Conference Session

Materials Division Technical Session 3

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Laura Ann Gelles, University of San Diego; Susan M. Lord, University of San Diego

Tagged Topics

Diversity

Tagged Divisions

Materials

semester that integrated social context into a technically focused course. Thiscourse, a third-year Engineering Materials Science course taught by the second author, is arequired course for Integrated Engineering and an elective for Mechanical and Industrial andSystems Engineering students. This course was designed to introduce engineering students to thefundamentals of materials science engineering. Modules were accompanied by homework andexam questions to reinforce the relevance of these topics to the overall class. Incorporating socialcontent into engineering courses requires an intentional, sustained, and consistent approach thatbears in mind student’s limited time, conflicting priorities, and level of maturity.Of the four modules, two have

Conference Session

Materials Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Mary B. Vollaro, Western New England University; Michael Brennan

Tagged Divisions

Materials

Paper ID #10150Leveraging student’s interests in a senior design project through integrationof materials selection methodologyDr. Mary B. Vollaro, Western New England University Dr. Mary B. Vollaro is an Associate Professor in Mechanical Engineering and Coordinator of the College of Engineering Honors Program at Western New England University. She received her B.S. in Mechanical Engineering from Western New England University, her M.S. in Metallurgy from Rensselaer Polytechnic Institute (The Hartford Graduate Center), and her Ph.D. in the Field of Materials Science from the Uni- versity of Connecticut. She is active in the

Conference Session

Materials Division Technical Session 3

Collection

2016 ASEE Annual Conference & Exposition

Authors

Noah Salzman, Boise State University; Louis Nadelson, Utah State University; Rick Ubic, Boise State University

Tagged Divisions

Materials

Paper ID #16370Implementing and Assessing a Joint REU/RET Program in Materials ScienceDr. Noah Salzman, Boise State University Noah Salzman is an Assistant Professor at Boise State University, where he is a member of the Electrical and Computer Engineering Department and IDoTeach, a pre-service STEM teacher preparation program. His work focuses on the transition from pre-college to university engineering programs, how exposure to engineering prior to matriculation affects the experiences of engineering students, and engineering in the K-12 classroom. He has worked as a high school science, mathematics, and engineering

Conference Session

Introductory Materials Science Course

Collection

2008 Annual Conference & Exposition

Authors

Stephen Krause, Arizona State University; Amaneh Tasooji, Arizona State University

Tagged Divisions

Materials

AC 2008-2026: AN INTERVENTION USING CONCEPT SKETCHING FORADDRESSING DISLOCATION-RELATED MISCONCEPTIONS ININTRODUCTORY MATERIALS CLASSESStephen Krause, Arizona State University Stephen Krause Stephen J. Krause is Professor in the School of Materials in the Fulton School of Engineering at Arizona State University. His teaching responsibilities are in the areas of bridging engineering and education, design and selection of materials, general materials engineering, polymer science, and characterization of materials. His research interests are in innovative education in engineering and K-12 engineering outreach. He has co-developed a Materials Concept Inventory for assessing fundamental knowledge

Conference Session

Materials Division Technical Session 2

Collection

2017 ASEE Annual Conference & Exposition

Authors

Noah Salzman, Boise State University; Rick Ubic, Boise State University

Tagged Divisions

Materials

Paper ID #18652Development and Assessment of a Combined REU/RET Program in Materi-als ScienceDr. Noah Salzman, Boise State University Noah Salzman is an Assistant Professor at Boise State University, where he is a member of the Electrical and Computer Engineering Department and IDoTeach, a pre-service STEM teacher preparation program. His work focuses on the transition from pre-college to university engineering programs, how exposure to engineering prior to matriculation affects the experiences of engineering students, and engineering in the K-12 classroom. He has worked as a high school science, mathematics, and

Conference Session

Innovations in Materials Education

Collection

2010 Annual Conference & Exposition

Authors

Cindy Waters, North Carolina A&T State University; Stephen Krause, Arizona State University; Jacquelyn Kelly, Arizona State University

