Conference Session

Focus on Elementary

Collection

2012 ASEE Annual Conference & Exposition

Authors

Elizabeth A. Parry, North Carolina State University; Emily George Hardee, Brentwood Magnet Elementary School of Engineering; Lizette D. Day, Rachel Freeman School of Engineering

Tagged Divisions

K-12 & Pre-College Engineering

AC 2012-4900: DEVELOPING ELEMENTARY ENGINEERING SCHOOLS:FROM PLANNING TO PRACTICE AND RESULTSElizabeth A. Parry, North Carolina State University Elizabeth Parry is an engineer and consultant in K-12 STEM (science, technology, engineering, and math- ematics) Curriculum and Professional Development and the Coordinator of K-20 STEM Partnership De- velopment at the College of Engineering at North Carolina State University. For the past 15 years, she has worked extensively with students from kindergarten to graduate school, parents, and pre-service and in-service teachers to both educate and excite them about engineering. As the Co-PI and Project Director of a National Science Foundation GK-12 grant, Parry developed a

Conference Session

Assessment of K-12 Engineering Programs and Issues

Collection

2008 Annual Conference & Exposition

Authors

John Carpinelli, New Jersey Institute of Technology; Howard Kimmel, New Jersey Institute of Technology; Linda Hirsch, New Jersey Institute of Technology; Levelle Burr-Alexander, New Jersey Institute of Technology; Ronald Rockland, New Jersey Institute of Technology; Mark OShea, CSU Monterey Bay

Tagged Divisions

K-12 & Pre-College Engineering

Engineering Education, 2008 A Rubric to Evaluate Standard-Based Lesson Plans and Students’ Achievement of the StandardAbstractStandards-based lesson plans requires a different way of planning that includes an alignment ofstudent work expectations and classroom assessments to the standards and the learningobjectives and expected outcomes of the lesson, and establishment of criteria by which it can bedetermined whether students have achieved the particular standard or indicator. Teachers needto learn how to align their teaching practices with the state content standards and how to developand implement standards-based lesson plans. A rubric has been developed to evaluate teachers’standards-based lesson plans based a

Conference Session

Infusing Engineering Content Through Curricular Innovation

Collection

2009 Annual Conference & Exposition

Authors

Emily Wischow, Purdue University; Lynn Bryan, Purdue University; George Bodner, Purdue University

Tagged Divisions

K-12 & Pre-College Engineering

AC 2009-1040: TEACHERS’ IMPLEMENTATION OF NANOSCALE SCIENCEAND ENGINEERING INTO THE SECONDARY CLASSROOM: A LESSON PLANANALYSISEmily Wischow, Purdue UniversityLynn Bryan, Purdue UniversityGeorge Bodner, Purdue University Page 14.1122.1© American Society for Engineering Education, 2009 Teachers’ Implementation of Nanoscale Science and Engineering into the Secondary Classroom: A Lesson Plan AnalysisAbstractThis study presents an analysis of ten lesson plans created by teachers as a part of a professionaldevelopment program on nanoengineering, science, and technology conducted by the NationalCenter for Learning and Teaching in Nanoscale Science and Engineering (NCLT

Conference Session

Research Related to Learning and Teaching Engineering in Elementary Classrooms

Collection

2011 ASEE Annual Conference & Exposition

Authors

Merredith D. Portsmore, Tufts University; Bárbara M. Brizuela, Tufts University, Education Department

Tagged Divisions

K-12 & Pre-College Engineering

AC 2011-1780: FIRST GRADE STUDENTS PLANNING AND ARTIFACTCONSTRUCTION WHILE WORKING ON AN ENGINEERING DESIGNPROBLEMMerredith D Portsmore, Tufts University Merredith Portsmore is a Research Assistant Professor in Education at Tufts University as well as the Director of Outreach Programs for Tufts Center for Engineering Education and Outreach. Merredith has the unique honor of being a ”Quadruple Jumbo” having received all her four of her degrees from Tufts (B.A. English, B.S. Mechanical Engineering, M.A. Education, PhD in Engineering Education). Her research interests focus on how children engage in constructing solutions to engineering design problems. Her outreach work focuses on creating resources for K-12 educators

