Conference Session

Engineering Collaboration: Faculty and Student Involvement in K-12 Programs

Collection

2009 Annual Conference & Exposition

Authors

Elizabeth Eschenbach, Humboldt State University; Mary Virnoche, Humboldt State University; Lonny Grafman, Humboldt State University; Forrest Stamper, Hoopa Valley High School; Laura Atkins, Humboldt State University; Rebecca Raymond, Humboldt State University; Katie Mills, Humboldt State University

Tagged Divisions

K-12 & Pre-College Engineering

diversity of engineering students and improving education for all engineering students. Two of Beth’s current projects are an NSF sponsored S-STEM grant and the project described in this paper.Mary Virnoche, Humboldt State University Mary Virnoche is an Associate Professor and Chair of the Department of Sociology at Humboldt State University. Mary collaborates with colleagues in STEM areas to increase interest and diversity in those fields. She is currently working with a team on an NSF S-STEM project. In recent past her action research focused on the Expanding Your Horizons conference designed to generate and retain girls' interest in science and engineering. Mary completed her doctoral work at

Conference Session

K-5 Teacher Transformation

Collection

2013 ASEE Annual Conference & Exposition

Authors

Pamela S. Lottero-Perdue Ph.D., Towson University

Tagged Divisions

K-12 & Pre-College Engineering

teacher educator, she has added engineering to her elementary and early childhood science methods courses, and developed a Teaching Engineering Design course for middle school pre-service teachers in a science track. Since 2008, she has partnered with Harford County Public Schools in Maryland on the SySTEmic Project, a district-wide project to implement elementary engineering instruction using EiE units of instruction. More recently, she has provided science and engineering professional development to Tunbridge Public Charter School, Baltimore City, and to Cecil County Public Schools, Maryland. Her research largely examines factors that support and those that hinder elementary teachers as they learn to teach

Conference Session

Think Outside the Box! K-12 Engineering Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Kelly Hutchinson, Purdue University; Lynn Bryan, Purdue University; George Bodner, Purdue University

Tagged Divisions

K-12 & Pre-College Engineering

learning. Page 14.1102.7In recent years, there has been an increase in the quantity of literature devoted to describing whata successful professional development program should look like. Most researchers agree onspecific criteria that will make a professional development program successful. The key featuresof a successful science professional development program include: (a) intensive and sustainedtraining with opportunities for active learning, where teachers are able to practice using the skillsand knowledge developed, (b) delving into deep science content and process knowledge(subject-matter knowledge), (c) modeling strategies teachers will

Conference Session

Innovative K-12 Engineering Programs

Collection

2008 Annual Conference & Exposition

Authors

Elisabeth McGrath, Stevens Institute of Technology; Susan Lowes, Teachers College, Columbia University; Peiyi Lin, Teachers College, Columbia University; Jason Sayres, Stevens Institute of Technology; Liesl Hotaling, The Beacon Institute; Rustam Stolkin, Stevens Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

, activities, and impact of the curriculum development, teacherand student summer institutes, and preliminary classroom implementation results for the firstphase of the project: designing the wire-guided, underwater ROV and controlling it to performthe initial set of performance challenges related to maneuvering around the pool andcollecting/placing wiffle balls in a goal.BUILD IT Program and Learning Goals and ActivitiesIn meeting the ITEST program goals to provide more students with experience and motivation topursue IT and STEM study and careers, the BUILD IT project focuses on three keyconstituencies: (1) middle and high school teachers; (2) their students; and (3) guidancecounselors. In addition, we have sought to engage parents and the greater

Conference Session

Service as an Element of Education

Collection

2012 ASEE Annual Conference & Exposition

Authors

William C. Oakes, Purdue University, West Lafayette; Pamela Dexter, Purdue University, West Lafayette; Jane Hunter, University of Arizona; James C. Baygents, University of Arizona; Michael Gerard Thompson

