Displaying all 12 results
- Conference Session
- Engineering Physics Technical Session 4
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Angeles Dominguez, Tecnologico de Monterrey (ITESM) and Universidad Andres Bello; Jorge Eugenio de la Garza Becerra, Tecnologico de Monterrey (ITESM)
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- Engineering Physics & Physics
study took place, it seems to have been more successful due to itsapproach on how to integrate the courses. This initiative seeks to create a common groundapplicable to most areas to encourage the creation of hybrid courses to benefit the understandingof both students and teachers, by creating an integrated curriculum instead of isolated islands ofknowledge. This specific approach centers on the integration of the Physics I and Mathematics Icourses, named Fis-Mat, for its name in Spanish. While efforts have been made to create thefollowing courses and some implementations have been made for a Fis-Mat 3 course, the first oneis our center of study as it is the most mature.Different aspects of the course have been reported in previous
- Conference Session
- Engineering Physics Technical Session 3
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Kanti Prasad, University of Massachusetts, Lowell
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- Diversity
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- Engineering Physics & Physics
Electrical and Computer Engineering Dept. Founding Director Microelectronics/VLSI Technology University of Massachusetts Lowell1. Introduction We are already in the age of information technology revolution. Thisnot only incorporates traditional engineering but all aspects of power ofInternet also, culminating into a variety of state-of-art technologies. It is thesublime duty of engineering educators to integrate these technologies intotheir curriculum as a prime requirement. The class room instructions mustprepare the students not only to meet the challenges of the revolution butmust enable them to cope with the challenges presented because of perpetualenhancements in technologies. Presentation of
An Evaluation of a Digital Learning Management System In High School Physics Classrooms (Evaluation)
- Conference Session
- K-12 & Pre-College Engineering Division: Engineering Alignment with Core Curriculum (Physics)
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Meera N.K. Singh PEng, University of Calgary; Qiao Sun, University of Calgary; Cassy M. Weber, Science Alberta Foundation (o/a MindFuel)
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- Diversity
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- Engineering Physics & Physics, Pre-College Engineering Education Division
. Depending onthe activities accessed, learners can strategically gravitate toward information presented in eithera sensing or an intuitive manner.The third dimension of learning style differentiates between visual and verbal (or auditory)learners. One of the great advantages of the DLMS and its digital delivery of curriculum contentis that with multimedia, visual and auditory learners can be simultaneously engaged. Games,videos, and other digital interactives seamlessly integrate music, sound, narration, images, andwritten text in order to maximize the modalities in which students may be best captured with thematerial.The fourth dimension of learning style as defined in the FSLM contrasts sequential and globallearners. One of the defining elements
- Conference Session
- Engineering Physics Technical Session 2
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- James O'Brien, Wentworth Institute of Technology; Gergely Sirokman, Wentworth Institute of Technology; Franz J Rueckert, Wentworth Institute of Technology
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- Diversity
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- Engineering Physics & Physics
major.Several students have since reported that their undergraduate research experience was integral inobtaining a permanent job, often before graduation. Students have a confidence and self-motivation that was fostered by this course, which can be a strong differentiating factor forpotential employers when comparing resumes. 6ConclusionThe authors’ goal was to create a course in which students could conduct undergraduate researchin the sciences at an engineering school with no science programs. A general set of learningoutcomes was constructed encapsulating what any good scientist should learn from their firstresearch experience. As detailed in the three projects presented as examples, the course has
- Conference Session
- Engineering Physics Technical Session 1
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Angeles Dominguez, Tecnologico de Monterrey (ITESM) and Universidad Andres Bello ; Jorge Eugenio de la Garza Becerra, Tecnologico de Monterrey (ITESM); Genaro Zavala, Tecnologico de Monterrey (ITESM) and Universidad Andres Bello ; Cynthia Concepción Castro, Tecnologico de Monterrey, Campus Monterrey
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- Engineering Physics & Physics
(Eds.), Physics Education Research Conference, 818, 37–40, AIP (2005).8. T. Dray, B. Edwards and C. A. Manogue, “Bridging the gap between mathematics and physics”, (2008).9. R. Beichner, L. Bernnold, E. Burniston, P. Dali, R. Felder, J. Gastineau, J., et al., Case study of the physics component of an integrated curriculum. Physics Education Research Supplement to American Journal of Physics, 67(7), S16-S24, (1999).10. W. Blum, & M, Niss, Applied mathematical problem solving, modelling, applications, and links to other subject: States, trends and issues in mathematics instruction. Educational Studies in Mathematics, 22(1), 37- 68, (1991).11. J. Mestre, Implications of research on learning for the education of
- Conference Session
- K-12 & Pre-College Engineering Division: Engineering Alignment with Core Curriculum (Physics)
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Pamalee A. Brady, California Polytechnic State University - San Luis Obispo; Jennifer H. Rushing, Central Coast New Tech High
- Tagged Divisions
- Engineering Physics & Physics, Pre-College Engineering Education Division
