Conference Session

Mechatronics

Collection

2013 ASEE Annual Conference & Exposition

Authors

John G. Cherng P.E., University of Michigan-Dearborn; Ben Q. Li, University of Michigan, Dearborn; Narasimhamurthi Natarajan, University of Michigan, Dearborn

Tagged Divisions

Mechanical Engineering

Page 23.424.1 c American Society for Engineering Education, 2013 Development of a Mechatronics Course for Senior Mechanical Engineering StudentsAbstractThis paper presents the development of a mechanical engineering senior elective course titled:“ME472 Principles and Applications of Mechatronics System Design”. The main objective ofthis course is to teach students the principles and applications of mechatronic systems. Tenhands-on laboratory projects and two course projects were integrated into the course to enhance astudent’s comprehension of mechatronics concepts. Students were required to complete eachcourse project independently. The outcome of the course was

Conference Session

Design Projects in Mechanical Engineering II

Collection

2010 Annual Conference & Exposition

Authors

Brent Nelson, Northern Arizona University; Constantin Ciocanel, Northern Arizona University

Tagged Divisions

Mechanical Engineering

classrooms and textbooks. As such, they also rarely have theopportunity to learn how experimental design and theoretical modeling work together tounderstand practical systems. To address these shortcomings, a low-cost solar water heaterdesign project was developed and integrated concurrently between a mechanical engineeringheat transfer course and a thermal systems laboratory course. The low-cost constraint reinforcedphysical understanding of heat transfer concepts and ensured messy, non-ideal designs to whichtheoretical modeling could not be neatly applied. A heat transfer concept inventory to assessstudent learning showed minimal gains in student understanding while a self-report attitudesurvey administered to the students demonstrated that they

Conference Session

Mechanical Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Vladimir Gurau P.E., Kent State University, Tuscarawas

Tagged Divisions

Mechanical Engineering

to communicate effectively through reports, engineering drawing, oral presentations supported by PowerPoint and through poster presentations.The course is divided into a lecture session and a laboratory session. In the spring semester of2011 the lecture session covered an introduction to fuel cells, CNC programming, roboticstechnology, robot programming and notions of engineering communication including progressreports, oral presentations supported by PowerPoint slides and poster presentations. The classnotes which are supported by PowerPoint slides were made available to students on BlackboardVista. During the laboratory session, students familiarized with PEMFC manufacturingprocesses, developed G-codes for machining fuel cell

Conference Session

Trends in Mechanical Engineering: Trends and Tools

Collection

2012 ASEE Annual Conference & Exposition

Authors

Timothy A. Doughty, University of Portland; Steven O'Halloran, University of Portland

Tagged Divisions

Mechanical Engineering

shown in Figure 3. This finalexercise is then used directly in lab in a following class period. Figure 1: Photograph of experimental setup for the final tutorial exercise. Page 25.377.4Figure 2: LabVIEW block diagram for the final tutorial exercise Page 25.377.5Figure 3: LabVIEW Front Panel for the final tutorial exercise.Results and DiscussionThe self-guided tutorial was used in the Fall 2010 semester to teach LabVIEW in twoundergraduate courses, ME351 (Mechanical Systems Laboratory) and ME443 (Systems andMeasurement). ME351 was comprised of mostly juniors

Conference Session

Trends in Mechanical Engineering: Curricula and Courses

Collection

2012 ASEE Annual Conference & Exposition

Authors

Timothy M. Hodges P.E., Virginia Military Institute; Elizabeth White Baker, Wake Forest University

Tagged Divisions

Mechanical Engineering

. Page 25.1391.4 11) Understanding science 12) Learning ethical conduct in your field 13) Learning laboratory techniques 14) Ability to read and understand primary literature 15) Skill in how to give an effective oral presentation 16) Skill in science writing 17) Self-confidence 18) Understanding of how scientists think 19) Learning to work independently 20) Being part of a learning community 21) Confidence in my potential to be a teacher of science Benefits of UG Research Graduate Institution Undergrad Only College Items 11-21

Conference Session

Thermodynamics, Fluids, and Heat Transfer I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Brent A Nelson, Northern Arizona University; Constantin Ciocanel, Northern Arizona University

