Conference Session

Engineering in the Middle Grades

Collection

2010 Annual Conference & Exposition

Authors

Christine Schnittka, University of Kentucky; Michael Evans, Virginia Tech; Brett Jones, Virginia Tech; Carol Brandt, Virginia Tech

Tagged Divisions

K-12 & Pre-College Engineering

AC 2010-466: STUDIO STEM: NETWORKED ENGINEERING PROJECTS INENERGY FOR MIDDLE SCHOOL GIRLS AND BOYSChristine Schnittka, University of KentuckyMichael Evans, Virginia TechBrett Jones, Virginia TechCarol Brandt, Virginia Tech Page 15.1138.1© American Society for Engineering Education, 2010 Studio STEM: Networked Engineering Projects in Energy for Middle School Girls and BoysAbstractThe US workforce of the 21st century reflects an increasing need to train and hire engineers,scientists, and technologists.1,2 Whereas, the current trend is to seek expertise from foreignnationals, the new agenda is to place a concerted effort on the training and

Conference Session

Evaluation: Exploring High School Engineering Education Initiatives

Collection

2015 ASEE Annual Conference & Exposition

Authors

Roxanne Moore, Georgia Institute of Technology; Meltem Alemdar, Georgia Institute of Technology; Sunni H. Newton, CEISMC; Jeffrey H Rosen, Georgia Institute of Technology; Marion Usselman, Georgia Institute of Technology; Stefanie A Wind, Georgia Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

K-12 & Pre-College Engineering

Page 26.844.1 c American Society for Engineering Education, 2015 High School Engineering Class: From Wood Shop to Advanced Manufacturing (Evaluation)AbstractThe maker movements, a general term for the rise of inventing, designing, and tinkering, and theaddition of engineering standards to the Next Generation Science Standards (NGSS) havespawned a major evolution in technology classes throughout the country. At Georgia Institute ofTechnology, a new curriculum attempts to bring the maker movement to high school audiencesthrough both curricular and extra-curricular channels. The curriculum is structured aroundengineering standards and learning goals that reflect design and advanced

Conference Session

Assessment of K-12 Engineering Programs & Issues

Collection

2010 Annual Conference & Exposition

Authors

M. David Burghardt, Hofstra University; Michael Hacker, Hofstra University; Marc Devries, University of Technology, Delft; Ammeret Rossouw, University of Technology, Delft

Tagged Divisions

K-12 & Pre-College Engineering

curriculumdevelopment. The panel consisted of six participants in the Delphi study plus two other expertswho had not been involved in the Delphi study (four engineering educators, four technologyeducators). Also, two of the researchers were present whose backgrounds were in the philosophyof technology and technology education. The process was as follows: first, the group reflected onthe contexts that came out of the Delphi study, and second, it reflected on the overarchingthemes. Both of the lists were found to lack structure and hierarchy, an omission that isunderstandable from the methodology of the Delphi study. An analysis was made of the nature ofthe consecutively ranked themes and contexts to provide the necessary structure for use as acurriculum

Conference Session

Fundamental: K-12 Students and Engineering Design Practices (Part 1)

Collection

2015 ASEE Annual Conference & Exposition

Authors

Mary McCormick, Tufts University; Jessica Watkins, Tufts University

Tagged Divisions

K-12 & Pre-College Engineering

only one idea; and enact design as a sequence of steps in their searchfor a solution. Our review of the literature indicates a wide range in students’ abilities toengage in engineering: in some instances, students demonstrate an “uncannycompetence” to resolve ambiguities and “exploit the open-ended situations in aproductive way,” (Roth, 1995, p. 378), while at others, they “can be unaware or unwaryof the potential for cascading complexity” (Crismond & Adams, 2012, p. 747).Our research on the Novel Engineering project reflects similar contrasts in studentengagement11, 23. For example, we have found that some students may consider multipledimensions of the design situation and develop optimal solutions for their clients17, whileothers

Conference Session

Curriculum Exchange

Collection

2015 ASEE Annual Conference & Exposition

Authors

Joi-lynn Mondisa, Purdue University, West Lafayette; Krystal S Corbett, Cyber Innovation Center

