Conference Session

ETD - ET Curriculum and Programs I

Collection

2022 ASEE Annual Conference & Exposition

Authors

Gloria Fragoso-Diaz; Billy Gray, Tarleton State University

requires Engineering programs tohave “a minimum of 30 semester credit hours (or equivalent) of a combination of college-levelmathematics and basic sciences with experimental experience appropriate to the program.” [15]Compared to ET requirements which require “… the application of integral and differentialcalculus or other mathematics above the level of algebra and trigonometry appropriate to thestudent outcomes and program educational objectives.” [16]. The science requirements for ETare similar to where science content needs to be “appropriate to the discipline.” [16] This issimplified by stating that the mathematics and science requirements for an ET program are lessthan the requirements for an engineering program. In addition, engineering

Conference Session

LEES 6: Writing & Communication

Collection

2022 ASEE Annual Conference & Exposition

Authors

Julie Stella, IUPUI; Steven Higbee, Indiana University - Purdue University Indianapolis; Sharon Miller, Indiana University - Purdue University Indianapolis

. © American Society for Engineering Education, 2022 Powered by www.slayte.com Thinking Beyond the Service Course Model: Intentional Integration of Technical Communication Courses in a BME Undergraduate Curriculum Introduc on In technical plans of study, such as Biomedical Engineering (BME), students are o en required to take an undergraduate level course in technical communica on, which supplements the freshman-level communica on courses required by a college or university. These courses tend to be generalized, and

Conference Session

DEED Technical Session 1: Adapting to COVID and other Design Challenges

Collection

2022 ASEE Annual Conference & Exposition

Authors

Christopher Rennick, University of Waterloo; Eugene Li, University of Waterloo; Michael Lenover, University of Waterloo; Wesley Blankespoor; Sanjeev Bedi, University of Waterloo

practice of manyof the skills industry requires of engineering graduates, however it is difficult and expensive(both in material costs, but also in development time) to create new design activities andintegrate them into an already very full engineering curriculum. In addition, for these designactivities to have the most impact for students, they need to be closely aligned with the real-world of engineering practice which is collaborative, multi-disciplinary, and which employscomplex engineering tools which are difficult to introduce to students in their first year or two oftheir studies as they are still building their foundational knowledge. This paper will describe onemethod that has been successfully used by the Engineering Ideas Clinic at the

Conference Session

PCEE Technical Session 5: STEM Teacher Instructional Moves

Collection

2022 ASEE Annual Conference & Exposition

Authors

Benny Mart Hiwatig, University of Minnesota - Twin Cities; Gillian Roehrig, University of Minnesota - Twin Cities; Joshua Ellis, Florida International University; Mark Rouleau

increasing student interest in STEM careers to meet the increasing demands ofthe STEM workforce, researchers and policy-makers advocated for an integrated approach toSTEM education that led to curricular developments such as the Next Generation ScienceStandards (NGSS) in the United States [1], [2]. The resulting increased demand to improve STEM education around the world has led tonew and varied models of integrated STEM instruction (iSTEM) [3]. Implementation and viewsof integrated STEM differ with regard to which of the STEM disciplines should be the focus,how many of the four STEM disciplines should be present and to what degree they should eachbe emphasized, the main purpose of learning in STEM, whether other non-STEM subjectsshould be

Conference Session

Aerospace Division Technical Session: Pedagogy and Curriculum

Collection

2022 ASEE Annual Conference & Exposition

Authors

Kali Morgan, Georgia Institute of Technology; Kelly Griendling, Georgia Institute of Technology; Stephen Ruffin, Georgia Institute of Technology; Jakob Kinney, Georgia Institute of Technology

also consider implementing a similar assignment. By adapting the ScavengerHunt items pertaining to AE industry, curriculum, and academic department, students completing theassignment may potentially benefit in ways similar to our AE students. Similarly, Scavenger Hunts maybe adapted for general Intro to Engineering courses in which students explore engineering sub-disciplines.In such courses, sets relating to industry and curriculum exploration can be adapted by encouragingstudents to explore an engineering discipline of interest or multiple interests, perhaps their top two-threechoices.Further research is needed to understand how these assignments influence, if at all, development ofpurpose. The authors’ future research will begin addressing