Tagged Divisions

Mechanical Engineering

their analysis, and although engineering students generally havecourses on experimentation, such courses are rarely combined with any significant theoreticalmodeling activities.1.2 A Low-Cost Joint Design Project1.2.1 Course StructureIn order to address the disconnect between theory and real systems that often occurs inengineering education, we developed a low-cost design project, administered jointly between atheory-focused course on heat transfer (ME450) and an experimental laboratory course inthermo-fluid systems (ME495). Note that the heat transfer course has been renumbered since theprevious implementation of the design project, when the number was ME350. The ME450course is focused on the physics of heat transfer, calculating and

Conference Session

Mechanical Engineering Technical Session: Fluid Mechanics

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kamau Wright, University of Hartford; Ivana Milanovic, University of Hartford; Tom A. Eppes, University of Hartford

Tagged Divisions

Mechanical Engineering

also to have studentsidentify each course topic, that simulations helped them to learn. Also highlighted here is onetopic common to fluid mechanics, heat transfer, and an associated laboratory course: externalflow over bluff and streamlined bodies. Students simulate the flow past a cylinder and/or airfoil,and design an app to investigate how various parameters impact lift and/or drag experienced byan object. Finally, laboratory experiments allow comparison of simulation results withexperimental data.Keywords — simulations; assessment; junior courses; thermo-fluidsIntroductionThe implementation of computer-based simulations using multi-physics software in engineeringeducation is of growing interest at the undergraduate [1-9]. Integration of

Conference Session

Trends in Mechanical Engineering II

Collection

2009 Annual Conference & Exposition

Authors

Ping Ren, Virginia Tech; Janis Terpenny, Virginia Tech; Dennis Hong; Richard Goff, Virginia Tech

Tagged Divisions

Mechanical Engineering

AC 2009-671: BRIDGING THEORY AND PRACTICE IN A SENIOR-LEVELROBOTICS COURSE FOR MECHANICAL AND ELECTRICAL ENGINEERSPing Ren, Virginia Tech Ping Ren is a PhD candidate working under the direction of Dr. Dennis Hong in RoMeLa (Robotics & Mechanisms Laboratory) of the Mechanical Engineering Department at Virginia Tech. He is passionate about advancing research in robotics and innovations related to robotics education.Dennis Hong, Virginia Tech Dennis Hong is an Assistant Professor and the Director of RoMeLa (Robotics & Mechanisms Laboratory) of the Mechanical Engineering Department at Virginia Tech. His research expertise lies in the area of mobile robot locomotion, humanoid robots

Conference Session

Mechanical Engineering Poster Session

Collection

2009 Annual Conference & Exposition

Authors

Michael Anderson, United States Air Force Academy; Matthew Snyder, United States Air Force Academy; Michael Maixner, United States Air Force Academy

Tagged Divisions

Mechanical Engineering

facultyand lab technicians. The course was scheduled, on average, for 2.5 hours per week in aclassroom embedded in the Applied Mechanics Laboratory. Such proximity enabled timelytransition between classroom and lab topics. No work outside of class, or prior preparation wasexpected of the students, so that no course credit was offered; the course is, however, arequirement for the Mechanical Engineering, and Engineering Mechanics majors. Despite therestrictions on homework, students were expected to accomplish a final capstone project withinthe time available during regularly scheduled class.Most lessons were taught by subject matter experts throughout the department, and not by theparticular instructors assigned to each class. For example, the

Conference Session

Programming, Virtual Reality, and Dynamic Systems

Collection

2017 ASEE Annual Conference & Exposition

Authors

James A. Mynderse, Lawrence Technological University

Tagged Divisions

Mechanical Engineering

. No required courses feature Mechatronics as a prerequisite, though some technicalelectives do. While cataloged as a 3000 level course, the majority of students are seniors withjuniors and new graduate students making up the balance.   Figure 1. The interdisciplinary nature of Mechatronics [14]. Figure 2. EME 3214 – Mechatronics with prerequisite courses.The four-credit course is taught with three hours of lecture and two hours of laboratory. Becausethe lecture and laboratory sessions are considered a single section, class size is capped at16 students per section to accommodate the available laboratory stations. Both daytime andevening