Tagged Topics

Diversity

Tagged Divisions

K-12 & Pre-College Engineering

, and Shake Table Survival. Engineering Design Process This process is used to guide students through the STEM EDA curriculum Build a prototype for the design chosen in Step 4 while encouraging teamwork, critical thinking, and creativity. and utilize the iterative nature of design. Test the prototype on the shake table and evaluate its performance. Reflect on the performance of the prototype and suggest improvements and redesigns of the

Conference Session

Curriculum Exchange

Collection

2015 ASEE Annual Conference & Exposition

Authors

Mary McCormick, Tufts University; Elissa C Milto, Tufts Center for Engineering Education and Outreach

Tagged Divisions

K-12 & Pre-College Engineering

other 21 Century Skills. • It meets common core and next generation science standards.More information and resources for implementation can be found at novelengineering.org. Page 26.1097.2 This project is funded by the National Science Foundation DRK-12 program, grant # DRL-1020243. Any opinion, findings,conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

Conference Session

High School Students Thinking and Performance

Collection

2012 ASEE Annual Conference & Exposition

Authors

Kurt Henry Becker, Utah State University; Nathan Mentzer, Purdue University, West Lafayette; Kyungsuk Park, Utah State University; Shaobo Huang, Utah State University - Engineering Education

Tagged Divisions

K-12 & Pre-College Engineering

Foundation for the Advancement of Teaching has prepared a series ofstudies including a focus on educating engineers 19. Sheppard’s research identified reflectivejudgment as an appropriate framework for understanding the cognitive development of designthinking. “As individuals develop mature reflective judgment, their epistemological assumptionsand their ability to evaluate knowledge claims and evidence and to justify their claims andbeliefs change” 19.King and Kitchener have identified seven stages of reflective thinking organized into threeclusters: pre- reflective thinking, quasi- reflective thinking, and reflective thinking 20. Results ofa ten-year longitudinal study of reflective judgment suggested that juniors in high school have acognitive

Conference Session

K-12 and Pre-College Engineering Division Curriculum Exchange

Collection

2014 ASEE Annual Conference & Exposition

Authors

Adrian Lee, Central Illinois Technology and Education Research Institute

Tagged Divisions

K-12 & Pre-College Engineering

use LEGOStoryVisualizer software to compose short stories depicting common engineering problems andtheir existing or potential solutions. Initially, LEGO StoryStarter components are used toconstruct scenes depicting a specific engineering problem (see topics below) along withillustrating a creative solution to that problem. Next, the students capture images of their sceneswith the aid of an inexpensively made light box. The images are then either imported into theLEGO StoryVisualizer software or sequenced using a stop motion application (e.g., SAMAnimation Software/myCreate, iMotion HD) to compose an artistic reflection upon the posedproblem. In addition, 7th and 8th grade girls are invited to help lead small groups by offeringguidance on the

Conference Session

Teacher and Counselor Professional Development

Collection

2010 Annual Conference & Exposition

Authors

Kenneth English, State University of New York, Buffalo; Deborah Moore-Russo, State University of New York, Buffalo; Thomas Schroeder, University at Buffalo-SUNY; Gilberto Mosqueda, University at Buffalo-SUNY; Sofia Tangalos, University at Buffalo-SUNY

Tagged Divisions

K-12 & Pre-College Engineering

used to elicit critical thinking and the application of mathematical conceptsas educators strove to develop a simulation of a physical phenomenon. As the participantsworked through the exercises, the engineering and education faculty pointed out opportunitiesfor reflection on the application of mathematics to solve the problem and asked questions toinitiate discussions of their experiences.One example activity focused on developing a mathematical model for water exiting from ahose. Participants discussed in class what they knew about the situation and what they wanted toknow when they conducted experiments with actual hoses outside. As students collected avariety of data to help develop the model, they wrestled with issues such as how to

Conference Session

New and Innovative Ideas

Collection

2012 ASEE Annual Conference & Exposition

Authors

Peter Thomas Malcolm, University of Virginia; Jennifer L. Chiu, University of Virginia; Edward Pan, University of Virginia; M. David Burghardt, Hofstra University

Tagged Divisions

K-12 & Pre-College Engineering

combined with a student-driven-inquiry teaching style16. Similarly, WISEngineering will incorporate non-linear onlinenavigation elements and will emphasize students’ deep exploration of content. Building upon these approaches, we developed WISEngineering to support authenticengineering design, to foster reflection through the documentation student work, as well as toencourage collaboration among peers.Supporting Authentic Engineering Design Learning from inquiry or design-based approaches depends on careful, appropriate choiceof tasks. Chinn and Malhotra17 define a continuum of scientific inquiry from simple to authentic,with school science often occurring on the simple end, involving over-simplifications and fewdecisions made by the