Conference Session

PCEE Session 4: Resource / Curriculum Exchange

Collection

2022 ASEE Annual Conference & Exposition

Authors

Barbara Fagundes; Nrupaja Bhide, Purdue University at West Lafayette (PPI); Tamara Moore, Purdue University at West Lafayette (COE); Maeve Drummond Oakes, Purdue University College of Engineering; Allison Godwin, Purdue University at West Lafayette (COE)

II An Online Professional Development Aid forTeaching an Engineering Design-Based Curriculum in 8th Grade (Resource Exchange) Barbara Fagundes, Nrupaja Bhide, Tamara Moore, Maeve Drummond Oakes, Allison Godwin Turn the Lights On! is a project in partnership between EngrTEAMS and CISTAR NSF Engineering Research Center (see below for more information) that aims to teach 8th graders about renewable energy resources and sustainability through an engineering design-based STEM integration unit. To access the PD on The project includes the engineering design-based curriculum nanoHUB you can scan (Part I) and online professional development aid for teachers the QR code above or use interested in

Conference Session

Biomedical Engineering Division: Integrating Design Across the BioE/BME Curriculum

Collection

2022 ASEE Annual Conference & Exposition

Authors

Mostafa Elsaadany, University of Arkansas; Mary Jia, University of Arkansas; Jordan Crosby, University of Arkansas; Raj Rao, University of Arkansas

does not include a simulations component. Biomechanics is also a required secondsemester sophomore course for which SolidWorks applications can be easily implemented. Tosupplement the newly developed introductory module for first semester sophomore students, wesuggest that integrating SolidWorks tools, such as the Simulations add-in, in subsequent coursesenhances student ability to operate SolidWorks and increases the development of desirable skills.Criticisms of the restrictiveness of a curriculum entirely based around 3D design elements havealso been previously raised, which warn educators against potentially limiting imaginative andinnovative thinking [4]. The process of utilizing and outputting models in 3D design softwaresuch as

Conference Session

Multidisciplinary Engineering Division Technical Session - Integrated Engineering and Interdisciplinary Impacts

Collection

2022 ASEE Annual Conference & Exposition

Authors

Mohammed K Faris, University of Mosul / Iraq; Charles Pierce, University of South Carolina; Gurcan Comert

programs with partnerinstitutions. It is common for engineering and pre-engineering programs at HBCUs to beembedded in an integrated department or school of science, technology, engineering, andmathematics (STEM). Having an administrative unit focused on STEM can further facilitateinterdisciplinary research experiences for its undergraduate students.The goal of this paper is to assess the impacts of a summer research experience oninterdisciplinary student teams at Benedict College, which is a recognized HBCU and classifiedas Baccalaureate Colleges – Diverse Fields. Like other interdisciplinary student experiences, thissummer program combines two signature high-impact practices, undergraduate research andcollaborative assignments and projects. High

Conference Session

Environmental Engineering Division Technical Session 2

Collection

2022 ASEE Annual Conference & Exposition

Authors

Cristian Robbins, United States Military Academy; Michael Butkus, United States Military Academy; Andrew Pfluger, United States Military Academy

spawned both a series of Global GrandChallenges Summits occurring biannually and a Grand Challenges Scholars program atnumerous universities [2]. Further, research in engineering education to best integrate some or allof these challenges into undergraduate engineering curricula and also promote studentengagement became a topic of interest [3] - [5]. Innovative ideas such as Chapman University’sfour-year team-based capstone model [6] have been put forth to best represent a ‘GrandChallenge’ curriculum. However, approaches to assess how an undergraduate engineeringcurriculum prepares students to address the Grand Challenges have, to date, been rarelydiscussed in literature. In 2019, the National Academics of Sciences, Engineering, and Medicine

