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1,372,605 results

1. Paper Circuits vs. Breadboards: Materializing Learners' Powerful Ideas around Circuitry and Layout Design

Author

Peppler, Kylie A., Sedas, R. Mishael, and Thompson, Naomi

Abstract

This exploratory study compares how young people (ages 15-16) learn circuitry concepts and layout design principles important to electrical engineering using one of two educational circuitry toolkits: paper circuits and traditional solderless breadboards. Paper-based prototyping kits are representative of a trend that incorporates new materials and approaches to integrating arts into traditional STEM disciplines. Extending prior research on how non-traditional toolkits enhance learning of electrical engineering outcomes, including basic circuitry concepts (i.e., current flow, polarity, and connections), this study examines the material affordances and design choices of the kits that contribute to youth's understanding of more advanced circuitry layout design principles, including space allocation, placement of electronic components, and routing. Results indicate that paper circuits better afford the learning of layout design principles for printed circuit boards (PCBs) with large effect sizes. This study illuminates how the materials of educational toolkits uniquely solicit body- and material-syntonic patterns of activity, and thus differentially engage learners' powerful ideas around circuitry and design principles. This investigation encourages careful consideration of the material affordances of some toolkits over others for learning purposes.

Published
2023
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7. Inclusive Professional Framework for Societies: Changing Mental Models to Promote Diverse, Equitable, and Inclusive STEM Systems Change. WCER Working Paper No. 2021-8

Author

University of Wisconsin-Madison, Wisconsin Center for Education Research (WCER), Leibnitz, Gretalyn, Gillian-Daniel, Donald L., Greenler, Robin M., Campbell-Montalvo, Rebecca, Metcalf, Heather, Segarra, Verónica A., Peters, Jan W., Patton, Shannon, Lucy-Putwen, Andrea, and Sims, Ershela L.

Abstract

Science, technology, engineering, and mathematics (STEM) professional societies (ProS) are uniquely positioned to foster national-level diversity, equity, and inclusion (DEI) reform. ProS serve broad memberships, define disciplinary norms and culture, and inform accrediting bodies, thus providing "excellent leverage with which to design and promote change" (National Academy of Sciences et al., 2005). ProS could be instrumental in achieving the DEI culture reform necessary to optimize engagement of all STEM talent by leveraging disciplinary excellence resulting from diverse teams. Inclusive STEM culture reform requires that underlying "mental models'' be examined (Kania et al., 2018). The "Inclusive Professional Framework for Societies (IPF:Societies)" can help ProS change leaders (i.e., "boundary spanners'") and organizations identify and address mental models hindering DEI reform. "IPF:Societies" uses four "I's"--Identity awareness and Intercultural mindfulness (i.e., equity mindset) on which Inclusive relationships and Influential DEI actions are scaffolded. We discuss how "IPF:Societies" complements existing DEI tools. We explain how "IPF:Societies" can be applied to existing ProS policy and practice associated with common ProS functions (e.g., leadership, membership, conferences, awards, and professional development). Next steps are to pilot "IPF:Societies" with a cohort of STEM ProS. Ultimately, "IPF:Societies" has potential to promote more efficient, effective, and lasting DEI organizational transformation, and contribute to inclusive STEM disciplinary excellence.

Published
2021

15. Exploring the Situated and Cultural Aspects of Communication in the Professions: Implications for Teaching, Student Employability, and Equity in Higher Education. WCER Working Paper No. 2018-11

Author

University of Wisconsin-Madison, Wisconsin Center for Education Research (WCER), Hora, Mathew T., Smolarek, Bailey B., Martin, Kelly Norris, and Scrivener, Lee

Abstract

One of the problematic features of the increasingly influential discourse of student employability in higher education is the widespread conception of "skills" as de-contextualized bits of knowledge, ability, and disposition. Instead, how particular competencies are valued, defined, and utilized in practice is deeply shaped by sociocultural, political, and situational factors. The effect of these influences is especially relevant for communication skills, which are widely viewed as critical for employability. In this study we examine how nursing and engineering experts and novices conceptualize communication within specific situations. The data highlight distinct ways respondents define communication and the role of contextual and cultural factors in shaping these perspectives, and how views of "acceptable" communication risk reifying norms of dominant classes while ignoring cultural variability.

