Conference Session

Materials Division Poster Session

Collection

2013 ASEE Annual Conference & Exposition

Authors

Somnath Chattopadhyay, Georgia Southern University

Tagged Divisions

Materials

Paper ID #7726Analytical Studies on S-N Curves for Some SteelsProf. Somnath Chattopadhyay, Georgia Southern University Page 23.193.1 c American Society for Engineering Education, 2013 Analytical Studies on S-N Curves for Some SteelsABSTRACTExperimental data are often employed to obtain stress amplitude versus number of cycles tofailure characteristics of materials (S-N Curve). This activity as a laboratory component of ajunior level materials science course explores a novel way to understand the fatigue failureprocess. The

Conference Session

Materials Experiments, Labs, Demos, and Hands-On Activities

Collection

2011 ASEE Annual Conference & Exposition

Authors

David S. Cottrell, University of North Carolina, Charlotte; Chung-Suk Cho, University of North Carolina, Charlotte

Tagged Divisions

Materials

Paper ID #2235Renovating Education Inside and Outside of the Classroom: An Update onan Ongoing NSF Grant Featuring Innovative Initiatives to Revolutionize aFirst-Year Construction Materials CourseDavid S. Cottrell, University of North Carolina, Charlotte Dr. David S. Cottrell is an Assistant Professor in the Department of Engineering Technology, University of North Carolina at Charlotte. He graduated from the United States Military Academy in 1978 and re- tired in 2000 after more than 22 years of service with the U.S. Army Corps of Engineers. Studies at Texas A&M University resulted in an M.S. Degree in Civil Engineering

Conference Session

Materials Division Technical Session 1

Collection

2016 ASEE Annual Conference & Exposition

Authors

Alison K. Polasik, The Ohio State University; Glenn S. Daehn, The Ohio State University; Michelle R. McCombs, The Ohio State University

Tagged Divisions

Materials

Paper ID #16937Implementation of Materials Science in the High School ClassroomDr. Alison K. Polasik, The Ohio State UniversityProf. Glenn S. Daehn, The Ohio State UniversityMichelle R. McCombs, The Ohio State University Michelle R. McCombs is the Program Manager and Education and Outreach Coordinator for the Center for Emergent Materials, an NSF MRSEC, CEM, at The Ohio State University. She received both her B.S. and M.S. in Chemistry at Western Kentucky University and M.A. in Science Education at the Uni- versity of California, Davis. In addition to conducting evaluation for this Math and Science Partnership Program, she

Conference Session

Outreach Activities and Introductory Materials Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

Tasha Zephirin, Purdue University, West Lafayette; Mohammad Mayy, Norfolk State University; Monica Farmer Cox, Purdue University, West Lafayette; Tanya S. David, Norfolk State University

Tagged Divisions

Materials

AC 2012-5017: THE DEVELOPMENT OF AN OUTREACH ACTIVITYINTRODUCING MIDDLE AND HIGH SCHOOL STUDENTS TO NAN-OTECHNOLOGY AND CARBON NANOTUBESTasha Zephirin, Purdue University, West Lafayette Tasha Zephirin is a doctoral student in the Department of Engineering Education at Purdue University. She received her B.S. in electrical engineering from Virginia Tech and her research interests involve incor- porating concepts from learning theories, international and global education, and multicultural education to best advise the development of STEM education to diverse audiences across the education continuum.Mr. Mohammad Mayy, Norfolk State UniversityDr. Monica Farmer Cox, Purdue University, West LafayetteMs. Tanya S. David, Norfolk

Conference Session

Materials Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Marian S. Kennedy, Clemson University; Natasha Mamaril, University of Kentucky; David Ross Economy, Clemson University; Ellen L. Usher, University of Kentucky; Caihong Li, University of Kentucky; Julia L. Sharp, Clemson University