Conference Session

International Division Technical Session 1: Looking at Study Abroad through an enhanced lens

Collection

2022 ASEE Annual Conference & Exposition

Authors

Meredith Blumthal; Luis Rodriguez; James Stubbins, University of Illinois at Urbana - Champaign; Brian Woodard, University of Illinois at Urbana - Champaign; Gretchen Forman, University of Illinois at Urbana - Champaign; Molly Goldstein, University of Illinois at Urbana - Champaign; Hannah Dougherty, University of Illinois at Urbana - Champaign; Ernest-John Ignacio, University of Illinois at Urbana - Champaign; Dawn Owens, University of Illinois at Urbana - Champaign

engagement ofstudents without requiring travel abroad. The term COIL, developed by the State Universities ofNew York (SUNY) system, is an approach that brings students and professors together across theglobe to learn and to collaborate as an integral part of their class experience (What is COIL,2021). The COIL pedagogical model connects professors and students around the world in anonline learning environment to explore subjects, themes, issues, and ideas in a project-basedlearning experience. Digital technology plays an important role in linking students and facultyfrom different countries together (De Castro et al., 2019). At its core, COIL is a collaborativeproject-based global learning experience in which instructors and other collaborators

Conference Session

Faculty Development Division Technical Session 2

Collection

2022 ASEE Annual Conference & Exposition

Authors

Scott Civjan, University of Massachusetts Amherst; Erin Baker, University of Massachusetts Amherst; Samantha Wojda, University of Massachusetts Amherst; Shannon Roberts, University of Massachusetts Amherst; Promise McHenga; Nicholas Tooker; Esha Uddin, University of Massachusetts Amherst; Hannah Wharton, University of Massachusetts Amherst; Sophia Chang, University of Massachusetts Amherst; Lia Ciemny; Jacqueline Thornton; Wayne P. Burleson; Paula Rees, University of Massachusetts Amherst

objective of EMC2 was fluid - it was an effort to get conversations going, connectstudents with faculty members, and foster growth for students and professors alike. While EMC2began as a small group of students yearning for more depth in the engineering curriculum,through the Dean’s RJ Curriculum Challenge it evolved into an organized method of reachingout to faculty and encouraging real change in lesson plans.[1] Lucena, J. C., & Leydens, J. A. (2015), From Sacred Cow to Dairy Cow: Challenges andOpportunities in Integrating of Social Justice in Engineering Science Courses Paper presented at2015 ASEE Annual Conference & Exposition, Seattle, Washington. 10.18260/p.24143

Conference Session

Technological and Engineering Literacy - Philosophy of Engineering Division Technical Session 1

Collection

2022 ASEE Annual Conference & Exposition

Authors

John Reisel, University of Wisconsin - Milwaukee

in their undergraduate curriculum. Initially the curricularredesign was done to reduce the number of credits students needed to take to graduate. As theprocess progressed it became apparent that substantial flexibility for the students could be builtinto the program while maintaining the integrity of the curriculum from an ABET viewpoint.Changes in the curriculum included revising the number of courses and order of courses forcovering traditional mechanical engineering technical topics and relaxing the requirements fortechnical elective credits. As a result, students now have the flexibility to take more coursesoutside of engineering that are of interest to them, potentially allowing them to minor in a non-engineering discipline or to take a

Conference Session

Instrumentation Division Technical Session 1

Collection

2022 ASEE Annual Conference & Exposition

Authors

Abhijit Nagchaudhuri, University of Maryland Eastern Shore; Jesu Raj Pandya, University of Maryland Eastern Shore; Isaac Omodia, University of Maryland Eastern Shore; Charles Raleigh, University of Maryland Eastern Shore; Kenny Fotouhi, University of Maryland Eastern Shore

member of ASEE and IEEE and the Eta Kappa Nu Honor Society. © American Society for Engineering Education, 2022 Powered by www.slayte.com Integration of Active Learning Framework in an Instrumentation Course to involve Junior Level Engineering Students in Multidisciplinary Research ProjectsAbstractThe ENGE 380 (Instrumentation) course offered to the engineering students at the junior level atthe University of Maryland Eastern Shore (UMES) provides the basic foundation for theinterdisciplinary domain of sensors, instrumentation, and data acquisition that permeates almostall scientific and engineering endeavors. Project efforts integral to