Tagged Divisions

Materials

of Minds and Machines, vol.9, No.1, 20044. A.H. Johnstone, J. Chem. Ed., 74, 262, 19975. http://www.pogil.org/6. D. Hanson, “Instructor’s Guide to Process-Oriented Guided-Inquiry Learning”, Stony Brook University, SUNY, http://www.pogil.org/uploads/media_items/pogil-instructor-s-guide-1.original.pdf7. R Waters, M McCracken, “Assessment and Evaluation in Problem Based Learning”, Proceedings of Frontiers in Education, 19978. R. Felder, D. Woods, J. Stice, A. Rugarcia, Chem. Engr. Education, 34(1), 26–39, 20009. R.M. Felder and L.K. Silverman, “Learning and Teaching Styles in Engineering Education.” Engineering Education, 78 (7), 674, 198810. G. Lawrence, People Types and Tiger Stripes, 3rd Ed. Center for Applications of

Conference Session

Emerging Issues in Materials Education

Collection

2009 Annual Conference & Exposition

Authors

Diane Folz, Virginia Tech; Christine Burgoyne, Virginia Tech; Janis Terpenny, Virginia Tech; Richard Goff, Virginia Tech

Tagged Divisions

Materials

. Page 14.1017.4The overall objective of the processing laboratory is to draw a close relationship betweenprocessing, structure and properties of materials. This relationship is fundamental to materialsscience and engineering and the lab is critical to planting this concept firmly in the minds andexperience of the undergraduate students. The brief introductory lectures, activities andassessment tools are designed to reinforce the theoretical knowledge, hands-on skills andcommunications skills necessary to practice materials science and engineering.The concept of the processing-structure-property relationship is fundamental to the study ofmaterials science and engineering. This relationship is the core of a larger “manufacturingstream” that

Conference Session

Emerging Issues in Materials Education

Collection

2009 Annual Conference & Exposition

Authors

Cindy Waters, North Carolina A&T State University

Tagged Divisions

Materials

AC 2009-1388: REDESIGNING MATERIAL SCIENCE FOR MILLENNIALSTUDENT LEARNINGCindy Waters, North Carolina A&T State University Page 14.1018.1© American Society for Engineering Education, 2009 RE-DESIGNING MATERIAL SCIENCE FOR MILLENNIAL STUDENT LEARNINGAbstractFaculty are responsible for teaching courses that are current and use pedagogy up to date with thestudents of today. The current generation of university students consisting of those born after1980 and graduating high school following the year 2000 are pegged the Millenials1. Thisgeneration, has demonstrated many unique characteristics that can make them successful in theacademic and

Conference Session

Materials Division Technical Session 1

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Xinyue (Crystal) Liu, University of Toronto; Simo Pajovic, Massachusetts Institute of Technology; Cheuk Yin Larry Kei, University of Toronto; Yasaman Delaviz, York University; Scott D. Ramsay, University of Toronto

Tagged Divisions

Materials

. Haim, “Lab at Home: Hardware Kits for a Digital Design Lab,” IEEE Trans. Educ., vol. 52, no. 1, pp. 46-51, Feb. 2009.[4] R. V. Krivickas and J. Krivickas, “Laboratory Instruction in Engineering Education,” Glob. J. Eng. Educ., vol. 11, no. 2, pp. 191-196, 2007.[5] S. K. Starrett and M. M. Morcos, “Hands-On, Minds-On Electric Power Education,” J. Eng. Educ., vol. 90, no. 1, pp. 93-99, Jan. 2001.[6] P. Y. Furlan, “Engaging Students in Early Exploration of Nanoscience Topics Using Hands- On Activities and Scanning Tunneling Microscopy,” J. Chem. Educ., vol. 86, no. 6, pp. 705- 711, Jun. 2009.[7] J. K. Burgher, D. Finkel, O. O. Adesope, and B. J. Van Wie, “Implementation of a Modular Hands-on

Conference Session

Materials Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Nancy Ruzycki, University of Florida

Tagged Divisions

Materials

used within the course.These preliminary studies indicate the promise in purposeful inclusion of disciplinary literacy practiceswith engineering classrooms to support core content ideas, and sketch out a few possible model practicesand tools for use in classroom settings by instructors. These activities build sense making, reflectivepractice and engineering habits of mind within materials science courses, and show promise in helpingstudents to move from a novice level of understanding towards expertise through the use of writing,speaking and communicating.References1. McConachie, S. M., & Petrosky, A. R. (2009). Content matters: A disciplinary literacy approach toimproving student learning. John Wiley & Sons.2. Shanahan, T., &