Tagged Topics

Diversity

Tagged Divisions

Materials

Paper ID #11710Undergraduate Students’ Materials Science and Engineering Self-Efficacy:Assessment and ImplicationsProf. Marian S. Kennedy, Clemson University M. Kennedy is an Associate Professor within the Department of Materials Science & Engineering at Clemson University. Her research group focuses on mechanical and tribological characterization of thin films, coatings and biological systems. She also contributes to the engineering education community through her research on self-efficacy and undergraduate research programs.Dr. Natasha Mamaril, University of Kentucky Natasha Mamaril is currently the Coordinator of

Conference Session

Creating 'Materials' Awareness

Collection

2007 Annual Conference & Exposition

Authors

Gukan Rajaram, North Carolina A&T State University; Devdas Pai, North Carolina A&T State University; Jagannathan Sankar, North Carolina A&T State University

Tagged Divisions

Materials

AGREE NOT SURE DISAGREE DISAGREE BEFORE AGREE STRONGLY BEFORE AGREE STRONGLY TODAY TODAY The activities on nanoscience and engineering made N a n o t e c h n o lo g y p re s e n t a t io n me more confident that I can do science/engineering 8 10

Conference Session

Advanced Materials Education

Collection

2009 Annual Conference & Exposition

Authors

Somnath Chattopadhyay, Pennsylvania State University

Tagged Divisions

Materials

  (2) I SWhere S = I/ym, which is also known as the sectional modulus of the cross section. Page 14.1046.4If we denote the cross-sectional area of the beam as A and the aspect ratio by , then wehave, A bd (3a )   b/d (3b)We also have, ym  d / 2 (3c)The quantity S = I/ym the section modulus can be written in terms of the quantities A and as: I A3 / 2 S  (4) ym 6 1 / 2Now we

Conference Session

Materials Division Technical Session 1

Collection

2018 ASEE Annual Conference & Exposition

Authors

Megan Frary, Boise State University

Tagged Divisions

Materials

Understanding These Four Types of Mistakes Can Help Us Learn’ [21]. Write a short summary of each of the four kinds of mistakes. Which kind(s) do you make most often? Which kind do you think you are most likely to make it MSE 308?” ● As part of their weekly homework in week 9, students were asked, “Review the article ‘Why a Growth Mindset is Essential For Learning’ [22]. Which parts of the article resonate with you? Why? Has you approach to learning evolved in MSE 308 toward more of a growth mindset? Do you have ideas for things to try over the rest of the semester (or in future classes)?” ● As part of their weekly homework in week 13, students were asked, “Read the article ‘Forget Talent’ [23]. Which

Conference Session

Outreach Activities and Introductory Materials Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

Stephen J. Krause, Arizona State University; Alexander Sterling; Jacquelyn E. Kelly, Maricopa County Education Service Agency; Danny Stehlik, Arizona State University; Omowunmi Isaacs-Sodeye, Arizona State University; Dale R. Baker, Arizona State University

Tagged Divisions

Materials

, J.D., Brown, A.A., & Cocking, R.R. (1999). How People Learn. Washington, DC, Academic Press.2. Baker, S. & L. Talley (1972). The relationship of visualization skills to achievement in chemistry. Journal of Chemical Education, 49, 775-776.3. Kali, Y. & Orion, N. (2002). Spatial ability of high-school students and the perception of geologic structures. Journal of Research in Science Teaching, 33, 369-391.4. Pallrand, G., & Seeber, F. (1984). Spatial ability and achievement in introductory physics. Journal of Research in Science Teaching, 21, 507-516.5. Hsi, S., Linn, M., & Bell, J. (1997). The role of spatial reasoning in engineering and the design of spatial instruction. Journal of

Conference Session

Materials Division Technical Session 2

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Nicole Johnson-Glauch, California Polytechnic State University; Lauren Anne Cooper, California Polytechnic State University, San Luis Obispo; Trevor Scott Harding, California Polytechnic State University, San Luis Obispo