Conference Session

K-12 Engineering and Pre-College Outreach Poster Session

Collection

2007 Annual Conference & Exposition

Authors

Abhijit Nagchaudhuri, University of Maryland-Eastern Shore; Madhumi Mitra, University of Maryland-Eastern Shore

Tagged Divisions

K-12 & Pre-College Engineering

AC 2007-2757: TECHNOLOGY EDUCATION IN K-12: REVELATIONS FROMDESIGNING AND DELIVERING A ROBOTICS LESSON PLAN FORPRE-SERVICE TEACHERSAbhijit Nagchaudhuri, University of Maryland-Eastern Shore Abhijit Nagchaudhuri is currently a Professor in the Department of Engineering and Aviation Sciences at University of Maryland Eastern Shore. Prior to joining UMES he worked in Turabo University in San Juan , PR as well as Duke University in Durham North Carolina as Assistant Professor and Research Assistant Professor, respectively. Dr. Nagchaudhuri is a member of ASME, SME and ASEE professional societies and is actively involved in teaching and research in the fields of engineering mechanics, remote

Conference Session

Extending a Hand Back: Older Students Inspiring Younger Students

Collection

2011 ASEE Annual Conference & Exposition

Authors

AJ Almaguer, University of California, Berkeley; Roy Tangsombatvisit, University of California, Berkeley; Matthew Ford, University of California, Berkeley; Susan Yushan Chen, University of California, Berkeley, Berkeley Engineers and Mentors; Lisa A. Pruitt, University of California, Berkeley; Neil Ray, University of California, Berkeley

Tagged Divisions

K-12 & Pre-College Engineering

AC 2011-2368: BUILDING ENGINEERS AND MENTORS: A MODEL FORSTUDENT-LED ENGINEERING OUTREACHAJ Almaguer, UC Berkeley AJ Almaguer studied Mechanical Engineering and Material Science Engineering at the University of California, Berkeley. He was one of the founding members of BEAM.ROY TANGSOMBATVISIT, UC BerkeleyMatthew Ford, UC BerkeleySusan Yushan Chen, Berkeley Engineers and Mentors at the University of California, Berkeley I am a Bioengineering senior at UC Berkeley. I joined BEAM in my junior year because I have always wanted to mentor. I have since been working with BEAM as staff and mentor. I have also helped establish BEAM as a more prominent engineering outreach organization on campus. I plan to enroll in graduate

Conference Session

...by Design

Collection

2013 ASEE Annual Conference & Exposition

Authors

Amber Kendall, Tufts Center for Engineering Education and Outreach; Merredith D Portsmore, Tufts University

Tagged Divisions

K-12 & Pre-College Engineering

classrooms, withcomparisons across the three grade-levels and teaching styles. The interview and classroom datawere analyzed using a framework from Ainley and Luntley designed to identify the attentionalskills of mathematics teachers responding to student thinking.12 Ainley and Luntley’s theoreticalmodel of expert teaching practice contends that proficient lesson planning or Shulman’spedagogical content knowledge,13 for example, are not the only predictors of teaching skill; inorder to characterize a teacher’s performance minute by minute in the classroom, one canexamine her practice with regard to attention-dependent knowledge, through a framework forattentional skill produced by their study (found in Table 1).According to Ainley and Luntley

Conference Session

iSTEM

Collection

2013 ASEE Annual Conference & Exposition

Authors

Laura Bottomley, North Carolina State University; Elizabeth A Parry, North Carolina State University

Tagged Divisions

K-12 & Pre-College Engineering

://www.ncpublicschools.org/stem/. Therubrics include engineering connection rubrics which were developed by an engineering taskforce to highlight the vowel in STEM and illustrate how engineering can be used as an integratorfor STEM across the grade levels and across the curriculum.STEM Schools in Wake CountyA notable highlight of the state STEM initiative is Wake County, NC. This county, with almost150,000 students has named twenty schools to be integrated STEM schools. An additional,unknown, number have chosen to self-designate. The county has appointed a STEM advisorycommittee of school system, high education, business and industry representatives to guidepolicy and support for the implementation of these schools. The draft strategic plan for the