Conference Session

Mechanical Engineering Division Technical Session 11

Collection

2019 ASEE Annual Conference & Exposition

Authors

Edward H. Currie, Hofstra University; Kevin C. Craig, Hofstra University

Tagged Divisions

Mechanical Engineering

mechanical-nuclear design department of Ebasco Services, Inc., a major engineering firm in NYC, and taught and received tenure at both the U.S. Merchant Marine Academy and Hofstra University. While at Hofstra, he worked as a research engineer at the U.S. Army Armament Research, Development, and Engineering Center (ARDEC) Automation and Robotics Laboratory. He received the 1987 ASEE New Engineering Educator Excellence Award, a national honor. In 1989, he joined the faculty at Rensselaer Polytechnic Institute (RPI). At RPI, he further developed his leadership and administrative skills as Direc- tor of Core Engineering, the first two years of the School of Engineering, and as Chair of the Engineering Science

Conference Session

Mechanical Engineering Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Barbara Sabine Linke, University of California, Davis; Ian C. Garretson, University of California, Davis; Fahad M. Jan, University of California, Davis; Lee Michael Martin, University of California, Davis; Mohamed M. Hafez, University of California, Davis

Tagged Divisions

Mechanical Engineering

Paper ID #17859Design and Manufacturing of Nozzles and Airfoil Shapes for CompressibleFlow Visualizations in a New Engineering CourseProf. Barbara Sabine Linke, University of California, Davis Barbara Linke got her German Diplom (2002) and doctorate (2007) in mechanical engineering at the RWTH Aachen University, Germany. She worked with Prof. Fritz Klocke at the Laboratory for Machine Tools and Production Engineering WZL at RWTH Aachen University from 2002 – 2010. From 2010 - 2012, Barbara was a research fellow at the University of California Berkeley at Prof. David Dornfeld’s laboratory. Since November 2012, Barbara has

Conference Session

Mechanical Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Ken C Stanton, Colorado State University; Thomas H. Bradley, Colorado State University

Tagged Topics

Diversity

Tagged Divisions

Mechanical Engineering

would be appropriate to collect this information. The subjectpopulation for the industry needs assessment was chosen to be individuals within the automotiveindustry (broadly defined) who met the criteria of having hiring authority over engineeringpositions, being located in the US, and managing hybrid, electric vehicle or fuel cell vehicleprograms. A list of companies that would be the target of our investigations included originalequipment manufacturers, federal research laboratories, automotive suppliers, automotiveconsultancies, state and federal regulatory agencies, private research laboratories, and companiesfrom the “entrepreneurial” automotive industry. Letters, emails and telephone calls were used tocontact persons within these

Conference Session

Capstone Design Projects in Mechanical Engineering

Collection

2006 Annual Conference & Exposition

Authors

Edwin Odom, University of Idaho; Russ Porter, University of Idaho; Steven Beyerlein, University of Idaho; Adrian Gomez, University of Idaho; Lloyd Gallup, University of Idaho

Tagged Divisions

Mechanical Engineering

Steven Beyerlein is professor Mechanical Engineering at the University of Idaho, where he coordinates the capstone design program and regularly participates in ongoing program assessment activities. For these efforts he won the UI Outstanding Teaching Award in 2001. Over the last three years he has assisted Dr. Odom in creating the Mindworks laboratory discussed in this paper. Currently he is collaborating on an NSF grant with other members of the Transferable Design Engineering Education (TIDEE) consortium to develop valid and reliable instruments for measuring student performance in design.Russ Porter, University of Idaho Russ Porter is the manager of the Mechanical Engineering Machine

Conference Session

Mechanical Engineering Division Technical Session 9

Collection

2019 ASEE Annual Conference & Exposition

Authors

Gloria Guohua Ma, Wentworth Institute of Technology; Xiaobin Le P.E., Wentworth Institute of Technology

Tagged Divisions

Mechanical Engineering

-basedlearning is a dynamic method to inspire students to obtain a deeper understanding of the subjects, applyand integrate knowledge they are studying. Normally a project is a complex task that involves designthinking, decision making, problem solving, etc. [2]. The benefits of project-based learning includeimproved student participation in the learning, strengthened communication skills, promotion of criticaland proactive thinking [3]. Literature shows that real world problem will improve student’s understandingof the materials learned in classroom [1]. Laboratory work motivates students to learn actively, thus it hasbeen widely applied to many engineering subjects [4~9].Mechanical Vibration Course has been offered starting Spring 2014 for senior BSME

Conference Session

Improving ME Education: Trends in Mechanical Engineering I

Collection

2007 Annual Conference & Exposition

Authors

Efstathios Michaelides, University of North Texas; Reza Mirshams, University of North Texas