Published
2018

21. Engineering Graduates for UK Manufacturing: 'Further Confirmation of the Evident Minimal Impact of Possible Workforce-Planning Policy Responses to Sectoral Shortage Reports.' SKOPE Research Paper No. 125

Author

University of Oxford (United Kingdom), Centre on Skills, Knowledge and Organisational Performance (SKOPE) and Dixson, Matthew

Abstract

This paper examines evidence from the HESA DLHE six-month Censuses and 3½ year ('longitudinal') surveys relating to three aspects of the flows of those who have left university with Higher Education Engineering qualifications, to test the robustness of the conclusions of SKOPE Research Paper No. 122 (Dixon, 2015), which showed strong evidence that most Engineering graduates do not go on to work in the sectors of the economy that might be expected, in particular in the 'natural' Manufacturing sub-sector. Specifically, the paper examines three questions: (1) whether evidence of starting salary levels for those from particular disciplines going into particular sectors could explain the relative flows (on the assumption that higher salaries for graduate vacancies in a particular sector would attract more applications); (2) whether evidence of sector destinations three years on from the (six-month after graduation) Census data analysed in Dixon (2015) would show up significantly different levels of 'leakage'; and (3) whether those entering employment having completed Taught Masters (as opposed to First Degree) courses in particular Engineering disciplines would tend (in the light of their apparent greater interest and deeper understanding in the specific discipline) to enter the "expected" sectors more than their Bachelors colleagues. The "bottom line" answers to these questions is that -- with rather minor exceptions -- none of the relevant broader evidence from HESA DLHE data over a ten-year period significantly questions the very considerable 'leakage', away from the 'natural' Manufacturing sub-sector, that was found and presented in Dixon (2015). (1) There is "some" correlation between the "average salaries offered" (by employers in each 'destination' sector to cohorts from each Engineering discipline examined) and the "size of the flows" from each discipline into each sector, but it is limited and rarely strong. While there might be reasons why average salary differences might not be large enough to provide a sufficient incentive for Engineering graduates to choose one sector over another, evidence of considerably greater correlation would have been helpful to justify the traditional response of classical economics to employers' concerns about shortages: "offer more money"! (2) While there are sample size issues constraining the statistical precision of comparisons between the two DLHE surveys, these have been addressed, and comparisons of the "linear flows" of graduates from each discipline into the natural Manufacturing sub-sector show (a) comparatively very small differences, and (b) on balance, slightly "greater" 'leakage' three years on; and (3) More MSc's in "Automotive" and "Aerospace Engineering" have, over the ten years examined, then gone into the "Manufacture of Motor Vehicles"... and "Air and Space craft manufacture" (respectively) than BEng's from these disciplines. However, for the other disciplines compared, there is little difference, and -- in terms of entry into Manufacturing as a whole, for the most recent year in the period - the fraction of the disciplinary cohorts entering "any type of Manufacturing" is slightly "higher" for MSc's than First Degree (FD) graduates in "three" Engineering disciplines, though "lower" for MSc's than FD's in "four"! This new evidence, therefore, only serves to "strengthen" the great importance of NOT assuming linear flows of Engineering graduates into the "natural" Manufacturing sub-sectors corresponding to their discipline, in particular in policy responses to reports of shortages from such sub-sectors.