Conference Session

Women in K-12 Engineering

Collection

2009 Annual Conference & Exposition

Authors

Joy Watson, University of South Carolina; Jed Lyons, University of South Carolina

Tagged Divisions

K-12 & Pre-College Engineering

quickly, a modified problem was provided that forced the students toredesign their solutions. Student attitudes to the design problem solution process were assessedthough direct observations during the activity, and written reflective responses afterwards. Theresults indicate that most students were enthusiastic about developing their own in the scienceclassroom. An interesting aspect of this study is that it was conducted in four single gendereighth-grade classrooms: two classes of males and two of females. Classroom dynamics to theactivity were affected by the student demographics. Thus, this study contributes to ourunderstanding of male and female students’ creativity and approach to design processes.BackgroundMiddle school students do not

Conference Session

Exemplary Outreach Programs

Collection

2010 Annual Conference & Exposition

Authors

Lisa Pruitt, University of California, Berkeley; Eli Patten, University of California at Berkeley; Sara Atwood, University of California, Berkeley

Tagged Divisions

K-12 & Pre-College Engineering

Aspects of Biomaterials. As part of this course, the undergraduates participatein a semester-long project, entitled “Body by Design,” in collaboration with a children’s museumand a 5th grade elementary science class. At the start of the course, the undergraduates evaluatetheir own personal learning styles (active vs. reflective; intuitive vs. sensing; sequential vs.global; visual vs. verbal). Students are then matched up in groups of four with balanced learningstyles, major, and gender. The undergraduates are simultaneously enrolled in a skills laboratorythat provides a framework for oral and written communication, teamwork, and effective teachingstyles. Within this framework, the undergraduates are continually surveyed and assessed on

Conference Session

Thinking Outside the Box! Innovative Curriculum Exchange for K12 Engineering

Collection

2011 ASEE Annual Conference & Exposition

Authors

Nancy Healy, Georgia Institute of Technology; Joyce Palmer Allen, National Nanotechnology Infrastructure Network

Tagged Divisions

K-12 & Pre-College Engineering

see in soap bubbles and the ‘rainbow’ effect in some oil slicks are examples ofthis same thin film phenomenon. Closely related are the iridescent colors that appear on CDsand DVDs, and in some bird feathers, butterfly wings, and some beetles. These result from thematerial having a regular, repeated structural unit that is about the same size as the wavelength oflight – a few hundred nanometers.How does this work?Why does the clear liquid become a colorful film?As the small drop of liquid spreads out on the water, its thickness decreases to a few microns. (Amicron is one thousandth of a millimeter.) The bright iridescent colors in the film result from theinterference of light reflecting back from the top and bottom of this thin film.Most light

Conference Session

RET Initiatives

Collection

2013 ASEE Annual Conference & Exposition

Authors

Zornitsa Georgieva, West Virginia University; Reagan Curtis, West Virginia University; Tyler A Saenz Saenz, West Virginia University; Miracle David Solley, West Virginia University; Darran Cairns, West Virginia University

Tagged Divisions

K-12 & Pre-College Engineering

solutions.Teachers need to move away from guiding students to a correct answer and move towardemphasizing student engagement 24. The teacher’s focus should target encouragement of theirstudents’ own reflection on their reasoning as well as interpretation of problem situations 25.Contrary to current practices of warning students when they take a wrong step in their solutionefforts, teachers need to encourage students to focus on interpreting specific ideas and theirconnections to the problem at hand 26. This type of facilitation requires significant scaffoldingmechanisms for effective learning to take place 27. The new role of the teachers includescarefully selection, preparation, and implementation of those scaffolds 16, 28. Lack of sufficientguidance will

Conference Session

K-12 Professional Development II

Collection

2013 ASEE Annual Conference & Exposition

Authors

Gary R. Mayer, Southern Illinois University Edwardsville; Allison Jane Fahsl, Southern Illinois University Edwardsville; Stephen McCaire Marlette, Southern Illinois University Edwardsville; Georgia Bracey, Southern Illinois University, Edwardsville