Conference Session

Novel Approaches to Teaching Materials

Collection

2011 ASEE Annual Conference & Exposition

Authors

John A. Nychka, University of Alberta

Tagged Divisions

Materials

AC 2011-841: ROOM WITH A VUEJohn A. Nychka, University of Alberta John was an assistant professor at the University of Kentucky for two years before returning to Canada and his alma mater, the University of Alberta, in 2007. He is an assistant professor in the Department of Chemical and Materials Engineering teaching and coordinating the second year introductory mate- rials engineering service course to many disciplines of engineering. John is active in the departmental Teaching Enhancement Committee which is mandated with improving the quality of teaching within the department. He has organized and co-organized teaching workshops to bring international speakers to the University of Alberta on topics of

Conference Session

Teaching Methods for the 21st Century: Part 2

Collection

2007 Annual Conference & Exposition

Authors

Stephen Krause, Arizona State University; Amaneh Tasooji, Arizona State University

Tagged Divisions

Materials

AC 2007-413: DIAGNOSING STUDENTS' MISCONCEPTIONS ON SOLUBILITYAND SATURATION FOR UNDERSTANDING OF PHASE DIAGRAMSStephen Krause, Arizona State University Stephen J. Krause is Professor and Associate Director of the School of Materials in the Fulton School of Engineering at Arizona State University. He teaches courses in general materials engineering, polymer science, characterization of materials, and materials selection and design. He conducts research in innovative education in engineering, including a Materials Concept Inventory, and also in adapting design, engineering and technology concepts to K-12 education. He is currently working on an NSF sponsored MSP developing courses for high

Conference Session

Materials Division Technical Session 2

Collection

2016 ASEE Annual Conference & Exposition

Authors

Stephen J. Krause, Arizona State University; Cindy Waters, North Carolina A&T State University; William Joseph Stuart P.E., Oregon Institute of Technology; Eugene Judson, Arizona State University; Casey Jane Ankeny, Arizona State University; Bethany B. Smith, Arizona State University

Tagged Divisions

Materials

Paper ID #14943Effect of Contextualization of Content and Concepts on Students’ CourseRelevance and Value in Introductory Materials ClassesProf. Stephen J. Krause, Arizona State University Stephen Krause is professor in the Materials Science Program in the Fulton School of Engineering at Arizona State University. He teaches in the areas of introductory materials engineering, polymers and composites, and capstone design. His research interests include evaluating conceptual knowledge, mis- conceptions and technologies to promote conceptual change. He has co-developed a Materials Concept Inventory and a Chemistry Concept

Conference Session

Teaching Methods for the 21st Century: Part 2

Collection

2007 Annual Conference & Exposition

Authors

Mary Vollaro, Western New England College

Tagged Divisions

Materials

AC 2007-1906: MATERIALS SELECTION EXERCISES BASED ON CURRENTEVENTSMary Vollaro, Western New England College Mary B. Vollaro is Associate Professor of Mechanical Engineering at Western New England College in Springfield, Massachusetts. Dr. Vollaro received her Ph.D. at the University of Connecticut and she has held engineering positions in industry in the materials science area. She is currently Chair of the ASEE Materials Division and works closely with longtime ASEE partners, The National Educators Workshop (NEW). Page 12.1038.1© American Society for Engineering Education, 2007

Conference Session

Materials Division Technical Session 3

Collection

2016 ASEE Annual Conference & Exposition

Authors

Aisling Coughlan, University of Toledo; Tanya A. Faltens, Purdue University, West Lafayette; Heidi A. Diefes-Dux, Purdue University, West Lafayette; Kerrie A Douglas, Purdue University, West Lafayette; David R. Johnson, Purdue University, West Lafayette

Tagged Divisions

Materials

materials classes. Proceedings of the 115th ASEE Annual Conference & Exposition, Pittsburgh, PA. https://peer.asee.org/41495. Klimeck, G., McLennan, M., Brophy, S. P., Adams III, G. B., & Lundstrom, M. S. (2008). nanohub.org: Advancing education and research in nanotechnology. Computing in Science & Engineering, 10(5), 17–23.6. National Research Council. (2000). How People Learn: Brain, Mind, Experience, and School: Expanded Edition. Washington, DC: The National Academies Press.7. Brophy, S. P., Magana, A. J., & Strachan, A. (2013). Lectures and simulation laboratories to improve learners’ conceptual understanding. Advances in Engineering Education, 4(2). http://advances.asee.org/?publication