Published
2017

22. Full Four-Door Universal Handing JIG and Products Based on MTP System

Author

Zhao, Dezhi, Wang, Yong, China Society of Automotive Engineers, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, and Tan, Kay Chen, Series Editor

Published
2024
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23. Conditional Pictorial (Creative) Language of Engineering and Architectural thought in the Construction Site of the 20s of the XX Century

Author

Zagidullin, R. R., Mirkhasanov, R. F., Gayduk, A. R., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Klyuev, Sergey Vasil'yevich, editor, Vatin, Nikolai Ivanovich, editor, and Sabitov, Linar Salikhzanovich, editor

Published
2024
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24. Techno-economic evaluation of industrial heat pump applications in US pulp and paper, textile, and automotive industries

Author

Zuberi, M Jibran S, Hasanbeigi, Ali, and Morrow, William

Subjects
Civil Engineering, Engineering, Affordable and Clean Energy, Climate Action, Industrial heat pumps, Electrification, Process heat, Specific costs, CO2 emissions, Specific energy consumption, USA, Electrical and Electronic Engineering, Urban and Regional Planning, Applied economics, Civil engineering
Abstract

Industrial process heat decarbonization through electrification could contribute significantly to climate change mitigation efforts. In the US industry, thermal processes accounted for more than two-thirds of the total final energy demand in 2021. Cross-cutting electrification technologies like industrial heat pumps are suitable for the process heat supply to several industrial unit operations in a sustainable way while also improving overall energy efficiency. This study employs a bottom-up approach to investigate the techno-enviro-economic potentials of deploying high-temperature and steam-generating heat pumps in US textile, pulp and paper, and automotive sectors in different timeframes. The results show that the annual technical potential energy and CO2 savings by electrifying heat supply are 310 PJ (or 36% of the projected energy demand) and 28 MtCO2 (or 71% of the projected CO2 emissions) in 2050 respectively, however, these incur additional costs in each sector (ranging between 5 and 18 $/GJ). The required heating capacity of industrial heat pumps is estimated at 15 GW, which translates roughly into a market of over 6000 heat pump units and an investment volume of $7 billion in the studied processes. Although there may be individual cost-effective opportunities for electrifying heat supply in specific industrial sites, the overall costs are estimated to be high in the three industrial sectors due to the large disparity between electricity and natural gas prices and low heat source temperatures. To overcome the identified techno-economic barriers, comprehensive action plans for different stakeholders are also given. This study provides novel insights that should inform policymakers’ and executives’ decisions about the electrification of the current and future US industrial heat supply in relevant industrial sectors.

Published
2023

27. Rapid Measurement of Residual Kanamycin Using Highly Specific Biomimetic Recognition Paper-Based Chip

Author

Song, Jian, He, Kaiyu, Xing, Bingcong, Pei, Yong, Wang, Dingnan, Wang, Yang, Li, Shiyan, Li, Jie, Huan, Weiwei, Zhang, Yiming, and Hammock, Bruce D

Subjects
Fluid Mechanics and Thermal Engineering, Engineering, Chemical Sciences, Bioengineering, Biotechnology, Molecular Imprinting, Biomimetics, Kanamycin, Biomimetic Materials, Analytical Chemistry, Other Chemical Sciences, Medical biochemistry and metabolomics, Analytical chemistry, Chemical engineering
Abstract

The development of highly specific biomimetic recognition material is a challenge for rapid detection of harmful residues in foodstuff. In this study, a paper-based boronate affinity metal-organic framework/molecularly imprinted polymer microfluidic chip (FZS-BA@MIP) was constructed based on the in situ construction strategy, which was also designed as a highly specific biomimetic recognition module. Here, the homogeneous zeolitic imidazole framework-8 (ZIF-8) membrane served as a great scaffold and enrichment layer. Besides, the recognition layer of MIP was prepared based on a highly oriented boronate affinity surface imprinting strategy. With the aid of the liquid flow channel, the highly specific enrichment and visual detection for antibiotic residues like kanamycin in actual products were achieved on the paper chip module of an integrated lateral flow platform. The whole analysis process could be accomplished within 30 min. In brief, this study offered a new integrated biomimetic recognition platform for visually detecting harmful veterinary residues containing cis-diols, which demonstrated promising commercial value in point-of-care testing of foodborne hazardous compounds.