Tagged Divisions

K-12 & Pre-College Engineering

through a systematic process inorder to choose one. This process, typically called the engineering design process, is applicableto many complex problems, whether or not the person trying to solve them is formally anengineer6-8. To capture and present the essence of the engineering design process, a modifiedversion of the approach presented in Engineering is Elementary® 9 was used (see Figure 1). ASK IMAGINE PLAN TEST CRE ATE IMPROVE REFLECT Figure 1: Engineering Design Process Presented for the ClassroomEngineering is Elementary® (EiE) presents an iterative process of Ask, Imagine, Plan

Conference Session

Engineering Professional Development for K-12 Teac

Collection

2008 Annual Conference & Exposition

Authors

Stephen Krause, Arizona State University; Robert Culbertson, Arizona State University; Marilyn Carlson, Arizona State University

Tagged Divisions

K-12 & Pre-College Engineering

solving, and engineering design is promoted usingteam-based, inquiry learning pedagogy with contextualized content in MSP-created modules.The unifying concept of function, developed in the initial Functions and Modeling course, isintegrated into science and engineering topics in the subsequent courses. Professional learning Page 13.241.2communities are supporting teachers in adapting their new knowledge and instructionalapproaches to their own classroom practice by engaging them in deep reflections on theirinstruction and their students' learning. Math, science and engineering are connected byknowledge and use of function. The concept of function

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

make informed decisions.The energy module, which has been taught (with several variations) for the last five years in ahigh school environmental science classroom, requires students to investigate the feasibility ofvarious propulsion/fuel system technologies for use in vehicular transportation, including forexample hydrogen fuel cells, biofuels with internal combustion engines, and electric cars. Asshown in Table 1, the specific questions posed to the students and the final deliverables havechanged throughout the years to most accurately reflect current and relevant transportation fueland vehicle issues in the news. For example, in President G.W. Bush’s 2003 State of the Unionaddress, he promoted the concept of the Hydrogen Economy, while in

Conference Session

Principles of K-12 Engineering Education and Practice

Collection

2014 ASEE Annual Conference & Exposition

Authors

Michelle E. Jordan , Arizona State University

Tagged Divisions

K-12 & Pre-College Engineering

efforts, structuring student engagement through individual designjournals, product design worksheets, and individual reflection questions. She also instigatedclassroom talk structures to facilitate learning through peer interaction in small-group and whole-class settings. These included structures such as group wikis7; five-minutes “stop-and-talks”, and– most importantly for this paper – public design critique sessions in which each group presentedtheir progress and received feedback from their teacher and classmates.Design critique sessions, also called design briefs, are one avenue through which the broadersocial context can exert influence on group-work processes of young designers. Design critiquesessions provide opportunities for teams to

Conference Session

Fundamental: Tools and Content for K-12 Engineering Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Matthew Moorhead, NYU Polytechnic School of Engineering; Jennifer B Listman, NYU Polytechnic School of Engineering; Vikram Kapila, NYU Polytechnic School of Engineering

Tagged Topics

Diversity

Tagged Divisions

K-12 & Pre-College Engineering

, larger-scale, quantitative scientific studies. Brown4points out that criteria against which to measure success of interventions or guide iterations ineducational DBR should consist of development of traits which the school system is chargedwith teaching, e.g., problem solving, critical thinking, and reflective learning.In this paper, we test the hypothesis that the flexibility and hands-on nature of a roboticsplatform will support different audio, visual, verbal (read/write), and kinesthetic learningstyles,5,6 offering teachers more versatility within lesson plans while effectively teaching STEMconcepts to students. Despite a lack of agreement7 within the education research communityregarding categories or, in some cases, the existence of

Conference Session

Research on Diversification & Inclusion

Collection

2015 ASEE Annual Conference & Exposition

Authors

Michael Brewer, University of Georgia; Nicola Sochacka, University of Georgia; Joachim Walther, University of Georgia

Tagged Divisions

K-12 & Pre-College Engineering, Liberal Education/Engineering & Society, New Engineering Educators, Student, Women in Engineering

. Joachim Walther, University of Georgia Dr. Walther is an assistant professor of engineering education research at the University of Georgia (UGA). He is a director of the Collaborative Lounge for Understanding Society and Technology through Educational Research (CLUSTER), an interdisciplinary research group with members from engineering, art, educational psychology and social work. His research interests range from the role of empathy in engineering students’ professional formation, the role of reflection in engineering learning, and interpretive research methodologies in the emerging field of engineering education research. His teaching focuses on innovative approaches to introducing systems thinking and

