Conference Session

Engineering Professional Development using Robotics Activities

Collection

2019 ASEE Annual Conference & Exposition

Authors

Abhidipta Mallik, NYU Tandon School of Engineering; Sheila Borges Rajguru, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering

Tagged Divisions

Pre-College Engineering Education

STEM Initiative (CBSI), funded by six phil- anthropic foundations, he has conducted significant K-12 education, training, mentoring, and outreach activities to integrate engineering concepts in science classrooms and labs of dozens of New York City public schools. He received NYU Tandon’s 2002, 2008, 2011, and 2014 Jacobs Excellence in Education Award, 2002 Jacobs Innovation Grant, 2003 Distinguished Teacher Award, and 2012 Inaugural Distin- guished Award for Excellence in the category Inspiration through Leadership. Moreover, he is a recipient of 2014-2015 University Distinguished Teaching Award at NYU. His scholarly activities have included 3 edited books, 9 chapters in edited books, 1 book review, 62 journal

Conference Session

Engineering Design Process Activities with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Austin C. Wong, The Cooper Union; George J. Delagrammatikas, The Cooper Union; Elizabeth M. Waters, The Cooper Union

Tagged Divisions

Pre-College Engineering Education

prototyping,microcontroller projects, 3D printing, laser cutting, and CAD. In 2018, the Makerspace sectionwas offered as an option out of ten sections at the Summer STEM program and differed fromprevious iterations of the curriculum because of the additional emphasis of Human CenteredDesign (HCD) to guide each student team’s design process. There are three primary goals in thisdocument to evaluate the 2018 Makerspace: 1) identifying how the curriculum fits withinexisting pedagogy, 2) depicting the organizational and teaching methods and 3) analyzing surveymethodology and responses to suggest trends and potential improvements.Background/Literature ReviewThe 2018 Makerspace section combined various design processes to reinforce the Project

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Christina Anlynette Alston, Rice University; Carolyn Nichol, Rice University

Tagged Divisions

Pre-College Engineering Education

provides research opportunities to K-12 STEM teachers who serve economically disadvantaged students.The teachers who work with these populations are often the most unprepared for teaching engineering and thus can most benefit fromthe experience and impact their students. The program objectives consist of the following: 1) Use nanotechnology researchexperiences focused on water sustainability to enhance teacher content knowledge; 2) Improve the quality of secondary Science,Technology, Engineering and Mathematics (STEM) education through the development of student-centered lessons and activities; 3)Create a cadre of teacher leaders; and 4) Disseminate NEWT RET outcomes broadly by creating a network of teachers that areactively learning about

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Annmarie Thomas, University of St. Thomas; Deborah Besser P.E., University of St. Thomas; Jenna Laleman, University of St. Thomas; Maria Baklund, University of St. Thomas; MiKyla Jean Harjamaki, Playful Learning Lab; Esmée Verschoor, Playful Learning Lab

Tagged Divisions

Pre-College Engineering Education

Conference Session

Informal Engineering Education with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Schetema Nealy, University of Nevada, Las Vegas; Erica J. Marti, University of Nevada, Las Vegas

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

participants, yet no statisticallysignificant change in the learning mindset of the participants.Keywords: engineering pathways, career paths, STEM, underrepresented students, grit, growthmindset, high schoolIntroductionThe need for a more diverse STEM workforce has been established as a national concern for theUnited States [1], [2]. An effort toward making science accessible to all students needs to bemade in order to increase the representation of underrepresented groups in science fields of study[3]. With the implementation of the Next Generation Science Standards, there is also a push toincrease the visibility and understanding of engineering at the K-12 level in order to preparestudents for 21st century jobs [4], [5].One major roadblock for

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Annmarie Thomas, University of St. Thomas; Deborah Besser P.E., University of St. Thomas; Matthew Schmidtbauer, Squishy Circuits Store LLC; Maria Baklund, Playful Learning Lab; MiKyla Jean Harjamaki, Playful Learning Lab; Esmée Verschoor, Playful Learning Lab