Published
2022

28. Analysis of Question Papers in Engineering Courses with Respect to HOTS (Higher Order Thinking Skills)

Author

Narayanan, Sowmya and Adithan, M.

Abstract

It is generally perceived that a substantial number of engineering faculty are still unaware of alternative educational methods, and many who are aware of them choose not to incorporate them into their approach to teaching. There are several likely reasons for this inertia, aside from the inevitable human resistance to change. The primary focus of imparting information is restricted to fulfilling the course requirements and, the upcoming term end examination. It is imperative to adopt a change from teaching to learning paradigm engaging the students in Higher Order Thinking Skills. Knowledge and technological advancements are changing the role of engineering and engineering faculty in the society. Engineering Education reforms need to focus on inductive teaching and stimulated learning. Students should be taught critical thinking skills and creative thinking skills to keep pace with the rapidly changing engineering profession. This paper reports the study done to test and explore the faculty awareness of Bloom's Taxonomy of Educational Objectives in the cognitive domain and Higher Order Thinking Skills (HOTS) and to evaluate question papers set by engineering faculty with respect to HOTS as proposed by Bloom's Taxonomy. Various active learning strategies to enhance critical thinking skills and creative thinking skills of the students are recommended for use by the faculty in their interactions with the students.

Published
2015

31. Fluorometric Paper-Based, Loop-Mediated Isothermal Amplification Devices for Quantitative Point-of-Care Detection of Methicillin-Resistant Staphylococcus aureus (MRSA)

Author

Choopara, Ilada, Suea-Ngam, Akkapol, Teethaisong, Yothin, Howes, Philip D, Schmelcher, Mathias, Leelahavanichkul, Asada, Thunyaharn, Sudaluck, Wongsawaeng, Doonyapong, deMello, Andrew J, Dean, Deborah, and Somboonna, Naraporn

Subjects
Analytical Chemistry, Engineering, Electronics, Sensors and Digital Hardware, Chemical Sciences, Emerging Infectious Diseases, Antimicrobial Resistance, Bioengineering, Infectious Diseases, Infection, Good Health and Well Being, Humans, Methicillin-Resistant Staphylococcus aureus, Molecular Diagnostic Techniques, Nucleic Acid Amplification Techniques, Point-of-Care Systems, Sensitivity and Specificity, molecular diagnostic, DNA detection, loop-mediated isothermal amplification, methicillin-resistant Staphylococcus aureus, paper-based analytical device, point-of-care, quantitative detection, Biomedical Engineering, Nanotechnology, Analytical chemistry, Electronics, sensors and digital hardware
Abstract

Loop-mediated isothermal amplification (LAMP) has been widely used to detect many infectious diseases. However, minor inconveniences during the steps of adding reaction ingredients and lack of simple color results hinder point-of-care detection. We therefore invented a fluorometric paper-based LAMP by incorporating LAMP reagents, including a biotinylated primer, onto a cellulose membrane paper, with a simple DNA fluorescent dye incubation that demonstrated rapid and accurate results parallel to quantitative polymerase chain reaction (qPCR) methods. This technology allows for instant paper strip detection of methicillin-resistant Staphylococcus aureus (MRSA) in the laboratory and clinical samples. MRSA represents a major public health problem as it can cause infections in different parts of the human body and yet is resistant to commonly used antibiotics. In this study, we optimized LAMP reaction ingredients and incubation conditions following a central composite design (CCD) that yielded the shortest reaction time with high sensitivity. These CCD components and conditions were used to construct the paper-based LAMP reaction by immobilizing the biotinylated primer and the rest of the LAMP reagents to produce the ready-to-use MRSA diagnostic device. Our paper-based LAMP device could detect as low as 10 ag (equivalent to 1 copy) of the MRSA gene mecA within 36-43 min, was evaluated using both laboratory (individual cultures of MRSA and non-MRSA bacteria) and clinical blood samples to be 100% specific and sensitive compared to qPCR results, and had 35 day stability under 25 °C storage. Furthermore, the color readout allows for quantitation of MRSA copies. Hence, this device is applicable for point-of-care MRSA detection.