Conference Session

First-Year Programs Division Technical Session 10: Best of First-Year Programs Division

Collection

2022 ASEE Annual Conference & Exposition

Authors

Victor Garcia; Peter Golding, University of Texas at El Paso; Diane Golding, University of Texas at El Paso; Irma Torres-Catanach; Nora Cuvelier, University of Texas at El Paso; Crystal Cholewa; Karla Ayala Mendoza

Paper ID #37847A Strategic Curriculum Design for an IntroductoryEngineering Course to Encourage Self-Empowerment ofMinority StudentsVictor Manuel Garcia (Research Associate) Victor Garcia holds a PhD in Civil Engineering from The University of Texas at El Paso (UTEP). Victor is currently a research civil engineer at the US Army – Engineer Research and Development Center in Vicksburg, MS. He leads research projects sponsored by the US Department of Defense that focus on improving the design and construction practices for military transportation installations. Victor has been also collaborating with UTEP faculty on

Conference Session

Investigations Using Calculus Courses

Collection

2022 ASEE Annual Conference & Exposition

Authors

Emre Tokgoz, Quinnipiac University; Elif Tekalp; Berrak Tekalp; Hasan Tekalp; Samantha Scarpinella, Quinnipiac University; Michael Giannone, Quinnipiac University

calculus education. APOS theory application in thepedagogical literature for understanding students’ mental construction of integral concept from ageometric perspective is limited [3]. One of the studies that relate to this interest was conducted in[19] by observing students’ ability to approximate integral calculations by sampling points duringthe process of writing a code for integral calculations. It is pointed out in [19] that integrationneeds to be thought from two perspectives: as the culmination of a limiting process and theapplication of this process over an interval of variable length, as producing a correspondence.The importance of designing a curriculum with instructional emphasis in algebra and pre-calculusby helping students to

Conference Session

Mechanical Engineering: Thermodynamics

Collection

2022 ASEE Annual Conference & Exposition

Authors

Emmanuel Glakpe, Howard University

that capture thelaws of physics such as the law of energy conservation. In a class of fifty students, one may findmore than half of the class resistant to change to the more formalized approach to teaching asthey have a hard time moving away from an approach that has been inculcated in them sincegrade school. Access to internet resources that promote the use of formula-based learning do nothelp in the process of changing the paradigm.This paper describes a paradigm that has been used by the author to teach Thermodynamics tofirst-semester juniors in an undergraduate mechanical engineering curriculum. The pre-requisitesfor the class are successful completion of Physics I (Work and Heat), Physics II (Electricity andMagnetism), Calculus I and II

Conference Session

PCEE Session 13: Equity in P-12 Engineering Education

Collection

2022 ASEE Annual Conference & Exposition

Authors

Christine Cunningham, Pennsylvania State University; Gregory Kelly, Pennsylvania State University

andmetadiscourse about participation. Another study sought to provide an assessment of curriculardesign principles through a cluster randomized controlled trial in 604 classrooms in 152 schoolsin three states [64]. By comparing two elementary engineering curricula, the study was able toidentify that equity-oriented critical curriculum components had consequences for studentlearning. Students in the treatment curriculum outperformed students in the comparison group onoutcome measures of both engineering and science content learning regardless of demographiccharacteristics. Therefore, in addition to the use of extant literature, the findings of thistheoretical paper are derived from extensive empirical research based in video analysis ofclassrooms

Conference Session

Multidisciplinary Engineering Division Technical Session - Interdisciplinary Capstone Projects, Pandemic Adapted Mechatronics Lab, Call for Change