Conference Session

It's Elementary

Collection

2013 ASEE Annual Conference & Exposition

Authors

Chrissy Hobson Foster, Arizona State University; Jenefer Husman, Arizona State University; Christine Mendoza

Tagged Divisions

K-12 & Pre-College Engineering

moreaccurately reflect the work of scientists and engineers1,2. However, K-12 science education willalso have to reform and support the work of engineering education if improvements in thescience classroom are to be made.In response to this, A Framework for K-12 Science Education: Practices, Crosscutting Concepts,and Core Ideas has been developed by the Carnegie Corporation of New York and the NationalResearch Council and represents a new conceptual framework for science education. Theimpetus for this project stems from the growth of knowledge of science, increased understandingof the learning and teaching of science, and the need for scientific and engineering practices tobe represented in the science classroom. The framework is organized within three

Conference Session

Engineering Professional Development for K-12 Teachers – I

Collection

2007 Annual Conference & Exposition

Authors

R. Mark Nelms, Auburn University; Regina Halpin, Program Evaluation and Assessment

Tagged Divisions

K-12 & Pre-College Engineering

and the angle of inclination was measured using a protractor. 3) Measure the direct and diffuse solar radiation as discussed earlier in the afternoon. Again, the open-circuit voltage of the solar panel was measured with the multimeter and utilized to examine the amount of direct and diffuse solar radiation. 4) Measure the amount of solar radiation reflected from the ground. Again, the open-circuit voltage was utilized to study how much solar radiation is reflected from the ground. 5) Hook up the electric motor on the car and operate the car on solar power.After the afternoon tasks were completed, the teachers reconvened and discussed their resultsand how the content could be integrated into their middle school

Conference Session

Thinking Outside the Box! Innovative Curriculum Exchange for K12 Engineering

Collection

2011 ASEE Annual Conference & Exposition

Authors

John C. Bedward, North Carolina State University; Eric N. Wiebe, North Carolina State University; Lauren Madden, North Carolina State University

Tagged Divisions

K-12 & Pre-College Engineering

teacher scientific representational practices during STEM-basedelementary technology and science instruction. Many elementary schools make use of inquiry-based science kit curriculum2‐4 that supports standards-based STEM instruction. Theprofessional development was designed to enhance the use of these high-quality curriculummaterials. Through multiple modes of data collection—including classroom observations,photographing student science notebook pages, and teacher and student interviews— a research-based strategy to enhance student learning around core STEM concepts has emerged. Arecognition that professional development is cumulative and reflective, a number of cycles offormal workshops, classroom observations, interviews and analysis of

Conference Session

Assessment of K-12 Engineering Programs and Issues

Collection

2009 Annual Conference & Exposition

Authors

Doug Kueker, Vivayvic; Pam Newberry, Project Lead the Way

Tagged Divisions

K-12 & Pre-College Engineering

made complex because there are multiple viewpoints from which one mayexamine a curriculum. Porter25, 26 (2002, 2004) makes distinctions regarding the four levels atwhich curricula analysis may occur. Table 1 reflects the focus of curricula analysis at each of thefour levels.Table 1. Primary Focus of Curricula Analysis at Each Dimension of a Curriculum Level Primary Focus of Curricula Analysis Intended Curriculum Analysis is concerned with examining the content (e.g., declarative, procedural, tactile, and situative knowledge) and the performance expectations, which is the level at which a student is expected to know and use the

Conference Session

K-12 & Pre- College Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Danial J. Neebel PE, Loras College

Tagged Divisions

K-12 & Pre-College Engineering

program presents STEM Integrated STEM Education MastersEducation as appropriate for all students, not just program.the best and brightest.The faculty in the Integrated STEM program are from the education, biology, chemistry,engineering, computer science, and mathematics programs. The vast majority of the curriculumis delivered online. Courses are listed in Figure 1. There is not a division between content basedcourses and methods courses. Application is stressed in each course. Students reflect upon howwhat they are learning can help improve their own curricula and teaching. Although, somecourses are team taught, the course presented hear is not.The Robotics Engineering CourseThe Robotics Engineering course is

Conference Session

K-12 and Pre-College Engineering Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Bradley Bowen, North Dakota State University