Published
2021

33. A Comparative Analysis of Interactional Metadiscourse Markers in the Introduction and Conclusion Sections of Mechanical and Electrical Engineering Research Papers

Author

Estaji, Masoomeh and Vafaeimehr, Roya

Abstract

Academic writing, particularly writing research articles, is an indispensable part of every major in higher education. Hyland (2004) argued that a valuable means of exploring academic writing, and comparing the rhetorical features and preferences of different discourse communities, is through the metadiscourse analysis of the text. The present study examines the differences in the use, type, and frequency of interactional metadiscourse markers in the introduction and conclusion sections of research papers across the two disciplines of Mechanical and Electrical Engineering. To this end, 42 research articles (21 Mechanical and 21 Electrical Engineering) written by English native speakers were randomly selected from two major international journals. The current study made use of Hyland's (2005) model for analyzing the interactional metadiscourse markers used in the selected corpus, consisting of 41484 words. To analyze the data, the frequency, patterns of use, and type of interactional metadiscourse markers were elicited both through a manual corpus analysis and concordance package. Furthermore, to examine whether there is any significant difference in the use of metadiscourse markers in the introduction and conclusion sections of these papers, a Chi-square analysis was run. The results of the quantitative analysis revealed that although there were some minor differences in the frequency and type of these metadiscourse markers, there was no statistically significant difference across the disciplines, which can be attributed to the close nature of these fields. The findings of this study may render some pedagogical implications for ESP courses and especially writing research papers.

Published
2015

35. Exploring Data-Driven Decision-Making in the Field: How Faculty Use Data and Other Forms of Information to Guide Instructional Decision-Making. WCER Working Paper No. 2014-3

Author

Wisconsin Center for Education Research, Hora, Matthew T., Bouwma-Gearhart, Jana, and Park, Hyoung Joon

Abstract

A defining characteristic of current U.S. educational policy is the use of data to inform decisions about resource allocation, teacher hiring, and curriculum and instruction. Perhaps the biggest challenge to data-driven decision making (DDDM) is that data use alone does not automatically result in improved teaching and learning. Research indicates that translating raw data into useable information and actionable knowledge for teachers requires not only adequate technical and social supports, but also an awareness of how educators in real-world settings actually use information to make decisions. Yet, little is known about DDDM in higher education, in general, and how postsecondary faculty make sense of and use data in their instructional decision-making processes, in particular. In this paper, we use naturalistic decision-making theory to generate practice-based descriptions of how 59 STEM faculty at three large public research universities used data as part of their course planning. Interview transcripts and notes taken while observing planning meetings were analyzed using an inductive approach to content analysis. In practice, respondents used different types of data and other information obtained from, for example, student assessments, end-of-semester evaluations, and conversations with colleagues. Results indicate that faculty generally collect and analyze data in informal, ad hoc scenarios ungoverned by institutional policy. Exceptions include disciplines with accreditation pressures and team-taught courses where structured (and supported) opportunities exist for faculty to collect, analyze, and reflect upon data about student learning. Thus, while numeric data are clearly viewed by this population of faculty as the most rigorous, in practice, even those that use quantitative data also use other sources of information. These results suggest an opportunity for educational leaders to design policies and professional development initiatives that facilitate a more formal collection of and reflection on data by faculty. In pursuing such technical solutions, however, policymakers and educational leaders must carefully negotiate the tension between rigor and relevance, and learn from the challenges experienced in the K-12 sector regarding DDDM.