Tagged Topics

Diversity

Tagged Divisions

Materials

outreach with underrepresented groups in STEM.Dr. Lauren Anne Cooper, California Polytechnic State University, San Luis Obispo Lauren Cooper earned her Ph.D. in Mechanical Engineering with a research emphasis in Engineering Education from University of Colorado Boulder. She is currently an Assistant Professor in Mechanical Engineering at California Polytechnic State University in San Luis Obispo. Her research interests include project-based learning, student motivation, human-centered design, and the role of empathy in engineering teaching and learning.Dr. Trevor Scott Harding, California Polytechnic State University, San Luis Obispo Dr. Trevor S. Harding is Professor and Department Chair of Materials Engineering at

Conference Session

Micro-/Nano-Technology Education

Collection

2008 Annual Conference & Exposition

Authors

Nebojsa Jaksic, Colorado State University-Pueblo

Tagged Divisions

Materials

empirical formula for volumetric materialremoval rate in electric discharge machining22, I MRR = K 1.23 Tmwhere MRR is metal removal rate in mm3/s; K is constant of proportionality equal to 664; I isdischarge current in A, and Tm is melting point of work metal in ºC. While the published formulaapplies to a material removal process only, due to the nature of the process it can be extrapolatedthat the same process variables (I, and Tm) apply for carbon nanotube manufacturing. Theempirical material removal rate formula is to be augmented as the results dictate. Based on thecurrent prices of carbon, and the cost of electrical energy as found from students’ electrical bills,an economical analysis is to be

Conference Session

Curriculum for Green Materials

Collection

2006 Annual Conference & Exposition

Authors

Natalie Becknell, Garver Engineers; Micah Hale, University of Arkansas; Seamus Freyne, University of Oklahoma; Stephan Durham, University of Arkansas; Anthony Lamanna, Tulane University

Tagged Divisions

Materials

reacting with products formed during thehydration of cement. Equations 1 and 2 show the hydration reactions of portland cement.Calcium silicate hydrate (C-S-H) is the major contributor to concrete strength. SCMs such asslag cement and fly ash contain amorphous silica (S) which reacts (Equation 3) with calciumhydroxide (CH) to form additional C-S-H thereby improving strength. The equations shownbelow are in ceramic notation. 2C3S + 11H → C-S-H + 3CH (1) 2C2S + 9H → C-S-H + CH (2) CH + S + H → C-S-H (3)In addition to improving hardened concrete properties, SCMs are also used to produce “green”structures. The force

Conference Session

NEW Lab Experiments in Materials Science

Collection

2006 Annual Conference & Exposition

Authors

John Marshall, University of Southern Maine

Tagged Divisions

Materials

as change of state. Electro- and magneto-rheological fluids, for example, canchange viscosity over many orders of magnitude upon application of an externalmagnetic or electric field. This change of state has the potential to revolutionize thecontrol aspects and responsiveness of hydraulic power transmission.Research during the 1960’s and 70’s was focused on devices such as: satellite antennas(NASA) that would unfold and expand when exposed to the heat of the sun; engines thatwould run on hot and cold water; automatic temperature-controlled greenhouse windows; Page 11.922.2and car fan clutches that would engage only when the engine warmed-up.One of the

Conference Session

Materials Division Technical Session 1

Collection

2016 ASEE Annual Conference & Exposition

Authors

Nancy Ruzycki, University of Florida

Tagged Divisions

Materials

rubrics and exemplars, and an assessment tool is being developed to provide tuningfeedback in order to refine the laboratories in future years.References:1. Bartolo, L. et.al (2008), The Future of Materials Science and Materials EngineeringEducation, Workshop on Materials Science and Materials Engineering Education, NSF,September 2008.2. Olson, G. B. (2000). Designing a new material world. Science, 288(5468), 993-998.3. Feisel, L. D., & Rosa, A. J. (2005). The role of the laboratory in undergraduate engineeringeducation. Journal of Engineering Education, 94(1), 121-130.4. Feisel, L.D., and Peterson, G.D.,(2002). The Challenge of the Laboratory in EngineeringEducation,” Journal of Engineering Education, 91(4), 2002, pp. 367–3685. Edward, N. S