Tagged Divisions

K-12 & Pre-College Engineering

EPICS.Mrs. Pamela Dexter, Purdue University, West Lafayette Pamela Dexter graduated from Purdue University with a bachelor’s of arts degree in education and worked as the Gifted & Talented Program Coordinator and teacher for a local school corporation. Dexter was also the Director of Marketing and Resource Development for Lafayette Neighborhood Housing Services, Inc., before joining Purdue University’s EPICS (Engineering Projects in Community Service) program. Dexter has been the EPICS High School Program Coordinator since inception of the program in 2006. Dexter is dedicated to the national dissemination of engineering service-learning design education in schools across the U.S. and abroad. These efforts blend the

Conference Session

High-School Engineering Education

Collection

2009 Annual Conference & Exposition

Authors

Jan DeWaters, Clarkson University; Susan Powers, Clarkson University

Tagged Divisions

K-12 & Pre-College Engineering

energy issue – modes ofprivate vehicle transportation. The module was developed and modified by graduate studentsfrom Clarkson University with the support of an NSF GK-12 grant. The energy module wasdesigned based on themes from STS and project-based learning models of instruction, andcontains elements of instruction and practice in formal decision making. Module content iscorrelated to New York State (NYS) and National Learning Standards for Science, Mathematics,and Technology, with a focus on science inquiry and the “extended process skills” covered byNYS Standards 1, 2, 6, and 7: • Standard 1 - Analysis, Inquiry and Design. Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose

Conference Session

K-12 Professional Development I

Collection

2013 ASEE Annual Conference & Exposition

Authors

Anant R. Kukreti, University of Cincinnati; Eugene Rutz, University of Cincinnati; Julie Steimle, University of Cincinnati; Howard E. Jackson, University of Cincinnati; Catherine Maltbie, University of Cincinnati

Tagged Divisions

K-12 & Pre-College Engineering

in Figure 3, could be incorporated into the solutioncomponent of the challenge-based learning model. Seminar participants engaged in a briefdesign cycle practice exercise in order to better understand the process. They were asked to pairup and given the challenge of designing a free standing prototype of a structure that will preventa golf ball size object (for example, an egg) dropped from 6 feet from impacting the floor. Theywere given 10 minutes to complete the task, 2 sheets of 8.5x11 inch paper, 6 inches of tape and arubber band. The seminar ended by outlining the goals of CEEMS, as indicated in the grantproposal so that the participants would be aware of their role and the project’s wider scope whichintends to establish a cadre of

Conference Session

K-12 Teachers: PD, Implementation, and Beyond

Collection

2012 ASEE Annual Conference & Exposition

Authors

Amber Leigh McFarland Kendall, Tufts University; Kristen Bethke Wendell Ph.D., University of Massachusetts, Boston

Tagged Divisions

K-12 & Pre-College Engineering

AC 2012-4068: UNDERSTANDING THE BELIEFS AND PERCEPTIONSOF TEACHERS WHO CHOOSE TO IMPLEMENT ENGINEERING-BASEDSCIENCE INSTRUCTIONMs. Amber Leigh McFarland Kendall, Tufts University Amber Kendall is a doctoral student in science education at Tufts University and a Graduate Research As- sistant with the Center for Engineering Education and Outreach. She graduated from North Carolina State University as a Park Scholar with a B.A. in physics. Her passion for STEM education is long-standing, but she was inspired to pursue her graduate degree after three years spent teaching physics to high-school freshman. Beside engineering-design-based curricula, her interests include scientific representations and modeling, and women in

Conference Session

Elementary School Engineering Education

Collection

2006 Annual Conference & Exposition

Authors

Karen High, Oklahoma State University; Caroline Beller, Oklahoma State University; Pamela Fry, Oklahoma State University; Adrienne Redmond, Oklahoma State University

Tagged Divisions

K-12 & Pre-College Engineering

designed to guide the nation toward a scientifically literate society. Based Page 11.302.3on exemplary practice and research, the Standards describe a vision of the scientificallyliterate person and present criteria for science education that will allow that vision tobecome reality. Teachers must have theoretical and practical knowledge and abilitiesabout science, learning, and science teaching. General competencies for licensure andcertification in Oklahoma are also addressed. State competencies for licensure andcertification for elementary education also inform course content, as well as theOklahoma Priority Academic Student Skills (PASS) and the