Conference Session

Research to Practice: STRAND 1 – Addressing the NGSS: Supporting K-12 Teachers in Engineering Pedagogy and Engineering Science Connections (Part 1)

Collection

2015 ASEE Annual Conference & Exposition

Authors

Linda S. Hirsch, New Jersey Institute of Technology; Howard S. Kimmel, New Jersey Institute of Technology; John D. Carpinelli, New Jersey Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

introduction of the Next Generation Science Standards. Although reports onthe results of most RET programs appear to be positive in terms of teacher satisfaction, gainingresearch skills and improved content knowledge about engineering, few programs have reportedon the use of any systematic process to guide teachers in the development of their instructionalmodules or lesson plans, and most programs appear to lack follow-up and\or reports ofclassroom implementation from the lessons.Our University has completed one three-year RET program in the area of pharmaceuticalengineering and has begun a second. Each participating teacher has been able to enrich his or herown knowledge-base as a STEM education professional as an active member of a research

Conference Session

Examining Problem-based Learning

Collection

2012 ASEE Annual Conference & Exposition

Authors

Diana Bairaktarova, Purdue University, West Lafayette; Demetra Evangelou, Purdue University, West Lafayette; Aikaterini Bagiati, Massachusetts Institute of Technology; Jennifer Dobbs-Oates, Purdue University

Tagged Divisions

K-12 & Pre-College Engineering

artifacts according to the teachers?Phone: is available in dramatic play for the children to pretend to make and receive calls.Children usually talk to each other in dramatic play; they act as though they are calling someone.Some children repeat conversations from home. Children also act out fire safety behaviors, Page 25.1338.4pretending to call 911. Phones resembling both cell phones and land-line phones are used.Balance: Children place counters on the balance. Children may fill the bins of the balance or justpush them up and down. They fill both sides of the balance with objects and transfer them backand forth. In planned activities children use

Conference Session

Research to Practice: STRAND 4 K-12 Engineering Resources: Best Practices in Curriculum Design (Part 2)

Collection

2015 ASEE Annual Conference & Exposition

Authors

Shashi S. Nambisan P.E., University of Tennessee, Knoxville; Jennifer Richards, University of Tennessee; Wenshu Li, The University of Tennessee

Tagged Divisions

K-12 & Pre-College Engineering

Paper ID #14160Transportation System Based Summer Academy for Teachers (RTP, Strand4)Dr. Shashi S. Nambisan P.E., University of Tennessee, Knoxville Shashi Nambisan is a Professor of Civil Engineering at University of Tennessee, Knoxville (UT). Since 1989, he has led efforts on more than 165 research, education, and outreach projects that have addressed local, statewide, regional and national issues in transportation and infrastructure systems management related to policy, planning, operations, safety, and risk analysis. He has authored or co-authored more than 125 peer reviewed journal and conference publications. Along

Conference Session

Broadening Participation

Collection

2012 ASEE Annual Conference & Exposition

Authors

Oenardi Lawanto, Utah State University; Wade H. Goodridge, Utah State University

Tagged Divisions

K-12 & Pre-College Engineering

) strategies including planning,and cognitive and monitoring/fix-up strategies. A mixed-methods approach to research wasapplied to gather comprehensive and valid information about students’ SRL strategies. Theobjectives of this preliminary study were to investigate high school students' design activitiesthat reflect their understanding of task demand and SRL strategies to accomplish the design taskfrom the perspective of design performance (i.e., high- and low- performing students) andgender. A better understanding of these issues will specifically benefit technology and pre-engineering educators as well as the high school curriculum developer.Students at a high school in Colorado participated in this preliminary study (n = 29); 22

Conference Session

Principles of K-12 Engineering Education and Practice

Collection

2014 ASEE Annual Conference & Exposition

Authors

Yosef S. Allam, Embry-Riddle Aeronautical University, Daytona Beach; Alexander Danial Manasseh, Prometheus Education, Inc; Asher Michael Smith; William Miceli, Embry-Riddle Aeronautical Univ., Daytona Beach; Shiv D Panjwani; Cierra Sparks; Joseph Anthony Alequin; Joshua Lee Dankson, Embry Riddle Aeronautical University; Cody David Clarke; Nicholas James Maskiell; Nathalie Vazquez, Embry-Riddle Aeronautical University; Marco Alan Schoener, SENAET

