Displaying all 13 results
- Conference Session
- Interest & Identity
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Mary Ann Jacobs, Manhattan College; Zahra Shahbazi, Manhattan College
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
theright message (messages about engineering) in front of middle and high school students.” Theframework for our Engineering Ambassador program was to establish criteria for theundergraduate to serve students in middle and high schools near Manhattan College.The Ambassador program was uniquely designed to engage engineers in education and educatorsin engineering. The combination of content and methods requires the collaboration that modelsfor students that learning is no longer competitive, but rather cooperative. A strong contentbackground for a teacher is a must. But, so is the need to provide pre-adolescents and adolescentswith the autonomy that characterizes growth and development typical of these age groups. Whilethere may be limitations on
- Conference Session
- Professional Development for Teachers
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Sai Prasanth Krishnamoorthy, New York University; Sheila Borges Rajguru, New York University; Vikram Kapila, New York University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
beendesigned to provide such PD to prepare teachers to use mechatronics, robotics, andentrepreneurship to connect science and math with students’ contemporary interests. EffectiveSTEM PD supports transfer of training by immersing participants in content knowledge, allowsmodeling and practice of desired skills, promotes collaboration, and lasts for sufficient duration tohandle the cognitive demands of new learning [14-18]. These research-based practices of effectivePD have been adopted and embedded in a PLC [19], which, as a combination, has been shown toengage teachers in applying PD effectively to the classroom.PBL can be effectively explored using the exciting fields of mechatronics (synergistic integrationof mechanical engineering, control theory
- Conference Session
- Pre-College Engineering Education Division Poster Session
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- George J. Delagrammatikas, Cooper Union; Estuardo Rodas, Cooper Union
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
. He teaches undergraduate design, thermo- dynamics, and engineering experimentation and is the faculty adviser to both the Formula SAE Team (Cooper Motorsports) and Pi Tau Sigma Honor Society.Mr. Estuardo Rodas, Cooper Union Estuardo Rodas is Adjunct Professor of Mechanical Engineering at the Cooper Union for the Advance- ment of Science & Art where he is also Project Coordinator of the Mechanical Engineering Lab. He is adviser for Cooper’s Formula SAE team and a Lead Instructor for the summer STEM program for high school students. Among his other projects, Prof. Rodas designed the Ike Heller Center for Integrated Manufacturing and Robotics at Brooklyn Tech, collaborated in construction and design of the
- Conference Session
- Pre-College Engineering Education Focused on Female Students
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Mary B. Isaac, HEDGE Co.
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
studies from Old Dominion University in 2015. Isaac’s consultancy, HEDGE Co., focuses on working with formal and informal educators to grow the numbers of females pursuing engineering or technology careers. Additionally, she is a conferred Fellow of the Society of Women Engineers. c American Society for Engineering Education, 2019 Does How Pre-College Engineering and Technology Role Models See Themselves Relate to Girls' Engagement in the Fields? [Research to Practice]IntroductionSince the Equal Pay Act in 1963, female participation in engineering has increased only eightpoints, from less than 5 to 13% [1], while, in the fields of medicine, female participation
- Conference Session
- Engineering Career Attitudes
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Bugrahan Yalvac, Texas A&M University; Oluwatosin A. Bewaji, Texas A&M University; Madison Elaine Spier, Texas A&M University; Gustavo Mosqueda Elizondo III, Texas A&M University; Chiamaka Theclar Umah; Todd Sherron, Texas State University; J. Timothy Lightfoot, Texas A&M University; Carolyn L. Cannon, Texas A&M University; Robin S.L. Fuchs-Young, Texas A&M University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
careers, and are focused on those who are underrepresented in STEM and underserved. c American Society for Engineering Education, 2018Promoting the STEM Pipeline and Enhancing STEM Career AwarenessThrough Participation in Authentic Research Activities (RTP, Diversity) AbstractTo promote the STEM (Science, Technology, Engineering and Mathematics) pipeline andenhance the participation of students who have been historically underrepresented in STEMfields in the U.S, a team of faculty investigators with diverse expertise in STEM, education,public health and medicine have been working collaboratively on a National Institutes of Health(NIH)-funded STEM education project
- Conference Session
- Pre-College Engineering Education Focused on Female Students
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Jeanna R. Wieselmann, University of Minnesota; Emily Anna Dare, Florida International University; Gillian Roehrig, University of Minnesota; Elizabeth Ring-Whalen, St. Catherine University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
chapters. She is a former board member of the National Association of Research in Science Teaching and past president of the Association for Science Teacher Education.Dr. Elizabeth Ring-Whalen, St. Catherine University Elizabeth A. Ring-Whalen is an Assistant Professor of Education at St. Catherine University in St. Paul, MN. She holds a PhD in Curriculum and Instruction - STEM Education from the University of Min- nesota. Her research focuses on STEM education and what this looks like in PreK-12 classrooms and explores teachers’ beliefs of integrated STEM as well as how these beliefs influence teachers’ practices and student achievement in the classroom. Alongside this research, she has worked to explore the atti
- Conference Session
- Pre-College Engineering Education Division Poster Session
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Alissa Ruth, Arizona State University; Tameka Spence, Arizona State University; Joseph V. Hackman, Arizona State University; Jennifer Velez M.Ed., Arizona State University; Hope Parker, Arizona State University; Tirupalavanam G. Ganesh, Arizona State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
