007). Cognitive integration: Mind and cognition unbounded. London: Palgrave Macmillan.Mentzer, N. (2012). Team Based Engineering Design Thinking. National Center for Engineering and Technology Education.Mosborg, S., Adams, R. S., Kim, R., Atman, C., Turns, J., & Cardella, M. (2005). Conceptions of the engineering design process: An expert study of advanced practicing professionals. Paper presented at the meeting of the American Society for Engineering Education, Portland, OR.Purcell, A. T., Gero, J. S., Edwards, H. & McNeill, T. (1996). The data in design protocols: The issue of data coding, data analysis in the development of models of the

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

Roxanne Moore, Georgia Institute of Technology; Meltem Alemdar, Georgia Institute of Technology; Jeremy A. Lingle, Georgia Institute of Technology; Sunni Haag Newton, Georgia Institute of Technology; Jeffrey H Rosen, Georgia Institute of Technology; Marion Usselman, Georgia Institute of Technology

Tagged Divisions

Pre-College Engineering Education Division

calledAdvanced Manufacturing and Prototyping Integrated to Unlock Potential (AMP-IT-UP), we havedeveloped an electronic engineering notebook to support engineering design coursework at themiddle and high school levels. The electronic notebooks have associated rubrics to be used forboth research and grading purposes, and these rubrics have been tailored specifically to both themiddle school and high school audiences. In this paper, a description of the engineering notebook,known as the Engineering Design Process Log or EDP Log, and the associated rubrics areprovided. This is accompanied by feedback from teachers about the benefits and challenges ofusing the EDP logs in the classroom after one or more semesters of implementing the AMP-IT-UP curriculum

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

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

framework provides an understanding ofhow environmental flows contribute to degraded water quality 25, 26, 27. Each step of the process from establishing measurement points, to data collection,hydrologic analysis, and modeling allow students to conduct hypothesis-testing experiments.Students delve deeply into the components of the process and work as a team to integrate theirknowledge into solving broad stormwater management problems.III. Students and teachers activities The educational activities of this program consist of participation in the StormwaterManagement Research Team (SMART) Institute (www.umaine.edu/smart) in June of each yearand structured activities in the following academic year, as explained in the following sections.A

Conference Session

Pre-College: Robotics

Collection

2017 ASEE Annual Conference & Exposition

Authors

S. M. Mizanoor Rahman, New York University; Sonia Mary Chacko, New York University, Tandon School of Engineering; Vikram Kapila, New York University, Tandon School of Engineering

Tagged Divisions

Pre-College Engineering Education Division

importance that all students receive high quality educationalexperiences in science, technology, engineering, and math (STEM) fields so that they becomedesigners and creators of our technology-rich future instead of being mere consumers oftechnological products.There are numerous on-going educational programs that seek to integrate and infuse varied mannerof technologies in STEM instruction and learning (e.g., computers, internet and mobileapplications, robotics, etc.). Recent research1,2 has shown that robotics can serve as an effectivepedagogical tool in STEM education. Educational robotics kits have been shown to enhancestudent engagement in STEM content.3 Moreover, robotics is known to stimulate excitement andencourage participation of students

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

Victoria G. Bill, New York University; Yosef Skolnick, Cooper Union

Tagged Divisions

Pre-College Engineering Education Division

beneficial.Specifically, reasons include using engineering design as a framework to design and organizeany curriculum and to integrate students’ studies in mathematics, science, and technology.5There has also recently been a push to include multidisciplinary open-ended design in first-yearengineering courses. Previously, many established first year engineering programs and most highschool summer STEM programs utilized robot projects or predefined problems to teachengineering design. However, assigning students a problem to solve diminishes some of theengineering design process, which often starts with a questioning, iterative brainstorming sessionto identify problems on a global or personal scale that can be solved by an engineered solution orproduct. From

Conference Session

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

Collection

2017 ASEE Annual Conference & Exposition

Authors

Sharnnia Artis, University of California, Irvine; Gregory N. Washington, University of California, Irvine