Collection

2022 ASEE Annual Conference & Exposition

Authors

Byul Hur, Texas A&M University; Wei Zhan, Texas A&M University; Boong Yeol Ryoo, Texas A&M University; Aaron Perea, Texas A&M University; Christopher Davila, Texas A&M University; Chase Burciaga, Texas A&M University; Saqib Domki, Texas A&M University; Carmelo Bustos, Texas A&M University; Luis Orozco, Texas A&M University; Gabriel Consuelo, Texas A&M University; Ramon Vazquez, Texas A&M University

Powered by www.slayte.com Integrated multidisciplinary capstone projects of an underwater robot and a quadcopter for a building structural analysisAbstract Research and teaching are two crucial aspects of faculty responsibilities for some EngineeringTechnology and Multidisciplinary Engineering Programs. It would be worth discussing howfaculty can manage a research project and engage with students through capstone projects. As acase study, a building structural analysis project is presented in this paper. This buildingstructural analysis project can be broken down to several components. One of the sub-components is a quadcopter platform, and the other one is an underwater robot platform for abuilding analysis. These two

Conference Session

Multidisciplinary Engineering Division Technical Session - Integrated Engineering and Interdisciplinary Impacts

Collection

2022 ASEE Annual Conference & Exposition

Authors

Rebecca Bates, Minnesota State University, Mankato; Susan Lord, University of San Diego; Emanuela Tilley; Jenna Carpenter, Campbell University

, United Kingdom. She is a Principal Fellow of the Higher Education Academy (PFHEA). The Integrated Engineering Programme is an award winning teaching framework embedded in the learning experiences of undergraduate students across UCL Engineering to better prepare them for tackling future global challenges. Professor Tilley has established an international profile in the areas of leading curriculum design and development as well as cultural change required to support and foster innovation in engineering education within higher education. She is a Board Director for SEFI (European Society of Engineering Education) and Director of Education at the UCL Centre for Engineering Education (CEE).Jenna Carpenter Dr. Carpenter is

Conference Session

Pedagogy in Chemical Engineering Education

Collection

2022 ASEE Annual Conference & Exposition

Authors

Laura Hirshfield, University of Michigan; H. Scott Fogler, University of Michigan; Chris Barr, University of Michigan

laboratories and have since implemented additionalprocess safety focused assignments within the labs such as mandatory weeklyincident/near-miss reporting including focusing on actual risk and possible worst-caserisk of the reported incident [15]. Implementation of more focused safety components toboth improve safety culture and to expose students to process safety terms andexperiences that they will most likely see in industry is an on-going process in thechemical engineering laboratories.ConclusionIncorporating process safety into the chemical engineering undergraduate experiencecan be challenging, given the already-packed curriculum with little room for new topicsor courses. The SafeChE Safety Modules allow instructors to integrate safety

Conference Session

Civil Engineering Division - Integration of Engineering and/or Technical Rigor with Diversity, Equity, Inclusion and Justice (DEIJ)

Collection

2022 ASEE Annual Conference & Exposition

Authors

Manish Roy, University of Connecticut; Maria Chrysochoou, University of Connecticut; Connie Syharat, University of Connecticut

of Arts in Hispanic Studies and her teaching certificate from Connecticut College in 2001. She is currently pursuing a doctoral degree in Curriculum and Instruction at UConn's Neag School of Education.Maria Chrysochoou Maria Chrysochoou is a Professor and Head of the Department of Civil and Environmental Engineering at the University of Connecticut. © American Society for Engineering Education, 2022 Powered by www.slayte.com Redesigning Soil Mechanics as an Inclusive CourseAbstractIn its quest to become an inclusive department that uses a strengths-based approach towardneurodiversity to personalize the learning experience for all students, the