Published
2014

38. Hybrid paper and 3D-printed microfluidic device for electrochemical detection of Ag nanoparticle labels

Author

Walgama, Charuksha, Nguyen, Michael P, Boatner, Lisa M, Richards, Ian, and Crooks, Richard M

Subjects
Engineering, Materials Engineering, Nanotechnology, Bioengineering, Biotechnology, Electrochemical Techniques, Lab-On-A-Chip Devices, Metal Nanoparticles, Paper, Printing, Three-Dimensional, Silver, Chemical Sciences, Analytical Chemistry, Chemical sciences
Abstract

In the present article we report a new hybrid microfluidic device (hyFlow) comprising a disposable paper electrode and a three-dimensional (3D) printed plastic chip for the electrochemical detection of a magnetic bead-silver nanoparticle (MB-AgNP) bioconjugate. This hybrid device evolved due to the difficulty of incorporating micron-scale MBs into paper-only fluidic devices. Specifically, paper fluidic devices can entrap MB-containing conjugates within their cellulose or nitrocellulose fiber matrix. The hyFlow system was designed to minimize such issues and transport MB conjugates more efficiently to the electrochemical detection zone of the device. The hyFlow system retains the benefit of fluid transport by pressure-driven flow, however, no pump is required for its operation. The hyFlow device is capable of detecting either pre-formed MB-AgNP conjugates or conjugates formed in situ. The detection limit of AgNPs using this device is 12 pM, which represents just 22 AgNPs per MB.

Published
2020

40. Modifying Wicking Speeds in Paper-Based Microfluidic Devices by Laser-Etching

Author

Kalish, Brent, Tan, Mick Kyle, and Tsutsui, Hideaki

Subjects
Fluid Mechanics and Thermal Engineering, Engineering, Materials Engineering, Biotechnology, Bioengineering, paper-based microfluidics, laser-etching, wicking speeds, faster wicking, Nanotechnology
Abstract

Paper-based microfluidic devices are an attractive platform for developing low-cost, point-of-care diagnostic tools. As paper-based devices' detection chemistries become more complex, more complicated devices are required, often entailing the sequential delivery of different liquids or reagents to reaction zones. Most research into flow control has been focused on introducing delays. However, delaying the flow can be problematic due to increased evaporation leading to sample loss. We report the use of a CO2 laser to uniformly etch the surface of the paper to modify wicking speeds in paper-based microfluidic devices. This technique can produce both wicking speed increases of up to 1.1× faster and decreases of up to 0.9× slower. Wicking speeds can be further enhanced by etching both sides of the paper, resulting in wicking 1.3× faster than unetched channels. Channels with lengthwise laser-etched grooves were also compared to uniformly etched channels, with the most heavily grooved channels wicking 1.9× faster than the fastest double-sided etched channels. Furthermore, sealing both sides of the channel in packing tape results in the most heavily etched channels, single-sided, double-sided, and grooved, wicking over 13× faster than unetched channels. By selectively etching individual channels, different combinations of sequential fluid delivery can be obtained without altering any channel geometry. Laser etching is a simple process that can be integrated into the patterning of the device and requires no additional materials or chemicals, enabling greater flow control for paper-based microfluidic devices.

Published
2020

41. A review on engineering of cellulosic cigarette paper to reduce carbon monoxide delivery of cigarettes.

Author

Shen J, Li J, Qian X, Ren W, and Fatehi P

Subjects
Permeability, Carbon Monoxide chemistry, Cellulose chemistry, Engineering methods, Paper, Tobacco Products
Abstract

In cigarette production, the cellulosic paper essentially derived from flax fibers or other fiber materials is used as the wrapping material. During smoking of cigarettes, the highly toxic carbon monoxide is produced. To decrease the amount of carbon monoxide emission in the mainstream smoke, the engineering of all cigarette components including cellulosic cigarette paper and tobacco column is critical. This review summarizes the concepts related to engineering of cigarette paper. These mainly include permeability control, increased use of burn additives, optimization of fiber basis weight, engineering of calcium carbonate fillers, and incorporation of catalysts/oxidants. In particular, catalytic and/or oxidative conversion of carbon monoxide to carbon dioxide has been very widely reported. The control of permeability/diffusivity of cigarette paper is also of critical importance for enhanced diffusion of carbon monoxide out of the cigarette. The development of new concepts and combination of various concepts may lead to breakthroughs in this area., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2014
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42. High School Students' Use of Paper-Based and Internet-Based Information Sources in the Engineering Design Process