Tagged Divisions

Pre-College Engineering Education

doughs, Bi-pin LED light bulbs, Battery packs, Motors, Switches, and *Buzzers. *optional - may impact cochlear implantStandardsScience Standards (NGSS):K-2-ETS1-1 Ask questions, make observations, and gather information about a situation people want tochange to define a simple problem that can be solved through the development of a new or improvedobject or tool.3-5-ETS1-2 Generate and compare multiple possible solutions to a problem based on how well each islikely to meet the criteria and constraints of the problem.3-PS2-3. Ask questions to determine cause and effect

Conference Session

Engineering Design Process Activities with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jessica D. Gale, Georgia Institute of Technology; Meltem Alemdar, Georgia Institute of Technology; Roxanne Moore, Georgia Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

Engineering Education, 2019 Students’ Experience with Collaborative Engineering Design Challenges in a Middle School Engineering Course (Evaluation)IntroductionThe recent emergence of engineering as a curricular priority in K-12 schools has spurred thedevelopment and implementation of new approaches for engaging students of all ages in theengineering design process [1]. With this increased prominence of engineering as a K-12discipline, education researchers have begun to explore the outcomes of engineering educationin the context of K-12 schools. One review of P-12 engineering students from 2000 - 2015documented an increase in engineering education research during this period, highlighting anumber of themes within the literature

Conference Session

Best Practices in Out-of-School Time

Collection

2019 ASEE Annual Conference & Exposition

Authors

Tawni Paradise, Virginia Tech; Ashley R. Taylor, Virginia Tech; Kim Lester, Virginia Tech; Karis Boyd-Sinkler, Virginia Tech; Bevlee A. Watford, Virginia Tech

Tagged Divisions

Pre-College Engineering Education

Methodological Approach for Evaluating Pre-College Outreach (RTP)Overview This research is focused on engineering outreach programs designed for elementary,middle and high school students that have not yet started college. For the purposes of thisresearch, we looked specifically at the engineering outreach programs offered through CEED(Center for the Enhancement of Engineering Diversity) on the campus of Virginia TechUniversity. This paper is part of a larger research study aiming to concurrently (1) evaluatestakeholder perceptions of the outreach programs offered by CEED and (2) to evaluate theeffectiveness of the systems thinking process/methodology that was used in this research. With agrowing number of pre-college

Conference Session

Engineering Professional Development using Robotics Activities

Collection

2019 ASEE Annual Conference & Exposition

Authors

Hye Sun You, NYU Tandon School of Engineering; Sonia Mary Chacko, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering

Tagged Divisions

Pre-College Engineering Education

, and 2012 Inaugural Distin- guished Award for Excellence in the category Inspiration through Leadership. Moreover, he is a recipient of 2014-2015 University Distinguished Teaching Award at NYU. His scholarly activities have included 3 edited books, 9 chapters in edited books, 1 book review, 62 journal articles, and 154 conference pa- pers. He has mentored 1 B.S., 35 M.S., and 5 Ph.D. thesis students; 58 undergraduate research students and 11 undergraduate senior design project teams; over 500 K-12 teachers and 118 high school student researchers; and 18 undergraduate GK-12 Fellows and 59 graduate GK-12 Fellows. Moreover, he di- rects K-12 education, training, mentoring, and outreach programs that enrich the STEM

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Colin Dixon, Concord Consortium; Corey T. Schimpf, The Concord Consoritum; Sherry Hsi, Concord Consortium

Tagged Divisions

Pre-College Engineering Education

. Figure 1: Assembled Card-board microcontroller, front (left) and back (right). Actual size 2x3 in. Figure 2: Circuit schematic (actual size) for printing on laser cutter or standard printer Grade Task Estimated Time Level Middle ● Assemble, solder, and test 3 hours or 3 class periods school microcontrollers using ● Cut and strip wires and assemble circuit boards (2 potentiometers hours) ● Solder (1 hour, depending on prior experience) High ● Fabricate, assemble, solder, and 4 hours school program a microcontroller with ● Cut and strip wires and

Conference Session

Pre-College Engineering Education in the Formal Classroom

Collection

2019 ASEE Annual Conference & Exposition

Authors

Cara N. Morton, Washington State University; Kira J. Carbonneau, Washington State University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