Conference Session

PCEE Technical Session 6: Engineering Design in High School

Collection

2022 ASEE Annual Conference & Exposition

Authors

Karen Plaster, The University of Akron; Nidaa Makki

Paper ID #36755Entrepreneurial Mindset integration in Pre-ServiceEngineering Education Course (Fundamental)Karen Plaster Karen Plaster is a Professor of Practice in the LeBron James Family Foundation School of Education at the University of Akron. She has a B.S. in Industrial & Systems Engineering from The Ohio State University, an M.S. in Adolescent and Young Adult Education: Mathematics Licensure from The University of Akron, and is currently a Ph.D. student at Kent State University. Her research interests include STEM education, curriculum integration of engineering and entrepreneurship, afterschool

Conference Session

NSF Grantees Poster Session

Collection

2022 ASEE Annual Conference & Exposition

Authors

Melissa Higgins, Boston Children's Museum; Michelle Cerrone

Paper ID #38366Integrated Engineering and Empathy Activities in Pre-K andKindergartenMelissa Higgins (Vice President of Programs and Exhibits)Michelle Cerrone © American Society for Engineering Education, 2022 Powered by www.slayte.com Integrated Engineering and Empathy Activities in Pre-K and Kindergarten Abstract This session will present findings from an NSF-funded research and development project designed to support pre-K and kindergarten educators engage their students in engineering experiences that support empathy development

Conference Session

ETD Technical Session 8 - ET Pedagogy II

Collection

2022 ASEE Annual Conference & Exposition

Authors

Anne Lucietto, Purdue University at West Lafayette (PPI); Joel Jarrett, Purdue University at West Lafayette (COE); Enrique Barbieri, University of Houston; Yasmine Al Abdul Raheem

area. He is a Senior Member of IEEE - Control Systems Society. © American Society for Engineering Education, 2022 Powered by www.slayte.com A Conscious Research Implementation: Research Integration in the ClassroomAbstractThe American Society for Engineering Education’s Engineering Technology Council advocates The degree is engineering technology, the career is engineering™.However, motivating and supporting Engineering Technology students to persist in pursuing acareer in engineering continues to be a significant educational challenge. The researchers haveidentified an area that appears to be lacking but has the potential

Conference Session

Design Experiences in Manufacturing Education

Collection

2022 ASEE Annual Conference & Exposition

Authors

Faisal Aqlan, Pennsylvania State University, Behrend College; Daniell DiFrancesca, Pennsylvania State University, Behrend College; Matthew Swinarski, Pennsylvania State University, Behrend College; Chetan Nikhare, Pennsylvania State University, Behrend College; Mohammad Rasouli, Pennsylvania State University, Behrend College; Qi Dunsworth, Pennsylvania State University, Behrend College

Paper ID #38088A Holistic Design Approach for Integrated Learning inManufacturing EducationFaisal Aqlan Dr. Faisal Aqlan is an Associate Professor of Industrial Engineering and Director of the Master of Engineering in Engineering Management Programs at the University of Louisville. He received his Ph.D. in Industrial and Systems Engineering from Binghamton University in 2013. He is a Senior Member of the Institute of Industrial and Systems Engineers (IISE), and currently serves as the IISE Vice President of Student Development, and holds a seat on the IISE Board of Trustees. Aqlan’s research interests are in

Conference Session

Civil Engineering Division - Huh? What Did You Say? What Does That Mean?

Collection

2022 ASEE Annual Conference & Exposition

Authors

Karin Becker, United States Air Force Academy; Timothy Frank, United States Air Force Academy; Joel Sloan, United States Air Force Academy

count toward this total, the civil engineering program issignificantly constrained. USAFA is also required by statute to be a four-year program, andtaking an additional semester is only approved in very rare cases. This often means that theprogram is not able to offer courses dedicated to a single topic and must weave these topicsthrough other courses. As an example, Christ et al. [15] describe the USAFA CE program’scurricular constraints and how sustainability topics were integrated into the major’s coursework.Such is the case with technical communication (ABET SO 3: an ability to communicateeffectively with a wide range of audiences). The core curriculum includes two courses with awriting component: Introductory Composition and Research, and