Conference Session

K-12 Computer Science and Computational Thinking Initiatives

Collection

2014 ASEE Annual Conference & Exposition

Authors

Amy Eguchi, Bloomfield College

Tagged Divisions

K-12 & Pre-College Engineering

student described: I think the best is figuring out how to trouble shoot the may problems we encountered. For example, not just with the program, how to make a dribbler on a (soccer) robot, where you have to make many designs to make it work. Also being patient with the program because it takes a lot of trail and error to even get simplest things to work. Another student explained his learning in detail: I gained many things from RoboCupJunior. Some of the most valued aspects are a better ability to problem solve and the ability to seriously check your work for errors - debugging. These skills can be applied in nearly all aspects of life you continue in the profession of

Conference Session

Think Outside the Box! K-12 Engineering Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Tara Gomez, California Institute of Technology; Oliver Loson, California Institute of Technology; Douglas Yung, California Institute of Technology; Sindhuja Kadambi, California Institute of Technology; Paul Lee, California Institute of Technology; Luz Rivas, California Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

in the biology graduate program at the California Institute of Technology, and is working towards earning a doctorate of philosophy. Oliver is investigating the role of mitochondrial genetics in diseases affecting this organelle, and is also trying to develop techniques for manipulating the mitochondrial genome.Douglas Yung, California Institute of Technology Douglas Yung earned a Ph.D. in Bioengineering from Caltech, and a B.S. in Electrical Engineering and Mathematics from UCLA. He received the NASA Postdoctoral Fellowship and is currently working at Jet Propulsion Laboratory in California. His research focuses on photonics, biosensor development, microfluidics, molecular &

Conference Session

Think Outside the Box! K-12 Engineering Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Milo Koretsky, Oregon State University; Debra Gilbuena, Oregon State University; Adam Kirsch, Crescent Valley High School

Tagged Divisions

K-12 & Pre-College Engineering

AC 2009-830: ENGAGING HIGH-SCHOOL STUDENTS IN ENGINEERING,SCIENCE, AND TECHNOLOGY USING VIRTUAL LABORATORIESMilo Koretsky, Oregon State University Milo Koretsky is an Associate Professor of Chemical Engineering at Oregon State University. He currently has research activity in areas related to thin film materials processing and engineering education. He is interested in integrating technology into effective educational practices and in promoting the use of higher level cognitive skills in engineering problem solving. Dr. Koretsky is a six-time Intel Faculty Fellow and has won awards for his work in engineering education at the university and national levels.Debra Gilbuena, Oregon State University

Conference Session

Using Web-Resources and Literature to Teach Engineering in P-8

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lucy McAuliffe, Smith College; Glenn W. Ellis, Smith College; Sonia Katrin Ellis, Smith College; Isabel Huff, Smith College; Beth McGinnis-Cavanaugh, Springfield Technical Community College

Tagged Divisions

K-12 & Pre-College Engineering

AC 2011-1627: MYSTERIES AND HEROES: USING IMAGINATIVE ED-UCATION TO ENGAGE MIDDLE SCHOOL LEARNERS IN ENGINEER-INGLucy McAuliffe, Smith College Lucy McAuliffe is the senior editor and an instructional designer for the Talk to Me Project. Lucy is currently a student at Smith College, majoring in American Studies and Environmental Science & Policy. She is a First Group Scholar, and recipient of awards including the Newton Arvin Prize in American Studies and a grant from the Andrew W. Mellon Foundation. She plans to enter the publishing industry upon her graduation in 2012.Glenn W Ellis, Smith College Glenn Ellis is an Associate Professor of Engineering at Smith College where he teaches courses in engi- neering