, 2003). Secondly, studies indicate self-efficacy as a positive predictor of academicperformance (Bandura, 1997; Schunk, 1991; Bruning, Dempsey, Kauffman, McKim, &Zumbrunn, 2013; Sanders-Reio, Alexander, Reio, & Newman, 2014) as well as long-termachievement (Parker et. al., 2014). Self-efficacy is domain and task specific. The following section specifically discussesself-efficacy in science: 1) the established positive relationship between science self-efficacy andachievement in science; 2) factors that impact science self-efficacy, specifically prior successesand modeling of behaviors in academic settings; and 3) gender differences regarding therelationship between sources of self-efficacy and science self-efficacy.Science Self

Conference Session

Engineering Design Process Activities with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Matthew J. Traum, Engineer Inc.; Sharon Liz Karackattu, Oak Hall School

Tagged Divisions

Pre-College Engineering Education

and Tapping) in High School Science ClassroomsAbstractShop classes where students use tools to fashion useful and functional objects from metal, wood,plastic, and other materials are disappearing from most American high schools in favor of moretheoretical subjects. Multiple factors contribute to this transition including 1) cost to maintainshops, 2) liability concerns, 3) focus on exam-driven standards-based testing, 4) and curriculumrealignment for improved college admissions. There is interest in re-introducing elements ofshop class back into high schools enabling students to learn by doing and to become more awareof how things are made.Borrowing upon foundational Energy Engineering Laboratory Module (EELM™) pedagogy

Conference Session

Informal Engineering Education with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Marcelo Caplan, Columbia College, Chicago; Evelyn Oropeza, Columbia College, Chicago

Tagged Divisions

Pre-College Engineering Education

Paper ID #25038The STEAM Conference: An Event to Promote Youth to Explore STEAM-related Fields and Potential CareersMr. Marcelo Caplan, Columbia College, Chicago Marcelo Caplan - Associate Professor, Department of Science and Mathematics, Columbia College Chicago. In addition to my teaching responsibilities, I am involved in the outreach programs and activities of the department. I am the coordinator of three outreach programs 1) the NSF-ISE project ”Scientists for To- morrow” which goal is to promote Science Technology Engineering and Mathematics (STEM) learning in community centers in the Chicago area, 2) the Junior

Conference Session

Engineering Design Process Activities with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jessica D. Gale, Georgia Institute of Technology; Beth Ann White

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

socio-cultural dimensions of pre-college engineering education. She received her M.A. and Ph.D. in Educational Studies from Emory University.Ms. Beth Ann White c American Society for Engineering Education, 2019 The Tiny House Project: Building Engineering Proficiency and Self-Efficacy through Applied Engineering at the High School Level (Evaluation)IntroductionOne of the commonly cited benefits of engaging K-12 students in engineering is the potential forstudents to identify and work to solve authentic real-world problems [1], [2], [3]. In their recentelucidation of a set of epistemic practices of engineering, Cunningham & Kelly highlight theimportance of contextualizing engineering

Conference Session

Best Practices in Out-of-School Time

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jean S. Larson, Arizona State University; Megan O'Donnell; Wendy M. Barnard, Arizona State University; Alison Cook-Davis, Arizona State University; Adam R. Carberry, Arizona State University; Stephanie B. Adams

Tagged Divisions

Pre-College Engineering Education

underrepresentedpopulations; and partner with industry to achieve their vision [1-2].Some of the challenges associated with these educational programs include organization,available manpower, and evaluation. Representatives from three ERCs and one NNCI NetworkNode, in collaboration with their external evaluation teams, have established a consortium tobetter address these challenges. The assembled consortium is uniquely situated to cooperativelytackle these challenges because they are co-located at the same university. The members havetaken advantage of their proximity by meeting regularly to establish joint educational andresearch efforts, resource sharing, and consistent evaluation tools.This paper focuses on a single joint outreach effort undertaken by the

Conference Session

Engineering Design for Elementary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Hoda Ehsan, Purdue University-Main Campus, West Lafayette (College of Engineering); Monica E. Cardella, Purdue University-Main Campus, West Lafayette (College of Engineering)

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

learningactivities.This study is a part of a bigger project in which we aim to characterize engineering thinking ofchildren with autism. In this study, we are closely looking at the first and very importantengineering practices; problem scoping. The main purpose of this study is to investigate how 8-10 years old children with autism engage in problem scoping. We focused on three maincomponents of problem scoping in engineering design (1) Problem Framing, (2) InformationGathering, and (3) Reflection.For this study, we have conducted a qualitative single case study analysis. We carefully chosenone case of child with autism. The child is make and 9 years old and participated in this studywith his parent. They were asked to solve an engineering problem of building a