Conference Session

Novel Approaches to Teaching Materials

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lakshmi Munukutla, Arizona State University, Polytechnic campus

Tagged Divisions

Materials

AC 2011-1815: COURSE EMBEDDED CLASS ROOM ASSESSMENT TECH-NIQUE FOR THE STEM EDUCATIONLakshmi Munukutla, Arizona State University, Polytechnic campus Lakshmi Munukutla received her Ph.D. degree in Solid State Physics from Ohio University, Athens, Ohio and M.Sc and B.Sc degrees from Andhra University, India. She has been active in research and published several journal articles. She is a professor in the Department of Engineering Technology at Arizona State University. Page 22.388.1 c American Society for Engineering Education, 2011 Course Embedded Class Room Assessment

Conference Session

Materials Division Technical Session 3

Collection

2017 ASEE Annual Conference & Exposition

Authors

Anu Osta, Rowan University; Jennifer Kadlowec, Rowan University

Tagged Divisions

Materials

their analysis, and anyconclusions drawn therein. For (3) the work was meant to be performed individually while for(1) and (2) groups of up to 4 students was allowed.This project assignment was done keeping in mind the significance of manufacturing simulationin the production operations of major corporations for modeling, analyzing, and optimizing theircomplex manufacturing operations. It was also conjectured that finite element modeling andsimulation is probably the most basic and powerful tool that almost any engineer is required topossess to day. An exercise using this tool will help pave way for refinement and expertise in 8modeling and simulation and would be of vital help in other

Conference Session

Introductory Materials Science Course

Collection

2008 Annual Conference & Exposition

Authors

Elliot Douglas, University of Florida

Tagged Divisions

Materials

AC 2008-116: GUIDED INQUIRY LESSONS FOR INTRODUCTION TOMATERIALSElliot Douglas, University of Florida Elliot P. Douglas is Associate Professor of Materials Science and Engineering at the University of Florida. His education research focuses on critical thinking, active learning in the classroom, and qualitative methods for engineering education. Page 13.660.1© American Society for Engineering Education, 2008 Guided Inquiry Lessons for Introduction to MaterialsAbstractThis proposal describes a project to develop and test new classroom materials for theIntroduction to Materials course within

Conference Session

Materials Division Technical Session 3

Collection

2019 ASEE Annual Conference & Exposition

Authors

Sabrina Jedlicka, Lehigh University; Gregory Mark Skutches, Lehigh University; Siddha Pimputkar, Lehigh University

Tagged Divisions

Materials

Engineering: An Integrated Approach, 5th ed. John Wiley and Sons, 2015.[8] "How People Learn: Brain, Mind, Experience, and School: Expanded Edition," National Research Council, Washington, DC, 2000.[9] K. Wakabayashi, "Materials Selection and Product Design in an Upper Level Undergraduate Elective," Journal of Materials Education, vol. 37, no. 5-6, pp. 185-196, 2015.[10] M. T. Crimmins and B. Midkiff, "High Structure Active Learning Pedagogy for the Teaching of Organic Chemistry: Assessing the Impact on Academic Outcomes," Journal of Chemical Education, vol. 94, no. 4, pp. 429-438, Apr 2017.[11] K. N. Pelletreau et al., "A Faculty Professional Development Model That Improves Student Learning, Encourages

Conference Session

Interactive Approaches to Teaching Materials Fundamentals

Collection

2013 ASEE Annual Conference & Exposition

Authors

Stephen J Krause, Arizona State University; Omowunmi Isaacs-Sodeye, Arizona State University

Tagged Divisions

Materials

. Page 23.1189.1116. Wandersee, J. H; Mintzes, J. J and Novak, J.D. (1994). Research on Alternative Conception in Science. Handbook on Research in Science Teaching. Macmillan, New York, pp. 177-210.17. Chi, M. T. H. (2005). Commonsense conceptions of emergent processes: Why Some Misconceptions are Robust. Journal of the Learning Sciences 14 (2): 161–99.18. Streveler; R.A, Litzinger, T.A, Miller, R L., and Steif, P.S. (2008) . Learning Conceptual Knowledge in the Engineering Sciences. Journal of engineering Education19. National Research Council. (1999). How people learn: Brain, mind, experience, and school. Washington, DC: National Academy Press.20. Zietsman, A.L and Hewson, P.W. (1986). Effect of Instruction Using Microcomputer