Conference Session

New and Innovative Ideas

Collection

2012 ASEE Annual Conference & Exposition

Authors

Liesl Hotaling, University of South Florida, St. Petersburg; Susan Lowes, Columbia University; Peiyi Lin, Columbia University; Rustam Stolkin, University of Birmingham; James S. Bonner, Clarkson University; William David Kirkey, Clarkson University; Temitope Ojo, Clarkson University

Tagged Divisions

K-12 & Pre-College Engineering

Kirkey, Clarkson University William Kirkey is a doctoral candidate in engineering science at Clarkson University. His present research interests include the development and application of sensors and systems for real-time water quality mon- itoring.Dr. Temitope Ojo, Clarkson University Page 25.1194.1 c American Society for Engineering Education, 2012 Student-created water quality sensorsAbstract- This paper describes efforts to enrich STEM education through the implementationof a classroom project in which students design, construct, program and test water

Conference Session

Curriculum Development

Collection

2013 ASEE Annual Conference & Exposition

Authors

James Muldoon, Polytechnic Institute of NYU; Paul T Phamduy, Polytechnic Institute of New York University; Raymond Le Grand, Polytechnic Institute of New York University; Vikram Kapila, Polytechnic Institute of New York University; Magued G. Iskander P.E., Polytechnic Institute of New York University

Tagged Divisions

K-12 & Pre-College Engineering

Paper ID #6144Connecting Cognitive Domains of Bloom’s Taxonomy and Robotics to Pro-mote Learning in K-12 EnvironmentJames Muldoon, Polytechnic Institute of NYU James Muldoon received B.S. degrees in Computer Engineering and Computer Science from the Univer- sity of South Florida, Tampa, FL, in 2012. Upon graduation, he started research for a M.S. degree in Computer Engineering in the Wireless Telecommunications Lab under the supervision of Dr. Sundeep Rangan at Polytechnic Institute of NYU. He is currently serving as a teaching fellow at the Fort Greene Prep Middle School under NYU-Poly’s GK-12 program funded by the

Conference Session

Enhancing K-12 STEM Education with Engineering

Collection

2010 Annual Conference & Exposition

Authors

Virginia Westheider, University of Cincinnati; Patrick Brown, University of Cincinnati

Tagged Divisions

K-12 & Pre-College Engineering

. Page 15.1299.2IntroductionThe National Science Foundation (NSF) Research Experience for Teachers (RET) described inthis paper is funded under a multi-campus NSF Center of Excellence in an urban environment.The project for 2008-2009 was to address the: Need for more students and graduates in science, technology, engineering and mathematics (STEM) Need for more women in STEM fields Need for better understanding of the role of engineers in industry and society Need for better relationships among higher education and local high school teachers.According to United States Bureau of Labor Statistics, June 28, 2007, the need for scientists andengineers is projected to increase by 22% as a whole between 2004 and 2014

Conference Session

Promoting Scientific and Technological Literacy

Collection

2006 Annual Conference & Exposition

Authors

Jan DeWaters, Clarkson University; Susan Powers, Clarkson University

Tagged Divisions

K-12 & Pre-College Engineering

decisions on a global scale. Scientific and technical literacy will empower students tobecome responsible citizens in the rapidly changing world in which we live, and will preparestudents for effective participation in the decisions and actions that take place in their homes,their communities, and their world.[7] Likewise, literacy within the environmental sciences willprepare students for interpreting and acting on issues related to energy and the environment.Project based learning has been suggested to present the best case for teaching and learningscience process skills and content.[8, 9] The technique has roots in the “learning by doing”approach to education promoted by John Dewey.[10] The curriculum is generally centered aroundthe assignment

Conference Session

Engineering in the Elementary School

Collection

2008 Annual Conference & Exposition

Authors

Mercedes McKay, Stevens Institute of Technology; Augusto Macalalag, Stevens Institute of Technology; Carol Shields, Stevens Institute of Technology; Debra Brockway, Stevens Institute of Technology; Beth McGrath, Stevens Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