Conference Session

Pre-College Engineering Education in the Formal Classroom

Collection

2019 ASEE Annual Conference & Exposition

Authors

Shramana Ghosh, NYU’s Tandon School of Engineering; Sheila Borges Rajguru, NYU’s Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering

Tagged Divisions

Pre-College Engineering Education

Distinguished Teaching Award at NYU. His scholarly activities have included 3 edited books, 9 chapters in edited books, 1 book review, 62 journal articles, and 154 conference pa- pers. He has mentored 1 B.S., 35 M.S., and 5 Ph.D. thesis students; 58 undergraduate research students and 11 undergraduate senior design project teams; over 500 K-12 teachers and 118 high school student researchers; and 18 undergraduate GK-12 Fellows and 59 graduate GK-12 Fellows. Moreover, he di- rects K-12 education, training, mentoring, and outreach programs that enrich the STEM education of over 1,000 students annually. c American Society for Engineering Education, 2019Investigating Classroom-related Factors that

Conference Session

Engineering Design for Elementary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Pamela S. Lottero-Perdue Ph.D., Towson University; Ming C. Tomayko, Towson University

Tagged Divisions

Pre-College Engineering Education

exclusively in those states that have adopted the Next Generation ScienceStandards, which include engineering performance expectations at all grades [1]. Aside from itsinclusion in the NGSS, there are many reasons for even the youngest K-12 students to learn toengineer. Engineering is motivating for students, engages their creativity, introduces them toengineering careers and helps to reinforce and apply scientific and mathematical knowledge [2-5]. Engineers and K-12 students alike use iterative engineering design processes to solveproblems [3, 6-8]. The designed solution to a problem is often an object (e.g., a bridge), but canalso be a system or process. In the early part of design processes, students: define the problem;consider relevant knowledge

Conference Session

Best Practices in Research & Assessment Tools for Pre-College Engineering Education

Collection

2019 ASEE Annual Conference & Exposition

Authors

Cathy P. Lachapelle, Museum of Science, Boston; Christine M. Cunningham, Museum of Science, Boston

Tagged Divisions

Pre-College Engineering Education

evaluating the implementation of an engineering curriculum, it’s important to be able tomeasure the fidelity with which the curriculum is implemented by teachers. In this paper, wedescribe our instruments for and approaches to measuring fidelity of implementation of anelementary school engineering curriculum, and give evidence for reliability and validity of use ofthese instruments for an efficacy study of the curriculum. The most important instruments are theengineering lesson implementation logs, for which teachers were prompted to indicate (1) whichportions of each engineering lesson they completed; (2) the duration and date of each lesson; and(3) indications of how they taught each portion of the lesson, to measure whether teachers wereusing a

Conference Session

Communication in Pre-College Engineering Education

Collection

2019 ASEE Annual Conference & Exposition

Authors

Ashley R. Strong, Utah State University; Amy Wilson-Lopez, Utah State University

Tagged Divisions

Pre-College Engineering Education

civil engineer. You want to decide what information’s important in that reading. Highlight it.” While Don used some of the same strategies as Allen, such as highlighting and annotating, his instructions were closely tied to the problem students were trying to solve. Rather than framing the reading as a way to comprehend information, Allen framed the reading as a way to use information. Table 1 summarizes both teachers’ reading perceptions and practices.Table 1Perceptions and Practices of Reading Allen DonDefinition of Independent practice of decoding Social practice of making meaningreading traditional texts from traditional and non

Conference Session

Engineering Professional Development using Robotics Activities

Collection

2019 ASEE Annual Conference & Exposition

Authors

Shramana Ghosh, NYU Tandon School of Engineering; Veena Jayasree Krishnan, NYU Tandon School of Engineering; Sheila Borges Rajguru, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

scholarly activities have included c American Society for Engineering Education, 2019 Paper ID #252753 edited books, 9 chapters in edited books, 1 book review, 62 journal articles, and 154 conference pa-pers. He has mentored 1 B.S., 35 M.S., and 5 Ph.D. thesis students; 58 undergraduate research studentsand 11 undergraduate senior design project teams; over 500 K-12 teachers and 118 high school studentresearchers; and 18 undergraduate GK-12 Fellows and 59 graduate GK-12 Fellows. Moreover, he di-rects K-12 education, training, mentoring, and outreach programs that enrich the STEM education of over1,000 students annually