Tagged Divisions

K-12 & Pre-College Engineering

applications of the design process, curriculum development, and fulfilling the needs of an integrated, multi-disciplinary first-year engineering educational environment through the use of collaborative learn- ing, problem-based and project-based learning, classroom interaction, and multiple representations of concepts.Mr. Alexander Danial Manasseh, Prometheus Education, Inc Alexander Manasseh is a developer of Science, Technology, Engineering and Mathematics (STEM) les- son plans, presiding over the not-for-profit corporation Prometheus Education, Inc. Alexander develops STEM lesson plans, performs STEM pedagogy research, and tailors STEM technology to the K-16 class- room. Prometheus Education, Inc. facilitates efficacy

Conference Session

Professional Development Programs for Teachers

Collection

2006 Annual Conference & Exposition

Authors

Anant Kukreti, University of Cincinnati; Patricia McNerney, University of Cincinnati; Suzanne Soled, University of Cincinnati; Kelly Obarski, University of Cincinnati; Mingming Lu, University of Cincinnati; Richard Miller, University of Cincinnati; Daniel Oerther, University of Cincinnati; Heng Wei, University of Cincinnati; Thaddeus Fowler, University of Cincinnati

Tagged Divisions

K-12 & Pre-College Engineering

professional development activities executed are presented, second theassessment process used as part of the evaluation plan is described, third the outcomes of theevaluation plan are presented and how these results obtained are planned to be used for futureimprovements, and finally the general conclusions from the whole experience are summarized.Hopefully, this documentation will help others in planning similar experiences for K-12 teachers. In a world with rapidly changing technology and a global economy, there is a growingconcern that Americans will not remain competitive1. The well being of our nation dependsupon how well we educate our children in science, technology, engineering, and mathematics(STEM). Poorly prepared instructors teach

Conference Session

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

Collection

2015 ASEE Annual Conference & Exposition

Authors

Kristen Bethke Wendell, University of Massachusetts Boston; Christopher George Wright, University of Tennessee, Knoxville; Patricia C Paugh, University of Massachusetts Boston

Tagged Topics

Diversity

Tagged Divisions

K-12 & Pre-College Engineering

-making does take place during engineering designexperiences in culturally and linguistically diverse urban classrooms, and we present two studentgroup case studies to support that argument. We discuss implications of this work for elementaryengineering instructional design, pedagogy, and educational research.IntroductionIn its Framework for K-12 Science Education, the National Research Council writes, “Engineers,too, make decisions based on evidence that a given design will work; they rarely rely on trial anderror” (NRC, 2012, p. 62). For engineers to plan feasible solutions and revise solutions they havealready tested, they need to engage in reflective decision-making that takes into accountinformation about design options. This intentional

Conference Session

Enhancing K12 Mathematics Education with Engineering

Collection

2008 Annual Conference & Exposition

Authors

M. David Burghardt, Hofstra University; Michael Hacker, Hofstra University

Tagged Divisions

K-12 & Pre-College Engineering

develop a model for infusing mathematicsinto science and technology at the middle school level. The informed design process was createdas part of a NSF materials development program and formed the engineering design frameworkfor this study. Structured mathematics activities (knowledge and skill builders - KSBs) weredeveloped that linked to the design challenge. As a result of these hands-on activities, studentsapply the mathematical reasoning developed in order to solve an engineering problem; the designof a bedroom. A unique professional development model was created to facilitate cross-disciplinary support and communication during the development and piloting of math infusedtechnology and science lesson plans. A pilot research study, involved

Conference Session

K-12 Professional Development I

Collection

2013 ASEE Annual Conference & Exposition

Authors

Bradley Bowen Ed.D, North Dakota State University

Tagged Divisions

K-12 & Pre-College Engineering

professional development opportunity. Two of the mostpopular externally funded programs for teachers to gain industry and research experience areScientific Work Experience Programs for Teachers (SWEPT) and Research Experiences forTeachers (RET).[3,4,12] The goals for these programs are to increase the teacher's understandingof how content knowledge is being applied in an authentic real-world setting in order to increasestudents engagement and achievement in the classroom through implementation of an authenticeducational plan. Some research studies show these types of experiences for teachers have led toan increase in student achievement for their respective students in science [5], however thedocumentation for this type of research is limited. Both of