Goldberg machine design Team 2 Conclusions The incorporation of notebooks in a physics high school classroom served to support the integration of engineering in the physics curriculum. The notebooks provided evidence of the key indicators essential for successful implementation of engineering in a science classroom as 17identified by Kersten – design process, STEM content, engineering thinking and engineering communication. They served as an effective tool for guiding the engineering design process and for stimulating the selfdirected learning and authentic assessments that are the goals of PBL curricula. In contrast with the project results of the previous year during which engineering design notebooks were not
- Conference Session
- Engineering Physics & Physics Division Poster Session
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Scott Kirkpatrick, Rose-Hulman Institute of Technology; Richard W. Liptak, Rose-Hulman Institute of Technology; Renat Letfullin, Rose-Hulman Institute of Technology
- Tagged Divisions
- Engineering Physics & Physics
in the UCSB Molecular-Beam Epitaxy Lab where he focused his research on investigating the ALD process on III-V semiconductors and the epitaxial growth of ohmic contacts on III-V materials. He returned to the University of Minnesota in 2010 as a research scientist investigating techniques to tailor the surface chemistry of SiNCs for use in light emitting diodes and solar cell applications. More recent work has focused on the growth and integration of CIGS and CIAGS homojunction and heterojunction solar cells. In the fall of 2013, he joined the Department of Physics and Optical Engineering at the Rose-Hulman In- stitute of Technology as an Assistant Professor. Current research efforts are focused on the development
- Conference Session
- Engineering Physics Technical Session 1
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Robert A Ross, University of Detroit Mercy; Katherine Snyder, University of Detroit Mercy
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- Diversity
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- Engineering Physics & Physics
the next term something like “Whichobject (or objects) never speed up?”We believe that the time and effort spent on analyzing these graphs has significant value becauseas students’ progress though the curriculum, the graphical representations become morecomplex. For example the spectral radiance involves a variable like wavelength on the horizontalaxis but the vertical axis is a derivative with unfamiliar units and interpretation. In an upper levelmodern physics course we introduce the idea of a cumulative distribution functions in thefollowing manner. Suppose we have a large population of people and need to determine somestatistics of a particular physical feature such as height in cm, h. We imagine setting up a polewith a bar at height h
- Conference Session
- Engineering Physics Technical Session 4
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Teresa L. Larkin, American University
- Tagged Divisions
- Engineering Physics & Physics
Paper ID #15547Writing in STEM: A Synthesis of Two Adaptive ApproachesDr. Teresa L. Larkin, American University Teresa L. Larkin is an Associate Professor of Physics Education and Faculty Liaison to the Pre-engineering Program at American University. She received her Ph.D. in Curriculum and Instruction with emphasis in Physics and Science Education from Kansas State University. Dr. Larkin is involved with Physics Education Research (PER) and has published widely on topics related to the assessment of student learn- ing in introductory physics and engineering courses. Noteworthy is her work with student writing as a
- Conference Session
- Engineering Physics Technical Session 1
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Courtney Hadsell, Cañada College
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- Diversity
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- Engineering Physics & Physics
skills, and an introduction to the content theywill see in their course. A majority of the program is self-paced allowing students to spend moretime on concepts they are struggling with. A cornerstone of the program is the intense study-skills workshops which teach students how to approach their upcoming course. Included in thesestudy skills are certain aspects of Reading Apprenticeship to show students how to not onlyapproach their text but the problems they will face during the semester. The goal of the programis to give students a toolbox to use during the semester and the confidence that they can succeedin the course. Continued academic support is also offered during the semester to keep students ontrack. Preliminary data shows that students
- Conference Session
- Engineering Physics Technical Session 2
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Ian Frommer, US Coast Guard Academy; Paul Benjamin Crilly, U.S. Coast Guard Academy
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- Diversity
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- Engineering Physics & Physics
Transactions on Education, Vol. E-26, No. 2, May 1983, pp. 49-51.3. Crawford, M. B., Shop Class as Soulcraft: An Inquiry into the Value of Work. New York: Penguin Press, 2009.4. Olin College Olin Collaboratory: Co-Designing Transformational Education. Accessed from: http://www.olin.edu/sites/default/files/shane_walker_headshop_smaller.jpg, 2015.5. Montoya, Y., Pacheco, A., Delgado, E., Webb, I, and Vaughan, M. (2015). “Developing Leaders by Putting Students in the Curriculum Development Driver Seat,” 2015 ASEE Conference and Exposition, Seattle, WA, June 2015.6. Papert, S. Mindstorms: Children, Computers, and Powerful Ideas. New York: Basic Books, 1980.
- Conference Session
- Engineering Physics Technical Session 3
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Greg S Mowry, University of St. Thomas; Camille M George, University of St. Thomas
- Tagged Topics
- Diversity
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- Engineering Physics & Physics
engineeringIntroductionUndergraduate engineering programs in the United States require an engineering designexperience, often described as, ‘senior design’, as part of the ABET (the Accreditation Board forEngineering and Technology) accreditation process. The ABET Definition of Design is, “Engineering design is the process of devising a system, component, or process to meet desired needs. …... The engineering design component of a curriculum must include most of the following features: development of student creativity, use of open-ended problems, development and use of modern design theory and methodology, formulation of design problem statements and specification, consideration of alternative solutions, feasibility considerations