Conference Session

Computational Thinking in Pre-College Engineering

Collection

2019 ASEE Annual Conference & Exposition

Authors

Carson Ohland, Purdue University, West Lafayette; Hoda Ehsan, Purdue University, West Lafayette; Monica E. Cardella, Purdue University, West Lafayette

Tagged Divisions

Pre-College Engineering Education

, constructing knowledge, and solving problems [1].However, research has shown that undergraduate engineering students engage in limitedinformation gathering while working on engineering design tasks [2], suggesting that they mayneed to 'relearn' the question asking they naturally engaged in as children. At the same time,interest in engineering at the undergraduate level is often fostered through childhoodparticipation in engineering activities. Some argue that by the time children reach middle school,their interests and perceptions towards their future careers are established [3]. Therefore, whenchildren lack access to opportunities to learn about engineering in pre-college settings, thisresults in limited understanding about engineering and

Conference Session

Pre-College Engineering Education Focused on Female Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jeanna R. Wieselmann, University of Minnesota; Emily Anna Dare, Florida International University; Gillian Roehrig, University of Minnesota; Elizabeth Ring-Whalen, St. Catherine University

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

contexts through an online platform. c American Society for Engineering Education, 2019 Participation in Small Group Engineering Design Activities at the Middle School Level: An Investigation of Gender DifferencesIntroductionAs demand for expertise in science, technology, engineering, and mathematics (STEM)continues to increase, STEM education is of growing concern in the United States and around theworld. With ongoing calls for improvements to K-12 STEM education [1], [2], pre-collegeengineering experiences are becoming increasingly common. The Framework for K-12 ScienceEducation [2] and Next Generation Science Standards [3] include engineering practices withinthe scope of science, indicating that

Conference Session

Bridge Programs Connecting to First-Year Engineering

Collection

2019 ASEE Annual Conference & Exposition

Authors

Amanda Simson, The Cooper Union; Laura C. Broughton, City University of New York, Bronx Community; Elizabeth J. Biddinger, City College of the City University of New York

Tagged Topics

Diversity

Tagged Divisions

First-Year Programs, Pre-College Engineering Education

’ confidence in chemistry, engineering andcomputer skills increased as a result of the course. The most significant increases were observedin engineering skills because initial confidence levels in this area were low. A majority ofstudents reported increased interest in STEM fields and 100% of students (during the 2018cohort) reported that increasing their confidence in science, math and engineering contributed tothis intensified interest. This program evaluation reviews the program’s objectives, format,teaching tools, student feedback and plans for future programming and assessment.IntroductionThe need for STEM-educated workers is long-standing and well-established [1, 2]. The USgovernment has responded by encouraging the development of a STEM

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jeannine Finton, American Society Of Civil Engineers; Keliann LaConte, STAR Net/Space Science Institute ; Jennifer Jocz, Education Development Center

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

partnered with public libraries to conductengineering activities with children in grades 2-5. This partnership enhances the capacity of thelibrarians to conduct hands-on engineering, provides role models to children, and builds the ability ofthe engineers to inspire children. Project BUILD libraries offer a variety of programs that maximizelearning in the library setting: they are social events that directly engage caregivers; center on creativity;and encourage children to try again through the Engineering Design Process.Additional InformationProject BUILD is a National Science Foundation-funded project. In Project BUILD, librarians conduct 1 – 2hour programs for children in grades 2-5 once a month for 4 months, with engineers from the

Conference Session

Energy & Technology in Pre-College Engineering Education

Collection

2019 ASEE Annual Conference & Exposition

Authors

Michelle Jordan, Arizona State University; Wendy Wakefield, Arizona State University; Mia Delarosa, Arizona State University; Clark Miller, Arizona State University; Carlo Altamirano-Allende