Conference Session

Innovative K-12 Engineering Programs

Collection

2007 Annual Conference & Exposition

Authors

Shanna Daly, Purdue University; Kelly Hutchinson, Purdue University; Lynn Bryan, Purdue University

Tagged Divisions

K-12 & Pre-College Engineering

(NCLT) at Purdue University, lessons and activities on nanoscale phenomena aswell as suggestions for incorporation into curricula and the relationship of these activities to bothNational and Indiana State Standards were presented and discussed. At the completion of theexperience, the twelve participating teachers created lesson plans that they intended to use intheir classrooms as a result of their experiences at the workshop. The lesson plans werecollected and serve as the qualitative data contributing to this study. They allow for an in-depthexploration of where and how nanoscale phenomena concepts can be incorporated into currentmiddle- and high-school curricula. Analysis of the data reveals difficulties in this incorporationand guides

Conference Session

K-12 and Pre-College Engineering Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Evan C. Lemley, University of Central Oklahoma; Bob Melton, Putnam City Schools; Elizabeth Ann Allan, University of Central Oklahoma; Grant M. Armstrong, University of Central Oklahoma ; James E. Stewart, University of Central Oklahoma; Morshed Khandaker, University of Central Oklahoma

Tagged Divisions

K-12 & Pre-College Engineering

 student design projects along with a plan for implementation by theend of the four workshops.The four Saturday workshops were spaced over the course of seven weeks in the Fall 2013.  Teachers,grant investigators (___, ___, and ___), and engineering student assistants (____ and ____) werepresent from early morning to mid­afternoon for each workshop session.  Engineering faculty werepresent for each meeting as well; co­author ____  served as the lead engineering faculty mentor andwas present for the first session, while all participating engineering faculty (____, ____, ____, and____) were present for the last three meetings.In the first workshop, presentations were given by one of the co­authors (____) on the Next GenerationScience Standards and

Conference Session

K-12 Professional Development II

Collection

2013 ASEE Annual Conference & Exposition

Authors

Bette Grauer, Kansas State University; Karen L Roberts, Upward Consulting; Tom C. Roberts P.E., FASEE, FNSPE, Kansas State University; Gary A. Clark, Kansas State University; Amy Rachel Betz, Kansas State University

Tagged Divisions

K-12 & Pre-College Engineering

students and teachers through the fields of chemistry, human ecology, gifted education, and central administration. She has facilitated programming in Science Olympiad, USFIRST, Engineering & Science Summer Institute (ESSI), Odyssey of the Mind, and STEM activities with local school districts. Dr. Roberts enjoys working with K-12 teachers and providing information relevant to career exploration.Prof. Tom C. Roberts P.E., FASEE, FNSPE, Kansas State University Roberts has more than 35 years experience in planning, organizational development, and leadership train- ing programs. He worked for Black & Veatch for sixteen years, formed Upward Consulting in 1989 and has served as a learning organization and process

Conference Session

Curriculum Exchange II

Collection

2012 ASEE Annual Conference & Exposition

Authors

Dani Sledz, Colorado School of Mines; Allison M. Silvaggio, STEM Magnet Lab School

Tagged Divisions

K-12 & Pre-College Engineering

teachers for up to fifteenhours per week, throughout the academic year, in implementing the discovery-based learning activitiesin the K-5 classrooms. These same graduate students are also responsible for 1) arranging visits byprominent individuals to the K-5 classroom, 2) researching additional mathematical and scientificclassroom topics, and 3) arranging elementary school campus tours. Since mathematics and sciencecomprise, on average, forty-five minutes of an elementary school day, one graduate student supportsmultiple classrooms. As has been argued elsewhere 5,6,7, there is a growing interest among engineers and teachers inthe development and design of lesson plans that introduce renewable energy and energy generation topre-college