13.963.3teachers will have an impact on student learning of science topics and processes, technology, andengineering. The program was designed to integrate engineering/technology and science in away that supports the learning in each of these disciplines. Engineering complements theinstruction of science by supplying a context for application outside of the science lesson.Curricula Content and Structure of Teacher Professional DevelopmentEach year of the three-year MSP program focuses on a different science discipline. The firstyear, which ends in June, 2008 focuses on life science, environmental science and technology.Table 1 shows the New Jersey Core Curriculum Content Standards covered in the first year.Subsequent years will focus on earth science and

Conference Session

Middle School Engineering Programs, Curriculum, and Evaluation

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jed S. Lyons, University of South Carolina

Tagged Divisions

K-12 & Pre-College Engineering

, Not So MuchAbstractThe broad objective of this research was to investigate middle school students' attitudes towards,and perceptions of, engineering and science. Additionally, the research investigated what impact,if any, long-term school-based collaboration with graduate level students from STEM disciplineshad on middle school student attitudes and perceptions of engineering and science. To capturestudent attitudes, two surveys were designed. The first assessed student attitudes towards, andperceptions of, engineering while the second assessed attitudes towards, and perceptions of,science. Surveys were administered to middle school students in science classrooms taking partin a NSF-funded Graduate STEM Fellowship in K-12 Education program

Conference Session

Women in K-12 Engineeering & Outreach Programs

Collection

2010 Annual Conference & Exposition

Authors

Arlisa Labrie Richardson, Estrella Mountain Community College; Maria Reyes, Estrella Mountain Community College; Marge Goodman, Intel Corporation

Tagged Divisions

K-12 & Pre-College Engineering

; specifically examining the impact of team interactions and gender. Arlisa's research interest includes issues of engineering recruitment, retention, and equity in science, engineering and technology,which stems from her personal academic and professional experience as an engineer. Before returning to graduate school to pursue a Doctorate degree, she worked as an engineer in the semiconductor manufacturing industry for ten years. In her current position, Director of Learning Support Services at Estrella Mountain Community College (EMCC)in Avondale,AZ, she utilizes her academic and professional background to prepare students for successful careers in the science, technology

Conference Session

Descriptions of Curricular and Model Development

Collection

2011 ASEE Annual Conference & Exposition

Authors

Keeshan Williams, Polytechnic Institute of New York University; Vikram Kapila, Polytechnic Institute of New York University; Magued G. Iskander, Polytechnic Institute of New York University

Tagged Divisions

K-12 & Pre-College Engineering

schools. He received Polytechnic’s 2002 and 2008 Jacobs Excellence in Education Award and 2003 Distinguished Teacher Award. In 2004, he was selected for a three-year term as a Senior Faculty Fellow of NYU-Poly’s Othmer Institute for Interdisciplinary Studies. His scholarly activities have included 3 edited books, 4 chapters in edited books, 1 book review, 43 journal articles, and 92 conference papers. Moreover, he has mentored 67 high school students, over 170 K-12 teachers, 21 undergraduate summer interns, and 11 undergraduate capstone-design teams, and graduated eight M.S. and four Ph.D. students.Magued G. Iskander, Polytechnic Institute of New York University MAGUED ISKANDER is Associate Professor and Graduate Adviser

Conference Session

Thinking, Reasoning, and Engineering in Elementary School

Collection

2009 Annual Conference & Exposition

Authors

Irene Mena, Purdue University; Brenda Capobianco, Purdue University; Heidi Diefes-Dux, Purdue University

Tagged Divisions

K-12 & Pre-College Engineering

Associate Professor in the School of Engineering Education at Purdue University. She received her B.S. and M.S. in Food Science from Cornell University and her Ph.D. in Food Process Engineering from the Department of Agricultural and Biological Engineering at Purdue University. Since 1999, she has been a faculty member within the First-Year Engineering Program at Purdue, the gateway for all first-year students entering the College of Engineering. She coordinated (2000-2006) and continues to teach in the required first-year engineering problem solving and computer tools course, which engages students in open-ended problem solving and design. Her research focuses on the development