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

differences in such factors as climate, natural resources, and economic conditions. Thus, technology use varies from region to region and over time (MS-ETS1-1). ● New technologies can have deep impacts on society and the environment, including some that were not anticipated. Analysis of costs and benefits is a critical aspect of decisions about technology (HS-ETS1-1 and 1-3).Yet, helping youth understand the complexities of sociotechnical issues in engineering is nosmall feat, and teachers and researchers alike struggle to support students’ understanding of themultiple and multi-faceted factors involved in implementing engineered solutions to address ahuman need or desire. Nonetheless, failing to do so at best limits students

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Stephany Coffman-Wolph, University of Texas, Austin; Kimberlyn Gray, West Virginia University Institute of Technology

Tagged Divisions

Pre-College Engineering Education

this project is to teach students to understand basiccryptography techniques, how cryptography is used in protecting sensitivedata, understand the basics of Internet hygiene, and how social engineeringcan be used to steal your identity. The lesson is broken into 3 activities: (1) ModernSubstitution Ciphers: Caesar Cipher and other Basic Ciphers, (2) Modern Encryption:Encryption: Public-Key, and (3) Social Engineering: Mortimer’s Social Public-KeyMedia. In the Substitution Cipher activity, students will learn to use simple Introduction to Public

Conference Session

Informal Engineering Education with Secondary Students

Collection

2019 ASEE Annual Conference & Exposition

Authors

Joel Alejandro Mejia, University of San Diego; Vitaliy Popov, University of San Diego; Victoria Rodriguez; Damian Ruiz, San Diego State University; Perla Lahana Myers, University of San Diego; Odesma Onika Dalrymple, University of San Diego; Joi A. Spencer, University of San Diego

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

[1-4]. Particularly, this interest has been motivated by the need to increase thenumber of underrepresented students in STEM programs. The National Science Foundation,along with other national agencies, have discussed the importance of bringing more students withdiverse backgrounds into STEM fields in order to encourage inclusion and close the achievementgap [5-8].One way to attract students to STEM is through informal learning environments and experiencesthat “can kick-start and sustain long-term interests that involve sophisticated learning” [9].Informal learning environments have become common due to different reasons. For example,these summer enrichment programs are seen as programs that "help" students become moreinterested in STEM

Conference Session

Professional Development for Pre-Service and In-Service Teachers

Collection

2019 ASEE Annual Conference & Exposition

Authors

Sylvia W. Thomas, University of South Florida; Scott W. Campbell, University of South Florida; Manopriya Devisetty Subramanyam, University of South Florida; Cheryl R. Ellerbrock, University of South Florida

Tagged Topics

Diversity

Tagged Divisions

Pre-College Engineering Education

, mathematically, and technologically literate populace” is the effective integration oftechnology and engineering in K-12 curricula. Key to this process is current teachers, and evenmore critical, future teachers (pre-service). This work is particularly interested in the engineeringtraining of pre-service teachers during their engagement with middle school students, theirunderstanding of their role in strengthening the engineering pipeline, and their development ofSTEM lesson plans. Engineering faculty instruct pre-service teachers to explore STEM issues ina capstone course entitled “Contemporary STEM Issues”. Successes and challenges of the courseare presented relative to 1) pre-service teachers’ preparation (through a capstone course) toeffectively

Conference Session

PCEE Resource Exchange

Collection

2019 ASEE Annual Conference & Exposition

Authors

Annmarie Thomas, University of St. Thomas; Deborah Besser P.E., University of St. Thomas; Paige Huschka, Playful Learning Lab; Hannah French; MiKyla Jean Harjamaki, Playful Learning Lab; Maria Baklund, University of St. Thomas; Esmée Verschoor, Playful Learning Lab

Tagged Divisions

Pre-College Engineering Education

designed to solve the same problemto compare the strengths and weaknesses of how each performs.1-PS4-1 Plan and conduct investigations to provide evidence that vibrating materials canmake sound and that sound can make materials vibrate.2-PS1-1 Plan and conduct an investigation to describe and classify different kinds ofmaterials by their observable properties.2-PS1-2 Analyze data obtained from testing different materials to determine whichmaterials have the properties that are best suited for an intended purpose.*4-PS4-3 Generate and compare multiple solutions that use patterns to transferinformation.5-PS1-3 Make observations and measurements to identify materials based on theirproperties.MATERIALS