Conference Session

Materials Division Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Ethan Sclarsky, Rensselaer Polytechnic Institute ; Tyler Marquis Cooper, Rowan University; Johannes Strobel, Texas A&M University; Jennifer Kadlowec, Rowan University; Andrea Jennifer Vernengo, Rowan University

Tagged Divisions

Materials

Engineering Initiative I. An Education Outreach Manual in TissueEngineering. In: Pittsburg Uo, editor. 2010.9. Birol G, Liu S, Smith D, Hirsch P Educational Modules in Tissue Engineering Based onthe “How People Learn” Framework. Bioscience Education E-journal. 2006;7.10. Bhatia S. A disease-centered approach to biomaterials education and medical devicedesign. 33rd Annual International Conference of the IEEE EMBS; Boston, Massachusetts2011.p. 3617-9.11. Reichert W, Harris TR, Lemmons J, Mikos AG, Puleo DA, Schoen FJ, Temenoff JS.2011 Panel on developing a biomaterials curriculum. Journal of Biomedical Materials ResearchPart A. 2011;100A:802-16.12. Feldman D, Gombotz WR. Biomaterials Education: An academic and industrialviewpoint

Conference Session

Materials Division Technical Session 2

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Reihaneh Jamshidi, University of Hartford; Kamau Wright, University of Hartford; Paul E. Slaboch, University of Hartford

Tagged Divisions

Materials

Foundation. The Foundation was established by Stanton andElisabeth Davis after Mr. Davis's retirement as chairman of Shaw's Supermarkets, Inc.References[1] S. Pulford, J. Tan, M. Gonzalez, and A. Modell, "Satisfaction: Intrinsic and Extrinsic Motivation in Engineering Writing Coursework," in 125th ASEE Annu. Conf. Expo, 2018.[2] J. D. Ford, "Knowledge transfer across disciplines: Tracking rhetorical strategies from a technical communication classroom to an engineering classroom," IEEE Transactions on Professional Communication, vol. 47, no. 4, pp. 301-315, 2004.[3] D. A. Winsor, "Engineering writing/writing engineering," College composition and communication, vol. 41, no. 1, pp. 58-70, 1990.[4] L. Reave

Conference Session

Micro-/Nano-Technology Education

Collection

2008 Annual Conference & Exposition

Authors

Surendra Gupta, Rochester Institute of Technology

Tagged Divisions

Materials

, systematic and Page 13.596.5well organized. They thought that the lab experiments complemented the lecture material verywell. They suggested that SPM experimental datasets could have been more interesting and thatthe instructor should have provided more guidance in class in using the WSxM software foranalysis.AcknowledgmentsFinancial support from the National Science Foundation through grants # EEC-0530575 (PI: Dr.Santosh Kurinec) and # ECS-0521341 (PI: Dr. S. K. Gupta) is gratefully acknowledged. Someparts of this paper were presented at the ASEE St. Lawrence Section Meeting held in Toronto,ON in October 2007.Bibliography1. S. K. Gupta, Micro

Conference Session

Materials Division Technical Session 1

Collection

2019 ASEE Annual Conference & Exposition

Authors

Marguerite Anne Tuer-Sipos, University of Toronto; Stephen Manion, University of Toronto; Yasaman Delaviz, University of Toronto; Scott D. Ramsay, University of Toronto

Tagged Divisions

Materials

Teaching Innovation Professorship. The authors would like tothank the students for their feedback. This study complied with the University of Toronto’spolicies on research ethics.7.0 References[1] K. Barns , R. C. Marateo, and S. P. Ferris, “Teaching and Learning with the Net Generation,”Innovate: Journal of Online Education, vol. 3, no. 4, April 2007.[2] M. Prensky, “Digital Natives, Digital Immigrants,” On the Horizon, vol. 9, no. 5, pp. 67–85,Oct. 2001.[3] B. Mitra, J. Lewin-Jones, H. Barrett & S. Williamson, ‘The use of video to enable deeplearning”, Research in Post-compulsory Education, vol. 14, no. 4, pp. 405- 414, July 2010[4] A. Clifton, and C. Mann, “Can YouTube enhance student nurse learning”, Nurse EducationToday, vol. 31, no. 4