Conference Session

High School Students Thinking and Performance

Collection

2012 ASEE Annual Conference & Exposition

Authors

Kristin L. Brudigam, Lake Travis High School; Richard H. Crawford, University of Texas, Austin

Tagged Divisions

K-12 & Pre-College Engineering

. Neihardt Honors program at Wayne State College. More recently, she developed and integrated a student internship program into her Civil Engineering and Architecture class at Lake Travis High School. This program allows students to work closely with local industry partners that provide professional advice to improve the quality of their work and give them a real-world experience in a designated field. Brudigam’s research focuses on the differences in spatial ability among high school geometry and engineering students while looking for ways to improve such ability within the classroom.Dr. Richard H. Crawford, University of Texas, Austin Richard H. Crawford is a professor of mechanical engineering at the University of Texas

Conference Session

Gender Perceptions and Girls in K-12 Engineering and Computer Science

Collection

2014 ASEE Annual Conference & Exposition

Authors

Emily Ann Marasco, University of Calgary; Laleh Behjat P.Eng., University of Calgary

Tagged Divisions

K-12 & Pre-College Engineering

, J., & Duveen, G. (1998). Recent research on gender and educationalperformance. London: OFSTED.[4] Bussière, P., Cartwright, F., & Knighton, T. (2004). The performance of Canada’s youth in Mathematics,Reading, Science and problem solving: 2003 first findings for Canadians aged 15. Ottawa: Human Resources andSkills Development Canada, Council of Ministers of Education, Canada and Statistics Canada.[5] S. Sjoberg and C. Schreiner. (2010). The ROSE project: An overview and key findings. Technical report,University of Oslo, Oslo, Norway.[6] E. Marasco and L. Behjat. (2013). Developing a cross-disciplinary curriculum for the integration ofengineering and design in elementary education. Proc. of the 2013 American Society of Engineering

Conference Session

Core Concepts, Standards, and Policy in K-12 Engineering Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Johannes Strobel, Purdue University, West Lafayette; Ronald L. Carr, Purdue University; Nilson E. Martinez-Lopez, Purdue University; Jose Daniel Bravo, INSPIRE

Tagged Divisions

K-12 & Pre-College Engineering

, particularly sus- tainability, designing open-ended problem/project-based learning environments, social computing/gaming applications for education, and problem solving in ill-structured/complex domains.Ronald L Carr, Purdue University Ronald Carr is a Master’s and Ph.D. student in the Purdue University College of Education. He is currently completing his M.S. in Educational Studies/Gifted & Talented and working towards a Ph.D. in Learning Design and Technology. He currently works as a research assistant for the Institute for P-12 Engineering Research and Learning (INSPIRE).Nilson E. Martinez-Lopez, Purdue University Nilson Martinez-Lopez is an undergraduate student in the Purdue University College of Engineering. He

Conference Session

Gender and Minority Issues in K-12 Engineering

Collection

2009 Annual Conference & Exposition

Authors

Tirupalavanam Ganesh, Arizona State University; John Thieken, Arizona State University; Monica Elser, Arizona State University; Stephen Krause, Arizona State University; Dale Baker, Arizona State University; Chell Roberts, Arizona State University; Sharon Kurpius-Robinson, Arizona State University; James Middleton, Arizona State University; Jay Golden, Arizona State University

Tagged Divisions

K-12 & Pre-College Engineering

. Student learning was assessed using pre and post assessments; brief write-ups andsketches describing their circuit designs; white board presentations to peers, parents, and adultfacilitators on what they have learned; and demonstrations of their chain reaction creation.Urban Heat Island UnitStudents were engaged with the notion of the urban heat island phenomenon in the area wherethey live by going on a field trip to the local research-intensive university’s green building andexploration of various areas on the university’s campus on one of two trails to find the best placefor having lunch outdoors. Students measured humidity, temperature, and wind at designatedlocations on the trail and recorded data. Average measures were computed for the group

Conference Session

K-12 and Pre-College Engineering Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Eric Daney, Downingtown Area School District & Villanova University; Aaron P. Wemhoff, Villanova University; Gerard F. Jones, Villanova University