Conference Session

Assessment and Evaluation of K-12 Engineering Programs

Collection

2011 ASEE Annual Conference & Exposition

Authors

Gisele Ragusa, Ph.D., University of Southern California

Tagged Divisions

Engineering and Public Policy, K-12 & Pre-College Engineering

viaformation, nurturance and sustaining an important targeted school-university urban educationalpartnership. Our university has partnered with large urban school districts to plan, deliver andsustain a targeted inservice teacher professional development and a middle and high schoolSTEM curriculum intervention. The partnership goals are to assist inservice middle and highschool science teachers in: (1) designing and implementing integrated science and engineeringcurricula and (2) development of instructional methods and strategies that enable teachers toeffectively (a) teach challenging content and research skills in middle and high school asdemanded by state/national science standards; (b) generate knowledge and transform practice inhigh school STEM

Conference Session

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

Collection

2011 ASEE Annual Conference & Exposition

Authors

Aikaterini Bagiati, Purdue University, West Lafayette; So Yoon Yoon, Purdue University, West Lafayette; Demetra Evangelou, Purdue University, West Lafayette; Garene Kaloustian, Lebanese American University; Osman Cekic, Canakkale Onsekiz Mart University; Jiabin Zhu, Purdue University, West Lafayette; Alejandra J. Magana, Purdue University, West Lafayette

Tagged Divisions

K-12 & Pre-College Engineering

University Osman Cekic holds a Ph.D. in higher education and student affairs from Indiana University at Blooming- ton and a master’s degree in secondary school administration from the University of Arkansas at Fayet- teville and a Bachelor’s degree in educational administration and planning from Ankara University in Turkey. He previously worked at the Indiana Education Policy Center, Project on Academic Success (PAS), as a graduate assistant to the vice president for enrollment services for Indiana University, and as a postdoctoral researcher at Purdue University, West Lafayette. Dr. Cekic’s research interests include higher education policy, finance and the linkages between budget and organizational culture, and col

Conference Session

High-School Engineering Education

Collection

2009 Annual Conference & Exposition

Authors

Muhammad Kehnemouyi, Montgomery College; Uchechukwu Abanulo, Montgomery College

Tagged Divisions

K-12 & Pre-College Engineering

FutureProject’ was recently added to the curriculum for the College Institute ES 100 taught to12th graders at Thomas S. Wootton High School in Rockville, Maryland. This projectinvolves motivating students to develop an academic map/career plan for themselves byobserving and interviewing successful engineers in different fields, creating overviewprofiles for each of them, and studying these profiles to determine how they connect withtheir career intentions.A detailed explanation of the Engineering your Future Project and how it fits into the ES100 curriculum is given in this paper. Results from qualitative and quantitative evaluationof the project will be presented. In addition, since the project was also added to one of theES 100 sections taught to

Conference Session

Research Related to Learning and Teaching Engineering in Elementary Classrooms

Collection

2011 ASEE Annual Conference & Exposition

Authors

Pamela S. Lottero-Perdue, Towson University

Tagged Divisions

K-12 & Pre-College Engineering

participants, largely due to logistical challenges, yet most teachers perceived of co-teaching as an effective and helpful teaching strategy. Recommendations for futureclassroom/enrichment co-teaching emphasize co-planning and co-teaching the hands-on- andminds-on-intensive engineering design process lessons within STE units.Introduction Co-teaching is when teachers work together to prepare to teach, teach, and reflect onteaching and learning. This paper describes the extent and nature of co-teaching by 28 classroomand 8 enrichment teachers from 7 elementary schools as they taught integrated science-technology-engineering units (STE units) of instruction for the first time. The first section of thepaper briefly highlights the need to support

Conference Session

Fundamental: Tools and Content for K-12 Engineering Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Elizabeth Cady, National Academy of Engineering; Greg Pearson, National Academy of Engineering; David R. Heil, David Heil & Associates, Inc.; Derek W Rector, Diamax Information Systems; Jana Jurukovska, Diamax Information Systems