Conference Session

Materials Division Technical Session 2

Collection

2018 ASEE Annual Conference & Exposition

Authors

Tristan M. Ericson, York College of Pennsylvania; Stephen N. Kuchnicki, York College of Pennsylvania

Tagged Divisions

Materials

balance between directing students to the best research path and letting them take ownership over the project.References 1. G. D. Kuh, High-impact educational practices: what they are, who has access to them, and why they matter. Association of American Colleges and Universities, Washington, DC, 2008. 2. S. H. Russell, M.P. Hancock, and J. McCullough, “The pipeline: Benefits of undergraduate research experiences,” Science, vol. 316, pp. 548-549, Apr. 2007. 3. R. S. Hathaway, B. A. Nagda, and S. R. Gregerman, “The Relationship of undergraduate research participation to graduate and professional education pursuit: An empirical study,” Journal of College Student Development, vol. 43, no. 5, pp. 614–631, 2002. 4

Conference Session

Materials Division Technical Session 4

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Tracy Zhang, Michigan State University; Robert Allen Bubeck, Michigan State University; Therese Aimei Joffre, Midland High School; Grace Anne Bremmer, H. H. Dow High School; Logan Patrick McNamara, H. H. Dow High School; Aaron Michael Heydenburg; Bingbing Li, Central Michigan University

Tagged Divisions

Materials

Paper ID #28945Promoting Materials Science and Engineering Education through 3DPrinting TechnologyDr. Tracy Zhang, MSU Michigan State University (MSU) St. Andrews, Midland, MI. Dr. Tracy Zhang is a faculty member and STEM Outreach Specialist at Michigan State University St. Andrews campus. She earned a doctoral degree in advanced materials from Central Michigan University. Her current role involves promoting STEM education to K-12 students focusing on 3D printing technology area and conducting research in the development of biosourced hyperbranched poly(ester)s for the controlled release of actives across a range of

Conference Session

Materials Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Stephen J. Krause, Arizona State University; Dale R. Baker, Arizona State University; Adam R. Carberry, Arizona State University; Terry L. Alford, Arizona State University; Casey Jane Ankeny, Arizona State University; Bill Jay Brooks, Oregon State University; Milo Koretsky, Oregon State University; Cindy Waters, North Carolina A&T State University; Brady J. Gibbons, Oregon State University

Tagged Divisions

Materials

. Bransford, J., Brown, A., and Cocking, R. (2000). How People Learn. National Academy Press.2. Brooks, B. J., Gilbuena, D. M., Krause, S. J., and Koretsky, M. D. (2014). Using word clouds for fast, formative assessment of students’ short written responses. Chemical Engr. Educ., 48(4), 190-198.3. Carberry, A., Krause, S., Ankeny, C., and Waters, C. (2013). "Unmuddying” course content using muddiest point reflections, 2013 FIE Proceedings (2013).4. L. Faust and D. R. Paulson, "Active Learning in the College Classroom," Journal on Excellence in College Teaching, vol. 9, pp. 3-24, 1998.5. Freeman, S., Eddya, S. L., McDonough, M., Michelle, K., Smith, B., Okoroafora, N., Jordta, H., and Wenderotha, M. P., (2014). Active learning

Conference Session

Materials Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Richard E Eitel, Stevens Institute of Technology