community engagement. Moreover, the curriculum incorporateshuman-centered design and key engineering processes to foster engineering habits of mind suchas systems thinking, optimism, and ethical consideration in engineering as well asentrepreneurial mindsets such as the three C’s (creativity, collaboration, communication).Throughout EPICS High, students continually explore potential problems in the community thatcan be solved by the skills they are learning in the classroom. Ultimately, students learn to workwith members of the community to create engineering solutions that are designed to address real-world problems. Preliminary research shows that EPICS High promotes positive outcomesamong high school students9,10. In a small study on an
- Conference Session
- Girls in Engineering
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Linda S Hirsch, New Jersey Institute of Technology
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
Paper ID #23808The Effectiveness of a Multi-year Engineering EnrichmentDr. Linda Hirsch, New Jersey Institute of Technology LINDA S. HIRSCH is the Assistant Director for Research, Evaluation and Program Operations for the Center for Pre-College programs at New Jersey Institute of Technology. Dr. Hirsch has a degree in educa- tional psychology with a specialty in Educational Statistics and Measurement from the Graduate School of Education at Rutgers University. She has been involved in all aspects of educational and psychological research for over 20 years. Dr. Hirsch has extensive experience conducting longitudinal research
- Conference Session
- Pre-college Engineering Education Division Technical Session 4
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Kimberly Farnsworth, Arizona State University; Jean S. Larson, Arizona State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
the sciences.Dr. Jean S Larson, Arizona State University Jean Larson, Ph.D., is the Educational Director for the NSF-funded Engineering Research Center for Bio- mediated and Bio-inspired Geotechnics (CBBG), and Assistant Research Professor in both the School of Sustainable Engineering and the Built Environment and the Division of Educational Leadership and Innovation at Arizona State University. She has a Ph.D. in Educational Technology, postgraduate training in Computer Systems Engineering, and many years of experience teaching and developing curriculum in various learning environments. She has taught technology integration and teacher training to undergrad- uate and graduate students at Arizona State University
- Conference Session
- Pre-college Engineering Education Division Technical Session 6
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Murad Musa Mahmoud, Wartburg College; Trinity Borland, Wartburg College; Ripken Gehrig Holst, Wartburg College; Kurt Henry Becker, Utah State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
, as well as different age groups or ethnicities.Summer Engineering ProgramThis paper discusses a Department of Education-funded , GEAR UP project aimed at increasinginterest in STEM for middle and high school students and to prepare them for college. Thesummer program targets 6 to 12th grade students with a focus on students from underrepresentedminorities to participate in the project.The focus is on the evaluation of the pilot year of a summer engineering program wheresecondary students performed engineering activities in collaboration with engineering researchfaculty, as well as graduate and undergraduate students in various engineering fields. Studentsattending the camp had just completed 7th grade. Because of the intense nature of the
- Conference Session
- Pre-college Engineering Education Division Technical Session 1
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Panagiotis Skrimponis, New York University; Nikos Makris, University of Thessaly; Karen Cheng, Columbia University; Jonatan Ostrometzky, Columbia University; Zoran Kostic, Columbia University; Gil Zussman, Columbia University; Thanasis Korakis, New York University; Sheila Borges Rajguru, Rutgers - The State University of New Jersey
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
University as a research assistant. His research interests include designing specialized hardware to accelerate applications on advanced FPGA platforms, developing network and communication algorithms on modern USRP/SDR platforms and prototyping ultra-low power nodes for IoT applications. Currently his main focus is on power consumption and performance optimizations for mmWave and THz communications. As part of the ’COSMOS educational team’, he designs exciting and interactive problem-based STEM learning experiences for K–12 students and teachers. The team organized a teacher professional development program, using wireless communications and NGSS to create hands-on engineering lessons and promote STEM. He was part of one
- Conference Session
- Engineering Professional Development using Robotics Activities
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Shramana Ghosh, NYU Tandon School of Engineering; Veena Jayasree Krishnan, NYU Tandon School of Engineering; Sheila Borges Rajguru, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
-Teacher Identities: In addition to identity issues regarding area of specialization amongthe teachers, similar concerns were noted among the facilitators. As specified previously, the fourdedicated facilitators for the PD were graduate students and postdoctoral researchers inengineering fields. However, as the PD progressed, the facilitators began to develop a greaterappreciation for the work done by the teachers. This illustrates an effective, bidirectionaloperationalization of social capital with facilitators and teachers learning from one-another.For each of the aforementioned themes, Table 2 below provides examples of key issues affectingteachers during the PD while Table 3 provides examples of changes induced and observed in boththe
- Conference Session
- Engineering Professional Development using Robotics Activities
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Veena Jayasree Krishnan, NYU Tandon School of Engineering; Sheila Borges Rajguru, NYU Tandon School of Engineering; Vikram Kapila, NYU Tandon School of Engineering
- Tagged Topics
- Diversity
- Tagged Divisions
- Pre-College Engineering Education
guidelines, and effective pedagogical approachesto promote the achievement of desired outcomes.The LEGO Mindstorms robot kit is widely used in K-12 STEM education. For example, in onerecent effort [22], it was used as a technological tool to aid in the pedagogy of physics, biology,and math lessons, resulting in teachers’ readiness to implement technology as a pedagogical toolin their classroom. The researchers in [22] claimed that a robotics-based learning methodologyhelps students readily visualize and access abstract STEM content knowledge. Recent studies haveadditionally explored varied pedagogical methods for STEM learning with robotics, e.g.,scaffolding [23], visual modeling [24], and project-based learning [25,26], among others.Assessment of