Conference Session

ECE Division Technical Session 2: Long-Term Institutional Outcome Evaluations and Capstone Innovations

Collection

2022 ASEE Annual Conference & Exposition

Authors

Sanjeevi Chitikeshi; Shirshak Dhali, Old Dominion University; Vukica Jovanovic, Old Dominion University

warehouses to name a few. Besides robotic control, The PLC based control system are usedin other types of applications including utilities, rides in theme parks, traffic control systems,railroad, aviation, and a variety of transportation modalities [1-6]. Traditionally, control usingPLCs is not taught in a ECE undergraduate or graduate curriculum. However, an electrical and/ormechanical engineer needs these skills to work in a variety of industries. Typical ECEcurriculum includes control theory, analog and digital electronics but seldom include courses inPLCs and integrating them with different equipment. This missing link led to the development ofPLC and industrial instrumentation related courses in remote learning and technology programs[7]-[10

Conference Session

Computers in Education 11 - Modulus 3

Collection

2022 ASEE Annual Conference & Exposition

Authors

Patriel Stapleton, University of Florida; Jeremiah Blanchard

camera serves as both an environment and identity camera andallows the proctor to see and monitor the examinee’s head, torso, arms, and desk (Figure 2). Thewider field of view ensures the integrity of the testing environment. For example, if the examineereaches out of the camera’s view, it can be detected.MethodsIn our work, we explore our primary research question: howdo students’ perceptions vary between the front-facing andside-view camera arrangements? We conducted an initialstudy in Spring 2021 and a follow-up in Fall 2021 to answer Figure 2. View using side-facing camera.  this question. Participants included 268 students from the Discrete Structures class – a

Conference Session

PCEE Technical Session 5: STEM Teacher Instructional Moves

Collection

2022 ASEE Annual Conference & Exposition

Authors

Farah Faruqi, University of Minnesota - Twin Cities; Khomson Keratithamkul, University of Minnesota - Twin Cities; Gillian Roehrig, University of Minnesota - Twin Cities; Benny Mart Hiwatig, University of Minnesota - Twin Cities; Elizabeth Forde; Nilay Ozturk, University of Minnesota

Paper ID #37398Manifestation of Integration into Practice: A Single CaseStudy of an Elementary Science Teacher in Action (Researchto Practice)Farah Faruqi Farah Faruqi is a Ph.D. Candidate in the STEM Education program at the University of Minnesota. She earned her bachelor's and master's degree in biological sciences from Pakistan. Her research focuses on integrated STEM learning, teacher practices, and online learning. She is interested in integrated STEM curriculum development, teacher practices, and teacher professional development to support STEM learning.Khomson Keratithamkul (PhD candidate)Gillian Roehrig

Conference Session

Industrial Engineering Division Technical Session 1

Collection

2022 ASEE Annual Conference & Exposition

Authors

Omar Ashour, Pennsylvania State University, Behrend College; Ashley Seamon, Pennsylvania State University, Behrend College; Christian Lopez, Lafayette College; Sabahattin Ozden; Daniell DiFrancesca, Pennsylvania State University, Behrend College; Conrad Tucker, Carnegie Mellon University

. 19–29, 2006, doi: 10.3102/0013189X035008019.[10] N. Campos, M. Nogal, C. Caliz, and A. A. Juan, “Simulation-based education involving online and on-campus models in different European universities,” Int. J. Educ. Technol. High. Educ., vol. 17, no. 1, 2020, doi: 10.1186/s41239-020-0181-y.[11] C. E. Lopez, O. Ashour, and C. Tucker, “An introduction to the CLICK approach: Leveraging virtual reality to integrate the industrial engineering curriculum,” 2019.[12] O. Ashour, C. E. Lopez, J. Cunningham, and C. S. Tucker, “Connected Learning and Integrated Course Knowledge ( CLICK ) Approach Connected Learning and Integrated Course Knowledge ( CLICK ) Approach,” 2021.[13] C. E. Lopez, J. Cunningham, O. Ashour