Tagged Divisions

Mechanical Engineering

4 CSCE1020 Mechanics 3 PHYS1710Learning to learn 2 EENG1910 Mechanics Lab 1 PHYS1730MEE practice I 1 MEEN1110 Gen. Chemistry for Science Majors 3 CHEM1410UCC course (Wellness) 3 Laboratory for Gen. Chemistry 1 CHEM1430English 3 ENGL1310/13 Technical Writing (UCC) 3 ENGL2700 MEE practice II 1 MEEN1210Total credit hours 17 15 Table B. Sophomore

Conference Session

Mechanical Engineering Poster Session

Collection

2008 Annual Conference & Exposition

Authors

Gene Liao, Wayne State University; Chih-Ping Yeh, Wayne State University; James Sawyer, Macomb Community College

Tagged Divisions

Mechanical Engineering

automotive technicians in HEVtechnology. The university developed a set of courses for community college instructors andautomotive engineers, and the community college is the first community college in the state –and one of the only in the nation – to train automotive technician students on servicing HEVs [3].However, no integrated HEV laboratory has yet been established for educational purposes. Thetremendous capital investment, tedious and time-consuming tasks required to establish a fullyfunction of HEV laboratory are convincing evidence that the community colleges and secondaryschools are in need of a low-cost, computer-based virtual HEV simulator.The motivation of this project is to develop an interactive, LabVIEW-based [4] simulation

Conference Session

Design Throughout the Mechanical Engineering Curriculum

Collection

2015 ASEE Annual Conference & Exposition

Authors

Aaron Lalley P.E., South Dakota School of Mines and Technology; Mark David Bedillion, South Dakota School of Mines and Technology; Michael Langerman, South Dakota School of Mines and Technology; Umesh A. Korde, South Dakota School of Mines and Technology

Tagged Divisions

Mechanical Engineering

degree in 2001, and the PhD degree in 2005, all from the mechanical engineering department of Carnegie Mellon University. After a seven year career in the hard disk drive industry, Dr. Bedillion joined the faculty of the South Dakota School of Mines and Technology in Spring 2011. Dr. Bedillion’s research interests include distributed manipulation, control applications in data storage, control applications in manufacturing, and STEM education.Dr. Michael Langerman, South Dakota School of Mines and Technology Dr. Michael Langerman is professor and Head of the Mechanical Engineering Department and Co- Director of the Computational Mechanics Laboratory at the South Dakota School of Mines and Tech- nology (SDSM&T

Conference Session

Mechanical Engineering Technical Session: The Art of Education

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ozgul Yasar-Inceoglu, California State University, Chico

Tagged Divisions

Mechanical Engineering

Engineering Historical perspective of nanomaterials Advanced materials Materials, structure, and nanosurface Energy at nanoscale Nanoscience phenomena, bulk to quantum properties Characterization techniques X-ray Diffraction (XRD) Scanning Electron Microscopy (SEM) Energy Dispersive Spectroscopy (EDS) Transmission Electron Microscopy (TEM) Atomic Force Microscopy (AFM) Raman Spectroscopy Fourier-Transform Infrared Spectroscopy (FTIR) Fabrication methods of nanomaterials, “bottom-up”, “top-down” fabrication Chemical synthesis and modification of nanomaterials Non-thermal plasma technique to synthesize nanomaterials Nano-electro mechanical structures (NEMS) Applicationsnanomaterials. These observational laboratory

Conference Session

Improving ME Education: Trends in Mechanical Engineering I

Collection

2007 Annual Conference & Exposition

Authors

Matthew Knudson, Oregon State University; John Schmitt, Oregon State University

Tagged Divisions

Mechanical Engineering

allows the professor ample time to present the wide range of topics that typicallyform the foundation of control theory and mechatronics. Additionally it is the best option for alimited funding situation, as students require few external resources.Alternatively, a course laboratory section can be developed, requiring students to spend aspecific amount of time external to the lecture hall applying theory to real-world, physical,problems. This provides the best opportunity for the students to prepare for applicationsencountered in industry. However, it may also require that the professor spend a significantamount of lecture time providing supplementary education for the laboratory experiments. Thiscan strongly affect the course lecture schedule