Conference Session

Materials Division Technical Session 2

Collection

2019 ASEE Annual Conference & Exposition

Authors

Lessa Grunenfelder, University of Southern California

Tagged Divisions

Materials

Paper ID #27789Active Learning in an Introductory Materials Science CourseDr. Lessa Grunenfelder, University of Southern California Lessa Grunenfelder has a BS in astronautical engineering and a MS and PhD in materials science, all from the University of Southern California. In 2015 she joined the USC Mork Family Department of Chemical Engineering and Materials Science as teaching faculty. She teaches both undergraduate and graduate courses on material properties, processing, selection, and design. She is passionate about sharing her love of materials science with students through curriculum that combines fundamental

Conference Session

Materials Science Education for the Future

Collection

2013 ASEE Annual Conference & Exposition

Authors

Cindy Waters, North Carolina A&T State University; Stephanie Luster-Teasley, North Carolina A&T State University

Tagged Divisions

Materials

Paper ID #6104Student Case Study Creation for the Sustainable Side of Material ScienceDr. Cindy Waters, North Carolina A&T State UniversityDr. Stephanie Luster-Teasley, North Carolina A&T State University Dr. Stephanie Luster-Teasley is an associate professor in Civil Engineering and Chemical Engineering at North Carolina A&T State University. She specializes in Environmental Engineering and her research interests include water and wastewater treatment, physical and chemical remediation of soil and ground- water and water sustainability. Her research group has designed remediation system that entails the use of

Conference Session

Materials Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Sean Maass, Arizona State University; Stephen J Krause, Arizona State University

Tagged Divisions

Materials

a broad set of phenomena in thedisciplines of chemical, mechanical, aero, and materials engineering. In the field of materialsengineering the knowledge of relationships between liquid and solid phase behavior as a functionof composition and temperature is used to understand the formation and evolution of materials'microstructures, which can be used to predict and engineer a material's properties.It is usually assumed that prerequisite science classes provide students with a foundation forapplication of the content and problem solving skills used in engineering applications through aprocess that is referred to as transfer. However, the book, How People Learn: Brain, Mind,Experience, and School2, discusses the fact that there are issues

Conference Session

Materials Division Technical Session 1

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Stephen J. Krause, Arizona State University; Sarah Hoyt, Arizona State University

Tagged Divisions

Materials

Paper ID #29682Enhancing Instruction by Uncovering Instructor Blind Spots from MuddiestPoint Reflections in Introductory Materials ClassesProf. Stephen J Krause, Arizona State University Stephen Krause is professor in the Materials Science Program in the Fulton School of Engineering at Arizona State University. He teaches in the areas of introductory materials engineering, polymers and composites, and capstone design. His research interests include evaluating conceptual knowledge, mis- conceptions and technologies to promote conceptual change. He has co-developed a Materials Concept Inventory and a Chemistry Concept

Conference Session

Hybrid and Online Learning

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Tiffany A Mathews, Penn State University; Kirstin Purdy Drew, Pennsylvania State University; Kristin Ann Dreyer, Center for Nanoscale Science (an NSF funded MRSEC)

Tagged Topics

Diversity

Tagged Divisions

Materials

aresimplistic and don’t require more formal training [14]. Contrastingly, we took the approach thatit is critical for scientists to be thoughtful and intentional throughout the developing and planningprocess with all the stakeholders. Outreach training focused on the mindfulness awarenessproject goals, the cultivation of community partnerships, and engagement of a non-technicalaudience in a science or engineering topic. After several initial informal education workshops,the students were given the opportunity to tailor their outreach projects to align best with theirpersonal interests, given the following broad topics: 1) Deliver a talk to high school studentsabout their undergraduate experience as a science or engineering major, 2) Write a draft

Conference Session

NEW Lab Experiments in Materials Science

Collection

2006 Annual Conference & Exposition

Authors

Valerie Maynard, Northwestern University; Matthew Hsu, Northwestern University; Katherine Chen, California Polytechnic State University; R.P.H. Chang, Northwestern University