Tagged Divisions

K-12 & Pre-College Engineering

Department of Mechanical Engineering at Villanova University in 1987 where he cur- rently holds the rank of professor. In 2008, after serving as department chairman for six years, he assumed the position of Associate Dean, Academic Affairs where he was responsible for day-to-day running of the undergraduate engineering program of 850 students in five engineering majors. In 2012, he took the po- sition of Sr. Associate Dean for Graduate Studies and Research. His undergraduate teaching has included numerous courses in heat transfer, fluid mechanics, thermodynamics, analysis and design, gravity-driven water networks, and laboratories. His graduate courses are heat conduction, convection, computational fluid dynamics

Conference Session

Gender and Accessibility Issues in K-12 Engineering Education

Collection

2007 Annual Conference & Exposition

Authors

Glenda Kelly, Duke University; Paul Klenk, Duke University; Gary Ybarra, Duke University; Lee Anne Cox, Duke University

Tagged Divisions

K-12 & Pre-College Engineering

and was formerly the Graduate Student Coordinator for the Technotronics After-School Program. In addition to his K-12 outreach work, he has researched novel therapeutic radiation delivery methods for cancer treatment and utilized lock-in thermographic techniques for imaging photovoltaic cells.Gary Ybarra, Duke University Gary A. Ybarra, Ph.D. is a Professor and Director of Undergraduate Studies in the Department of Electrical and Computer Engineering at Duke University. He is the principal investigator of several K-12 engineering outreach programs as part of his Engineering K-PhD program at Duke. He received a Ph.D. in electrical and computer engineering from North Carolina State

Conference Session

Gender and Minority Issues in K-12 Engineering

Collection

2010 Annual Conference & Exposition

Authors

Jeanne Christman, Rochester Institute of Technology; Elizabeth Dell, Rochester Institute of Technology; Robert Garrick, Rochester Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

. Finalreport of the women’s experiences in college engineering project, Goodman Research Group, Inc., Cambridge, MA.2 Tucker, S., Hanuscin, D. and Bearnes, C. 2008. THE PIPELINE:Igniting Girls' Interest in Science. Science 319.3 Cromer, Katherine. 2005. Programs, teachers draw girls into science, math, Pensacola News-Journal.4 Richards, L., A. Hallock and C. Schnittka. 2007. Getting them Early: Teaching Engineering Design in MiddleSchool. Int. Journal of Engineering Education : 23: 874-883.5 L. Barker 2007. Girls Exploring Science, Engineering and Technology Event-GESET; National Center for Womenin Information technology: Promising Practices, www.ncwit.org.6 Powers, S., M. Graham, T. Schwob and J. Dewaters. 2003. Diversity in K-12 Initiatives

Conference Session

Addressing the NGSS, Part 1 of 3: Supporting K-8 Science Teachers in Engineering Pedagogy and Engineering-Science Connections

Collection

2014 ASEE Annual Conference & Exposition

Authors

Scott C. Molitor, University of Toledo; Joan N. Kaderavek, University of Toledo; Hoangha Dao, University of Toledo; Nicholas J. Liber; Regina Rotshtein, University of Toledo; Geoff Milewski, The University of Toledo; Charlene M. Czerniak, The University of Toledo

Tagged Divisions

K-12 & Pre-College Engineering

the Systematic Characterization of Inquiry Instruction inEarly LearNing Classroom Environments, or SCIIENCE instrument, to measure the efficacy ofour professional development and to improve pedagogical practices in PK-3 classrooms.The SCIIENCE instrument was designed to objectively capture the presence of specific bestpractices outlined in the NRC Framework as they occur within a science lesson and focuses onteacher behaviors. The goals of the SCIIENCE instrument are (a) to provide a standardized toolbased on the NRC Framework for assessing the quality of science and engineering instruction inPK-3 classrooms; (b) to capture the instructional practices that engage students in their scienceand engineering lessons, promote scientific and