Author

Pieper, Jon and Mentzer, Nathan

Abstract

Mentzer and Becker (2011) and Becker and Mentzer (2012) demonstrated that high school students engaged in engineering design problems spent more time accessing information and spent more time designing when provided with Internet access. They studied high school students engaged in an engineering design challenge. The two studies attempted to apply the same research methodology as was used in previous work by Atman to facilitate comparison between high school students and experts. The 2011 study included Internet access, but the 2012 study did not. Their work showed that with Internet access, students spent an average of 137 minutes engaged in designing a playground and students allocated 47 minutes (35%) to information access. Without Internet access, similar students from the same schools on the same design problem spent an average of 92 minutes of which, 10 minutes (10%) was dedicated to information access. With limited computer access or limited time to enable students to access a computer in some classrooms, the research questions guiding this study are: (1) What information do high school students spend time accessing during an engineering design challenge? How much information comes from paper-based resources as compared to the Internet?; and (2) How much time do they spend accessing information? What is the balance of time spent accessing information from paper-based sources as compared to the Internet? Findings and implications of this research on student learning are discussed. Recommendations for future research are also offered. (Contains 5 tables and 1 figure.)

Published
2013

44. Engineering Design Challenges in High School STEM Courses: A Compilation of Invited Position Papers

Author

National Center for Engineering and Technology Education (NCETE), Householder, Daniel L., Householder, Daniel L., and National Center for Engineering and Technology Education (NCETE)

Abstract

Since its initial funding by the National Science Foundation in 2004, the National Center for Engineering and Technology Education (NCETE) has worked to understand the infusion of engineering design experiences into the high school setting. Over the years, an increasing number of educators and professional groups have participated in the expanding initiative seeking to acquaint all students with engineering design. While there is strong support for providing students with engineering design experiences in their high school science, technology, engineering, and mathematics (STEM) courses, the lack of consensus on purposes and strategies has become increasingly apparent as the work continues. In February, 2011, NCETE sought position statements from a small number of engineering educators, cognitive scientists, instructional designers, and professional development providers who have been engaged in long-term efforts to provide students with engineering design experiences in their high school STEM courses. Each of these experienced professionals was asked to provide brief descriptions of principles or guidelines that they consider to be most important in promoting effective infusion of authentic engineering design challenges into STEM courses for all high school students. This publication contains the following papers: (1) Design Problems for Secondary Students (David H. Jonassen); (2) Infusing Engineering Design into High School STEM Courses (Morgan Hynes, Merredith Portsmore, Emily Dare, Elissa Milto, Chris Rogers, and David Hammer); (3) Integrating Engineering Design Challenges into Secondary STEM Education (Ronald L. Carr and Johannes Strobel); (4) Design Principles for High School Engineering Design Challenges: Experiences from High School Science Classrooms (Christian Schunn); (5) Engineering Design Challenges in a Science Curriculum (Arthur Eisenkraft); and (6) A Possible Pathway for High School Science in a STEM World (Cary Sneider). (Individual papers contain figures, references and appendices.)