Tagged Divisions

Materials

. Mazur, E., King, G. & Lukoff, B. learning catalytics. (2015). at 5. Hanson, D. Instructor’s Guide to Process-Oriented Guided-Inquiry Learning. (2006).6. Callister, W. D. & Rethwisch, D. G. Fundamentals of Materials Science and Engineering: An Integrated Approach, 4th Edition. (John Wiley & Sons, Inc., 2012).7. Krause, P. S. J. MaterialsConcepts. (2012). at 8. Yalisove, S. M. MSE Video Page. University of Michigan (2014). at 9. Krause, P. S. J. MatSciASU Quizlet. Quizlet LLC (2015). at 10. Solve a Teaching Problem. Eberly Center for Teaching Excellence and Education, Carnegie Mellon at 11. Carberry, A., Krause, S., Ankeny, C. & Waters, C. ‘Unmuddying’ course content using muddiest point

Conference Session

Introductory Materials Engineering Courses of 2020

Collection

2006 Annual Conference & Exposition

Authors

Elizabeth DeBartolo, Rochester Institute of Technology; Melissa Zaczek, Rochester Institute of Technology; Cory Hoffman, Rochester Institute of Technology

Tagged Divisions

Materials

. What strength is required for the part to perform adequately? What is the part’s strength (based on hardness readings)?Deliverable 4: Describe the composition of the part. This should be a concise summary of any material characterization work done in the laboratory. Photos of the failed part and pictures of comparable microstructures should be included.Summary: Based on what was learned from each of the deliverables, explain the reason(s) for failure and how it could be prevented in the future, or explain why failure should not be prevented.Several aspects of the projects have remained constant throughout:• Students work in teams of 2 or 3, all from the same lab section• The project is divided into a final summary and four intermediate

Conference Session

Innovations in Materials Education

Collection

2012 ASEE Annual Conference & Exposition

Authors

Qu Jin, Purdue University, West Lafayette; Senay Purzer, Purdue University, West Lafayette; P.K. Imbrie, Purdue University, West Lafayette

Tagged Divisions

Materials

, 361-367 (1995).4 Walden, S. E. & Foor, C. "What's to Keep You from Dropping Out?''Student Immigration into and within Engineering. Journal of Engineering Education 97, 191-205 (2008).5 Shivy, V. A. & Sullivan, T. N. Engineering Students' Perceptions of Engineering Specialties. Journal of Vocational Behavior 67, 87-101 (2005).6 Brown, D. in A Cognitive Information Processing Approach to Career Problem Solving and Decision Making (eds Gary W. Peterson, James P. Sampson, Janet G. Lenz, & Robert C. Reardon) (John Wiley & Sons, Inc., 2002).7 McLennan, N. A. & Arthur, N. Applying the Cognitive Information Processing Approach to Career Problem Solving and Decision Making to

Conference Session

Materials Selection & Design

Collection

2010 Annual Conference & Exposition

Authors

Somnath Chattopadhyay, Pennsylvania State University

Tagged Divisions

Materials

plays a very important role in carrying loads, especially bending andtorsion. The shape can be optimized to maximize performance for a given loading condition. Simplecross-sectional geometries are not always optimal. For example, I-beams can carry bending loads moreefficiently when compared to a solid cross-section, like a solid square. By efficiency we mean for a givenloading condition the section uses as little material as possible.We define the shape factor in bending, „ B’ e due to stiffness effects as: S B  e

Conference Session

Introductory Materials Science Course

Collection

2008 Annual Conference & Exposition

Authors

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

Tagged Divisions

Materials

. Page 13.191.93. Donovan, M. S., Bransford, J. D. & Pellegrino, J. W. (Eds.) (1999). How People Learn: Bridging research and Practice. National Academy Press, Washington, DC.4. Kikas, E. (2004). Teachers' conceptions and misconceptions concerning natural phenomena. Journal of Research in Science Teaching, 41(5) 432-448.5. Krause, S., Decker, J., Niska, J., & Alford, T. (2002). A Materials Concept Inventory for introductory materials engineering courses, National Educators Workshop Update 2002, 17, 1-8.6. Krause, S., Decker, J. C., & Griffin, R. (2003). Using a Materials Concept Inventory to assess conceptual gain in introductory materials engineering courses. 2003 Frontiers in Education Conference Proceedings