Conference Session

Outstanding Contributions to ME

Collection

2007 Annual Conference & Exposition

Authors

Hakan Gurocak, Washington State University-Vancouver

Tagged Divisions

Mechanical Engineering

AC 2007-150: MECHATRONICS COURSE WITH A TWO-TIERED PROJECTAPPROACHHakan Gurocak, Washington State University-Vancouver Hakan Gurocak is Director of School of Engineering and Computer Science and Associate Professor of Mechanical Engineering at Washington State University Vancouver. His research interests are robotics, automation, fuzzy logic, technology assisted distance delivery of laboratory courses and haptic interfaces for virtual reality. Page 12.1052.1© American Society for Engineering Education, 2007 Mechatronics Course with a Two-tiered Project ApproachAbstract - In this paper, we present a

Conference Session

Delivery Methods in Mechanical Engineering Courses

Collection

2013 ASEE Annual Conference & Exposition

Authors

Raghu Echempati, Kettering University; Anca L. Sala, Baker College, Flint

Tagged Divisions

Mechanical Engineering

, which effectively limits access to the class to senior students only. MechanicalEngineering core courses are taught in the evening starting after 5pm to allow full-timeworking students to attend classes at a convenient time. Evening classes meet one timeper week, with the four instructional hours associated with a 4-credit class being taught ina continuous block.The Mechatronics course, which includes lecture and experimental laboratories, wastaught in a hybrid format. Students and instructor met in-class for 60% of the course andonline for the remaining 40%, which allowed for more flexibility in students‟ schedules.The senior students taking the course had mature study habits and abilities, and they

Conference Session

ME Curriculum and Assessment

Collection

2014 ASEE Annual Conference & Exposition

Authors

Fazeel Khan, Miami University; Kumar Vikram Singh, Miami University

Tagged Divisions

Mechanical Engineering

created for completion by students and fourexternal faculty. The latter were invited to participate in the project based on their expertise ineducational research and prior work on NSF Course, Curriculum, and Laboratory Improvement(CCLI) and Transforming Undergraduate Education in Science (TUES) projects. The ComEx Student Survey was co-developed by ComEx project personnel and the E&ACenter and administered online. This instrument consisted of three subscales with a total of 29items designed to obtain information about students’ experiences in using the ComEx Studios.The “Effectiveness of the ComEx Exercise/Activities” subscale consisted of nine items on a 5-point Likert-type scale ranging from strongly disagree (1) to strongly agree (5

Conference Session

ME Curriculum and Assessment

Collection

2014 ASEE Annual Conference & Exposition

Authors

Michele Miller, Michigan Technological University; Jeffrey Allen, Michigan Technological University; Jason Blough, Michigan Technological University; James P. De Clerck, Michigan Technological University; William J. Endres, Michigan Technological University; Scott A. Miers, Michigan Technological University; Ibrahim Miskioglu, Michigan Technological University; Gregory M. Odegard, Michigan Technological University; Charles D. Van Karsen, Michigan Technological University; Paul J. Van Susante, Michigan Technological University

Tagged Divisions

Mechanical Engineering

integrate a number of content threads in the second and third years: application of core course concepts; programming, modeling, and simulation; laboratory skills including instrumentation, measurement, data acquisition, data analysis and experiment design; structured design process; making and tinkering; communication. 2. It reduces the number of core courses and increases the number of technical electives.Table 2 summarizes the change in the credit distribution. “Practice” in the old curriculumconsisted of four laboratory courses (5 credits) and a junior level engineering design processcourse (3 credits). The new curriculum replaces these with a sequence of four courses that spanthe 2nd and 3rd years. In the ME core, the

Conference Session

Mechatronics in the Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Yang Cao, University of British Columbia

Tagged Divisions

Mechanical Engineering

more, the virtual simulator development gains students interest andmotivates student in learning robotics. It allows more lab-type of learning. Some homework canalso be readily verified using the virtual robot. For future teaching plan, the developenvironment will be open to students‟ choice. Other engineering tools, such as simMechanics,ADAMS will be considered for dynamics and control design purpose.References[1] T., Hakan; G, Metin; B, Seta, “Hardware in the Loop Robot Simulators for On-site and Remote Education in Robotics”, International Journal of Engineering Education, Volume 22, Number 4, August 2006 , pp. 815- 828(14).[2] Costas S. Tzafestas, Nektaria Palaiologou, “Virtual and Remote Robotic Laboratory: Comparative

Conference Session

Trends in Mechanical Engineering II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Sergio Celis, University of Michigan