Published
2011

45. Skill Shortages in the Trades during Economic Downturns. Occasional Paper

Author

National Centre for Vocational Education Research and Oliver, Damian

Abstract

During the recent economic downturn, media and industry reports of skill shortages in the trades continued to appear. The intent of this paper is to examine the evidence for skill shortages in the trades persisting during the economic downturns over the last 20 years, using various indicators. These include employment growth, vacancy rates, unemployment rates, apprentice completions and occupational mobility. This paper contains the following key messages: (1) There is no evidence of persistent skill shortages during downturns in the construction, automotive and engineering trades, and unconvincing evidence of persistent shortages in the electrotechnology and telecommunications trades, the food trades and hairdressing; (2) Declining numbers of apprenticeship completions account for much of the persistent shortage in the electrotechnology and telecommunications trades during the 1990s and 2000s, but apprenticeship completions (expressed as a proportion of employment) for this trade have now recovered to pre-1992 levels. If recent completion numbers are maintained, it should be possible to avoid future skill shortages; and (3) Very high job churn creates the perception of persistent skill shortages in the food trades and in hairdressing. Many food tradespersons and hairdressers swap employers but remain in their occupation. Two appendices are included. (Contains 22 tables, 21 figures and 4 footnotes.)

Published
2011

46. Teaching in the Cloud: Leveraging Online Collaboration Tools to Enhance Student Engagement. CRLT Occasional Paper No. 31

Author

University of Michigan, Center for Research on Learning and Teaching (CRLT), Hershock, Chad, and LaVaque-Manty, Mika

Abstract

The rapid proliferation of technology can have profound effects on the evolution of teaching, learning, scholarship, and governance in higher education (Katz, 2008). However, instructors report that simply "keeping up" with new instructional technologies, let alone integrating them productively into one's teaching, can be a significant challenge (Sorcinelli, Austin, Eddy, & Beach, 2006; Zhu, Kaplan, & Dershimer, 2011). This Occasional Paper describes how instructors at the University of Michigan are currently using online collaboration tools (hereafter OCTs) in a variety of disciplines and teaching contexts to enhance student engagement and course management. Based on these cases and faculty interviews, the authors also outline recommendations for implementing OCTs effectively and efficiently in teaching.

Published
2012

47. Academic Disciplines and the Undergraduate Experience: Rethinking Bok's 'Underachieving Colleges' Thesis. SERU Project and Consortium Research Paper. Research & Occasional Paper Series: CSHE.6.11

Author

University of California, Berkeley, Center for Studies in Higher Education, Brint, Steven, and Cantwell, Allison M.

Abstract

Using data from the 2008 University of California Undergraduate Experience Survey, we show that study time and academic conscientiousness were lower among students in humanities and social science majors than among students in science and engineering majors. Analytical and critical thinking experiences were no more evident among humanities and social sciences majors than among science and engineering majors. All three academically beneficial experiences were, however, strongly related to participation in class and interaction with instructors, and participation was more common among humanities and social sciences students than among science and engineering students. Bok's (2006) influential discussion of "underachievement" in undergraduate education focused on institutional performance. Our findings indicate that future discussions should take into account differences among disciplinary categories and majors as well. (Contains 4 tables and 13 footnotes.)

Published
2011

49. Developing Graduate Students of Color for the Professoriate in Science, Technology, Engineering, and Mathematics (STEM). Research & Occasional Paper Series: CSHE.6.06

Author

California Univ., Berkeley. Center for Studies in Higher Education. and MacLachlan, Anne J.

Abstract

This paper presents part of the results of a completed study entitled "A Longitudinal Study of Minority Ph.D.s from 1980-1990: Progress and Outcomes in Science and Engineering at the University of California during Graduate School and Professional Life." It focuses particularly on the graduate school experience and degree of preparation for the professoriate of African American doctoral students in the sciences and engineering, and presents the results of a survey of 33 African American STEM Ph.D.s from the University of California earned between 1980-1990. Relationships with thesis advisors and principal investigators are evaluated by the study participants in fifteen specific areas from highly-ranked intellectual development to low-ranked training in grant writing. Deficits in training and socialization are discussed along with the tension between being both an African American and a graduate student. Career choices and outcomes are presented. These findings, in conjunction with current analyses of graduate education in STEM, suggest ways in which graduate training for all could be improved. (Contains 1 table.) [Financial support for this project was provided by the U.C. Industry-University Cooperative Research Program; and the U.C. Berkeley Graduate Division.]

Published
2006