Tagged Divisions

K-12 & Pre-College Engineering

Apple. Active in promoting public understanding of science and engineering for over 35 years, he was the lead Editor of the popular book Family Science (1999) and a Co-Author of the recently published Family Engineering: An Activity & Event Planning Guide (2011). DHA provides the STEM education and science center fields with Research & Evaluation, Strategic Planning, and Materials Development and Implementation services. David Heil is a sought after national and international presenter on STEM education, is a past Director of Informal Science Education for the National Science Teachers Association, and served 2 years on the ASEE K-12 & Pre-College Division Board of Directors.Mr. Derek W Rector, Diamax

Conference Session

Best Papers in K-12 / Pre-college Division

Collection

2015 ASEE Annual Conference & Exposition

Authors

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

Tagged Divisions

K-12 & Pre-College Engineering

are elementary or middle schoolscience or STEM teachers, and the content areas for the units were either earth science orphysical science. The teachers in this study represented eight different schools within two urbandistricts with high diversity in the Midwestern region of the U.S. Teacher grade levels rangedfrom 4th grade to 7th grade.Data Sources & Analysis. The data used for this study consisted of written curriculardocuments generated by the teachers for the four units. These documents included lesson plans,worksheets, rubrics, and other supplemental artifacts such as PowerPoint slides and readings.Content analysis methods were used to examine the documents. This analytical method wasselected because it is a systematic way of

Conference Session

Integrating Technical Research into Professional Development and K-12 Classrooms

Collection

2011 ASEE Annual Conference & Exposition

Authors

John D. Carpinelli, New Jersey Institute of Technology; Howard S. Kimmel, New Jersey Institute of Technology; Linda S. Hirsch, New Jersey Institute of Technology; Levelle Burr-Alexander, New Jersey Institute of Technology; Kwabena A. Narh, New Jersey Institute of Technology; Rajesh N. Davé, New Jersey Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

engineering principles and design into existing science classes that can becontinued year after year and last through and beyond the training period 6. Some of the keyfactors identified for effective professional development include: engaging teachers in practicingconcrete tasks related to teaching, assessment, and observation of learning; drawing uponteachers' questions, inquiry, and experiences; including time for collaboration, sharing andexchange of ideas and practices; building on teachers' current work with students; and providingmodeling, coaching, and problem-solving around specific areas of practice.The planning of professional development programs that effectively lead to desired teachingpractices is not a simple process. Too often, short

Conference Session

Best Practices in K-12 Engineering: Assessments of Participant Outcomes

Collection

2011 ASEE Annual Conference & Exposition

Authors

Susan E. Walden, University of Oklahoma; Eugene F. Brown, Virginia Tech; Malinda S. Zarske, University of Colorado, Boulder

Tagged Divisions

K-12 & Pre-College Engineering

Engineering EducationAnnual Conference and Exposition in June 2011.Presenters from the 2011 ASEE K-12 and Pre-College Engineering program with outstandingassessment practices will be invited to sit on a panel to share their strategies and methods. Partof the K-12 Division’s mission is to promote building a professional community and advancingscholarship. Through this special session, the Division will promote those objectives.A representative from each paper selected will be invited to be a panel member during thisspecial session of the conference. During the 1.5 hour session, each representative will have tenminutes to describe their project's assessment plan. The remaining time will be for discussionswith the audience about their plans, assessment

Conference Session

The Role of Engineering in Integrated STEM--uh STEAM--uh Education!

Collection

2012 ASEE Annual Conference & Exposition

Authors

Bettina J. Casad, California State Polytechnic University, Pomona; Mariappan Jawaharlal, California State Polytechnic University, Pomona

Tagged Divisions

K-12 & Pre-College Engineering

event and the responses were analyzed and compared against acontrol group consisting of 66 students. The theory of planned behavior was used to predictstudents‟ plans for future STEM education. The results of this study suggest that the roboticsprogram based on the guided discovery approach is successful. The success of this program ledto a follow-up study to measure students‟ perceived math and engineering ability, difficulty,STEM attitudes, and intentions to obtain good math grades. The second study indicated thatmany of the positive outcomes of this program persisted six months later.BackgroundScience, technology, engineering, and mathematics (STEM) education in the United Statescontinues to garner national concern.1 A National Academies