Tagged Divisions

Mechanical Engineering

22.1255.4Timoshenko allows us access into a detailed and rich history of engineering education’sdevelopment during the first half of the tumultuous twentieth century. Universities, researchinstitutes, laboratories, scientists, faculty members and students have the most relevant place inthe Timoshenko’s autobiography As I Remember. In his narration, the Bolshevik Revolution,World War I, and the rise of Nazis in Germany are the context through which engineering andthe sciences go forward into a new technological era. Timoshenko also devotes many episodes toexplain his teaching and learning experiences and his vision about comparisons amongengineering curricula in different countries. He taught in Russia, Yugoslavia, and in theAmerican East, Midwest, and West

Conference Session

Thermodynamics, Fluids, and Heat Transfer

Collection

2012 ASEE Annual Conference & Exposition

Authors

David Zietlow, Bradley University; Jacqueline Henderson, Bradley University

Tagged Divisions

Mechanical Engineering

participation in laboratory or demonstration exercises in conjunction with a lecture produces a more positive learning outcome. (3) Although these demonstrations are useful, critical thinking skills are necessary to transform classroom knowledge into practical application. Students who are asked to explain what they experienced are better able to think critically. Unfortunately, if a student is not required to explain their experience, answers based on partial or incorrect understanding are more likely to occur. (3) In summary, students who are engaged with various forms of learning have a richer educational experience. A combination of lectures, discussions, interactive learning and demonstrations create a learning environment which

Conference Session

Thermodynamics, Fluids, and Heat Transfer II

Collection

2009 Annual Conference & Exposition

Authors

Subrata Bhattacharjee, San Diego State University; Christopher Paolini, San Diego State University

Tagged Divisions

Mechanical Engineering

AC 2009-2477: THE CHEMICAL THERMODYNAMIC MODULE OF THEEXPERT SYSTEM FOR THERMODYNAMICS (“TEST”) WEB APPLICATIONSubrata Bhattacharjee, San Diego State University Dr. Bhattacharjee is a professor of Mechanical Engineering at San Diego State University. His research areas include combustion, radiation heat transfer, and web-based numerical methods for computational thermodynamics.Christopher Paolini, San Diego State University Dr. Paolini is the Unix System Administrator in the College of Engineering and is the Director of the Computational Thermodynamics Laboratory at Mechanical Engineering Department. His research areas include chemical equilibrium analysis, adaptive algorithm, and AJAX based

Conference Session

Mechanical Engineering Division Technical Session 4

Collection

2019 ASEE Annual Conference & Exposition

Authors

Emad W. Jassim, University of Illinois at Urbana-Champaign; Blake Everett Johnson, University of Illinois at Urbana-Champaign

Tagged Divisions

Mechanical Engineering

for Excellence in Undergraduate Teaching, the College of Engineering Teaching Excellence Award, and the MechSE Five-Year Effective Teaching Award.Dr. Blake Everett Johnson, University of Illinois at Urbana-Champaign Dr. Blake Everett Johnson is a lecturer and instructional laboratory manager in the Department of Mechan- ical Science and Engineering at the University of Illinois at Urbana-Champaign. His research interests include experimental fluid mechanics, measurement science, and engineering education. He oversees un- dergraduate laboratories in fluid mechanics, fluid dynamics, and heat transfer. Pedagogically, Dr. Johnson employs active learning, inquiry-based laboratory instruction, and any initiative that

Conference Session

Teaching Mechanical Systems: What's New

Collection

2010 Annual Conference & Exposition

Authors

Arun Chintalapati, Missouri University of Science and Technology; Hong Sheng, Missouri University of Science and Technology; Richard Hall, Missouri University of Science and Technology; Robert Landers, Missouri University of Science and Technology

Tagged Divisions

Mechanical Engineering

information: actively (engagement in discussion or physical activity) or reflectively (introspection) 4. Their progress towards understanding: sequential (step by step incrementally) or globally (large jumps)Learning outcomesLearning outcome refers to the perceived knowledge gained by the students through the use ofdifferent methods of teaching or studying. Methods of teaching or studying typically includereading of textbooks, performing experiments in laboratory setting, and using informationtechnologies. Assessment of learning outcomes often include quantitative measures for notionssuch as motivation to learn, real world applicability, and knowledge or learning awareness 13.IV. Research TechniquesEye tracking and its role in usability