Tagged Divisions

Materials

ClassroomThus nanoscience and the technology that it motivates may be among the most significantscience/technology revolutions to date. The National Science Foundation had this in mind whenit launched a comprehensive effort to enhance nanoscale science and engineering education. Theeffort began in stages over the range of years 2000 – 2005, beginning with graduate education,then undergraduate, high school, and K – 8.There are several reasons that argue for the study of the nanoscale in pre-college education.Nanotechnology is an enabling technology; it is not a technology category, but will makepossible advances in many areas. Thus many policy decisions will arise for which citizens shouldhave achieved a level of scientific literacy to make informed

Conference Session

Emerging Issues in Materials Education

Collection

2009 Annual Conference & Exposition

Authors

Tershia Pinder-Grover, University of Michigan; Joanna Mirecki Millunchick, University of Michigan; Crisca Bierwert, University of Michigan; Lindsay Shuller, University of Michigan

Tagged Divisions

Materials

by academic background such that Chemical Engineers tended tobe low users, while Industrial and Operations Engineers tended to be high users (especially inFall 2007). We attribute this difference to the fact that topics covered in Chemical Engineeringare more similar to Material Science and Engineering than Industrial and OperationsEngineering. Further juniors were less likely to use screencasts in comparison to sophomores.Further, students of color tended to use screencasts more often.With these trends in mind, we explore the two approaches to the “muddiest point” screencasts forFall 2007 and Fall 2008 in the following sections. For both terms we highlight studentperceptions of the screencasts and describe how the usage levels related to

Conference Session

Materials Science Education for the Future

Collection

2013 ASEE Annual Conference & Exposition

Authors

Eunice Yang, University of Pittsburgh, Johnstown

Tagged Divisions

Materials

Paper ID #7413A Hybrid Approach to Teaching Materials Science Using POGIL and ActiveLearning ActivitiesDr. Eunice Yang, University of Pittsburgh, Johnstown Dr. Eunice Yang received her doctorate in mechanical engineering from the Pennsylvania State University in 2006. She is currently an assistant professor at the University of Pittsburgh Johnstown campus. She has taught courses in Mechanical Measurements, Mechanical Measurements Lab, Materials Science, Stat- ics, Dynamics, Matlab, Fluid Dynamics, Strength of Materials Lab, Engineering Design, and Autodesk Inventor. Her current research interest lies in the area of

Conference Session

Clearing up Student Misconceptions in Materials

Collection

2010 Annual Conference & Exposition

Authors

Stephen Krause, Arizona State University; Jacquelyn Kelly, Arizona State University; Dale Baker, Arizona State University; Sharon Kurpius-Robinson, Arizona State University

Tagged Divisions

Materials

AC 2010-1157: EFFECT OF PEDAGOGY ON CONCEPTUAL CHANGE INREPAIRING MISCONCEPTIONS OF DIFFERING ORIGINS IN ANINTRODUCTORY MATERIALS COURSEStephen Krause, Arizona State University Stephen Krause is a Professor in the School of Materials in the Fulton School of Engineering arrived at Arizona State University in 1981 after completing his research on polymer deformation at the University of Michigan. Courses he has developed and taught include; Bridging Engineering and Education, Materials Characterization, Polymers and Composites, and Materials Capstone Design,. Innovative learning tools and assessments he has developed include: Materials Mentor Fold Out Notes; Materials Lecture Work Notes

Conference Session

Computational Tools & Analysis

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Jacob Z. Kelter, Northwestern University; Jonathan Daniel Emery, Northwestern University; Uri Wilensky, Northwestern University

Tagged Divisions

Materials

: https://eric.ed.gov/?id=EJ1076098.[22] A. J. Magana, M. L. Falk, and M. J. Reese Jr., “Introducing Discipline-Based Computing in Undergraduate Engineering Education,” Trans. Comput. Educ., vol. 13, no. 4, p. 16:1- 16:22, Nov. 2013, doi: 10.1145/2534971.[23] A. diSessa, Changing Minds: Computers, Learning, and Literacy, 1st edition. Cambridge, Mass: The MIT Press, 2000.[24] U. Wilensky and S. Papert, “Reformulating Knowledge Disciplines through New Representational Forms,” presented at the Constructionism, Paris, 2010.[25] U. Wilensky, “Restructuration Theory and Agent-Based Modeling: Reformulating Knowledge Domains Through Computational Representations,” in Designing Constructionist Futures: The Art