Tagged Divisions

K-12 & Pre-College Engineering

collectquantitative data about the teachers' classroom practices. The questions for the survey wereadapted from the Scientific Work Experience for Teachers (SWEPT) Multisite StudentOutcomes Study.[5] The SWEPT Multisite Student Outcomes Study was conducted as part of anNSF Grant to research the effects of authentic research experiences for K-12 teachers.[5] Thesurveys used in that study consisted of questions that covered a more broad range of topics aboutteacher classroom practices and student engagement, a lot of which revolved around science. Theresearcher in the current study adapted the questions to reflect a focus on the engineering designprocess, as well as reorganizing some of the questions into STEM practice and conceptcategories. The researcher

Conference Session

Special Session: Moving Towards the Intended, Explicit, and Authentic: Addressing Critical Misalignments in Engineering Learning within Secondary and University Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Kevin Anderson, University of Wisconsin, Madison; Sandra Shaw Courter, University of Wisconsin, Madison; Mitchell J. Nathan, University of Wisconsin, Madison; Amy C. Prevost, University of Wisconsin, Madison; Christine G. Nicometo, University of Wisconsin, Madison; Traci M. Nathans-Kelly, University of Wisconsin, Madison; Thomas Dean McGlamery, University of Wisconsin, Madison; Amy K. Atwood, University of Wisconsin, Madison

Tagged Divisions

Educational Research and Methods, K-12 & Pre-College Engineering, Liberal Education/Engineering & Society

and Self-Objectives; examinations) Assessment andPresentations) Self-Reflection Items)In the set up to the Are students Are the students Is the teacherlesson or within the directed to actively assessed in a way presented withmaterials presented connect math and that allows them to materials in trainingduring the lesson, science concepts to demonstrate that wouldare math and science engineering connections of math explicitly connectconcepts explicitly concepts in their and science

Conference Session

K-12 and Pre-College Engineering Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Carol Shields, Stevens Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

Curriculum Content Standard 9.1: 21st Century Life and Career Skills describes skillsthat prepare students to engage fully in civic and work life. The standard includes six strands,which reflect the Framework for 21st Century Learning. 4 For the purpose of this study and asmentioned above, we are focusing on the skills of collaboration and communication, although itis expected that engaging the students in a variety engineering activities will also improve theirability to think critically and solve problems. That topic will be addressed in a larger study of allof the students whose teachers are part of the NSF funded PISA2.Partner ClassThe partner school is located in Jersey City, the state’s second largest city. The school districthas 28,218

Conference Session

Approaches to K -12 Engineering

Collection

2006 Annual Conference & Exposition

Authors

Michael Pelletier, Northern Essex Community College; Wayne Kibbe, Northern Essex Community College; Paul Chanley, Northern Essex Community College

Tagged Divisions

K-12 & Pre-College Engineering

operating systems were discussed, includingWindows 98, Windows 2000, and Windows XP. File management, virus protection, andbackup were also discussed. A hands-on lab exercise on configuring an operating systemwas performed.The final course topics were Basic AC Quantities, followed by Light Propagation, Snell’sLaw, and the Critical Angle of Reflection. These modules covered some of the contentfield of Applied Mathematics by using algebra, geometry, and trigonometry to solvetechnical problems. In addition, the content field of Science/Technology was introducedwith the discussions of fiber optics and light propagation. Engineering notation wasexplained, including the importance of representing very large and very small numbers ina systematic way

Conference Session

Engineering Professional Development for K-12 Teachers

Collection

2011 ASEE Annual Conference & Exposition

Authors

Leslie Wilkins, Maui Economic Development Board; Diana Papini Warren, Maui Economic Development Board; Frank R De Rego Jr., Maui Economic Development Board, Inc.; Kanesa Duncan Seraphin, University of Hawaii at Manoa

Tagged Divisions

K-12 & Pre-College Engineering

overview of the scientific inquiry process and explicitalignment to the state science standards. Interdisciplinary STEM connections are also outlined.Three modules are provided on the following topics: energy auditing, photovoltaic solar energy,and wind energy. Each module presents some background topical information for the teacher,however the theme is facilitating authentic inquiry by way of students getting hands on withresearch, building, designing, and testing right away. Student worksheets are in the form of labreports with hypothesis development sections that help students clearly establish and controlvariables, data collection tables to facilitate multiple trials, and sections to encourage reflection,analysis, conclusion development, and