Conference Session

Materials Division Technical Session 3

Collection

2018 ASEE Annual Conference & Exposition

Authors

Bilal Mansoor, Texas A&M University at Qatar; Mustapha Jamal Makki, Texas A&M University at Qatar; Dena Al-Thani, Hamad bin Khalifa University

Tagged Divisions

Materials

. 2, no. 4, pp. 1–17, Oct. 1997.[2] R. B. Guay, “Purdue Spatial Visualization Test: Rotations,” 1977.[3] M. Jou and J. Wang, “Investigation of effects of virtual reality environments on learning performance of technical skills,” Comput. Human Behav., vol. 29, no. 2, pp. 433–438, 2013.[4] S. Gregory et al., “Virtual worlds in Australian and New Zealand higher education: Remembering the past, Understanding the present and imagining the future,” 30th Annu. Conf. Aust. Soc. Comput. Learn. Tert. Educ. ASCILITE 2013, no. December, pp. 312–324, 2013.[5] A.-H. G. Abulrub, A. Attridge, and M. A. Williams, “Virtual Reality in Engineering Education: The Future of Creative Learning,” Glob. Eng. Educ. Conf., pp. 751

Conference Session

Interactive Approaches to Teaching Materials Fundamentals

Collection

2013 ASEE Annual Conference & Exposition

Authors

Barry Dupen, Indiana University Purdue University, Fort Wayne

Tagged Divisions

Materials

inconsistent use of symbols between relatedcourses. For example, some authors use sn, ss, and e for normal stress, shear stress, and strain,instead of the standard Greek symbols σ, τ, and ε. This use of Latin characters with multiplesubscripts confuses students because the Greek symbols are used in textbooks for other courses,and because capital S is used for section modulus later in this course. Students have troubledistinguishing between s and S on the chalkboard during lectures (and in their notes).My students also complain about the high cost of textbooks. In the last 30 years, textbook costs Page 23.673.3have risen about twice as fast as inflation

Conference Session

Teaching Materials Science Using Innovative Methods

Collection

2013 ASEE Annual Conference & Exposition

Authors

Ajit D. Kelkar, North Carolina A&T State University; James Gardner Ryan, Joint School of Nanoscience and Nanoengineering; Ram V Mohan, North Carolina A&T State University; Sachin Marotrao Shendokar, Bharati Vidyapeeth Deemed University

Tagged Divisions

Materials

undergraduate, 104 post-graduate programs andthe remaining are diploma and certificate programs. The University has introduced severalemerging degree programs such as a B. Tech. in Biomedical, an M. Pharm. in Biotechnology anda Masters in Optometry. The continuous success of quality of the BVDU programs resulted inreaccreditation with a prestigious 'A' grade by the National Assessment and AccreditationCouncil (NAAC) in September 2011. The BVDU – JSNN partnership in nanotechnology is through its College of Engineering.Bharati Vidyapeeth Deemed University‟s College of Engineering, Pune (BVDUCOE) wasestablished in 1983. It is one of the oldest colleges in the Pune area and has the highestenrollment for freshman engineering in the state of

Conference Session

NEW Lab Experiments in Materials Science

Collection

2006 Annual Conference & Exposition

Authors

Glenn Kohne, Loyola College in Maryland; Steven O'Donnell, Loyola College in Maryland

Tagged Divisions

Materials

2006-410: DEMONSTRATION OF CIRCUIT DESIGN USING RANDOMNESS,EVOLUTION AND NATURAL SELECTIONGlenn Kohne, Loyola College in Maryland Glenn S. Kohne is currently associate professor of engineering science at Loyola College, Baltimore, MD. He received an M.E.S. from Loyola College in 1981 and a B.S.E.E. from the University of Maryland in 1970. His research interests include computer science, digital signal processing, and education.Steven O'Donnell, Loyola College in Maryland Mr. O’Donnell is a senior electrical engineering student at Loyola College in Maryland. He has studied abroad at Monash University in Melbourne Autralia. He has experience as a Hauber research grantee and as an intern at