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

American Society for Engineering Education, 2017 Design, Code, Build, Test: Development of an Experiential Learning Summer Engineering and Computer Science Outreach Program for High School Students (Evaluation)AbstractThe Science, Technology, Engineering, and Math (STEM) “pipeline” that is imagined to guidestudents from middle school into successful STEM careers implies a single path. This path oftenrequires students to develop an interest in STEM by middle school, choose particular math andscience courses in middle- and high-school, and gain experience and exposure in STEMactivities through their high school tenure. While successful for approximately 7% of studentswho entered 9th grade in 2001, this system has

Conference Session

Pre-College: Perceptions and Attitudes on the Pathway to Engineering (2)

Collection

2017 ASEE Annual Conference & Exposition

Authors

Avneet Hira, Purdue University, West Lafayette (College of Engineering); Salsabil Mahmed Salah, FACElab Purdue, Uprise academy; Claudia N. Hurt, FACElab Purdue; Morgan M. Hynes, Purdue University, West Lafayette (College of Engineering)

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

problem-solving but this message was not being clearly passed along. Many students still consider engineering to be just about math and science and don’t consider it as a field that works to solve problems and make life easier and efficient, I wanted to know more about engineering education myself as I realized most of us only have a vague idea about what this vast field is.Ms. Claudia N. Hurt, FACElab PurdueDr. Morgan M. Hynes, Purdue University, West Lafayette (College of Engineering) Dr. Morgan Hynes is an Assistant Professor in the School of Engineering Education at Purdue Univer- sity and Director of the FACE Lab research group at Purdue. In his research, Hynes explores the use of engineering to integrate academic

Conference Session

Pre-college Engineering Education Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Leanne Petry, Central State University; Margaret Pinnell, University of Dayton; M. Suzanne Franco, Wright State University; Brett Doudican, University of Dayton; Ahsan Mian; Raghavan Srinivasan, Wright State University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

College Academy, an urban school sponsored by the University of Dayton. Brett is involved in multiple levels of education from the Ohio Department of Education to teaching course to new teachers in alternative certification programs to managing a small curriculum and professional development organization.Dr. Ahsan Mian Ahsan Mian received the B.S. and M.S. degrees in mechanical engineering from Bangladesh Univer- sity of Engineering and Technology (BUET), Bangladesh, the M.S. degree in mechanical engineering from Tuskegee University, Tuskegee, AL, and the Ph.D. degree in mechanical engineering from Auburn University, Auburn, AL in 2000. Ahsan Mian joined the Department of Mechanical and Materials En- gineering in

Conference Session

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

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tasha Tiffany Tardieu, University of Michigan; Shanna R. Daly, University of Michigan

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

engineering experience as part of their school curriculum. While students are aptlyprepared in the theory of Math and Physics, they are not allowed many opportunities to applythese concepts to design problems or to relate these ideas to real-world applications. Thisespecially seems to be an issue in all female secondary schools since 50% of peers suggested thatthere be a focus on teaching girls about engineering.According to peers, while a majority felt adequately prepared for the college level workloadbecause of their secondary school education, many felt that there could be a greater level ofpreparation by exposing students to the practical side of engineering. 27% of the students wantedto find out more about engineering, the different types of

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

Tagged Topics

Diversity

Tagged Divisions

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

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

Tagged Divisions

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

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

Tagged Divisions

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

Pre-college: Blending Computers, Computational Thinking, and Engineering Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Hoda Ehsan, Purdue University, West Lafayette (College of Engineering); Chanel Beebe, Purdue University, West Lafayette (College of Engineering); Monica E. Cardella, Purdue University, West Lafayette (College of Engineering)

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education Division

computational thinking in children.Digital media is taking over adults’ lives and children’s of all ages. Digital media such as tabletsand applications have entered the educational system and become popular worldwide. Chiongand Shuler (2010) demonstrated that apps could successfully sustain children’s’ learning as wellas their interest. Moreover, Couse and Chen (2010) called for “more fully integrate technologyinto the curriculum to encourage the active engagement and thinking of young children” (p.76).Hence, in order to integrate apps into educational material and curriculum, it is important toselect the apps that promote children’s learning. Therefore, the goal of this study is to review andselect the apps that potentially promote computational