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Global Interests and Experience Among First-Year Civil Engineering Students

Conference Session: First-Year Activities and Peer Review Strategies in Civil Engineering
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Angela R. Bielefeldt, University of Colorado, Boulder
Tagged Divisions: Civil Engineering

AC 2011-1348: GLOBAL INTERESTS AND EXPERIENCE AMONG FIRST-YEAR CIVIL ENGINEERING STUDENTSAngela R Bielefeldt, University of Colorado, Boulder Angela Bielefeldt, PhD, PE, is an Associate Professor in the Department of Civil, Environmental, & Ar- chitectural Engineering at the University of Colorado - Boulder (CU). She is affiliated with the Mortenson Center in Engineering for Developing Communities at CU. She has taught the first-year Introduction to Civil Engineering course 13 times, starting in 1997. She also teaches a senior capstone Environmental En- gineering Design course, which included international water and sanitation projects in 2001, 2002, 2006, and 2010. Her research interests include ceramic water

Relevance Score: 0.021100402

The Engagement and Retention of Electrical Engineering Students with a First Semester Freshman Experience Course

Conference Session: Recruitment, Retention, and First-Year Programs in ECE
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Hector A. Ochoa, University of Texas, Tyler; Mukul Shirvaikar, University of Texas, Tyler
Tagged Divisions: Electrical and Computer

real projects in thedifferent areas of electrical engineering.This paper will present the data collected as a part of the course offering over two academicyears, specifically split into two analysis categories. The first part of the data analysis will focuson the effect of the course on student retention, extracted from the freshman cohorts. The secondpart of the data analysis will focus on student surveys performed at the end of the semester. Thissurvey was designed to measure vital components of overall course effectiveness with finergranularity, including students understanding of topics such as the role of electrical engineersand their impact on society. The data collected and analyzed over the last two years clearlyshows an increase in

Relevance Score: 0.02108464

Integration of Innovation and Entrepreneurship Topics into Design Courses: Experiences and Lessons Learned

Conference Session: Trends in Mechanical Engineering II
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Raghu Echempati, Kettering University
Tagged Divisions: Mechanical Engineering

-ended projectsand a discussion of the five (5) principles of innovation. A math professor was also invited toteach a topic on the applications of calculus and statistics in the design and selection of rollingcontact bearings. For each mini-project and the final project, the students are asked to write abrief review of NABC analysis. (Need, Approach, Benefits and Competition). The overallappreciation for inclusion of innovation and entrepreneurship topics and the NABC analysisseem to be encouraging.IntroductionWhile many universities are considering, developing and/or implementing a separate curriculumin entrepreneurship and innovation, however, little seems to be done to realize that these topicsare highly interdisciplinary across many areas

Relevance Score: 0.020878298

ARM/FPGA/I2C Sensor Network Development and Teaching Platform

Conference Session: Simulation and Virtual Instrumentation
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Antonio Francisco Mondragon, Rochester Institute of Technology; Prafull Purohit, Rochester Institute of Technology
Tagged Divisions: Engineering Technology

design with a strong emphasis on hands-on experience for the students.The last module in the sequence is being taught as a capstone course that is geared more towardsindustrial like applications and industrial design environment. This includes project managementtechniques, version control and project sign-off milestones.Based on the above guidelines, we are developing a design experience for the students based ona popular commercial computer architecture such as the ARM processor[1, 2]; the flexibility ofextending this architecture by creating hardware accelerator blocks by the integration of a highdensity FPGA; and by the addition of off-the-shelf sensor components that are interconnectedthrough the popular I2C communications bus.During the

Relevance Score: 0.020765793

Significance of Student-Built Spacecraft Design Programs: Its Impact on Spacecraft Engineering Education over the Last Ten Years

Conference Session: Aerospace Curriculum and Collaborations
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Sanjay Jayaram, Saint Louis University, Parks College of Engineering, Aviation, and Technology; Michael Swartwout, Saint Louis University
Tagged Divisions: Aerospace

currently teaches Freshman Design, Mechanical Design, Capstone ME Design, Freshman Engineering, and Intro. to Aero/Astro. He has publications in many sources with a focus on spacecraft. Swartwout has headed numerous student based spacecraft both at Washington University and Saint Louis University, as well as NASA projects. He is a member to many professional societies, including a Senior Member of AIAA, the Institute of Electri- cal and Electronics Engineers, the American Society for Engineering Education, Tau Beta Pi, the NASA Missouri Space Grant Consortium, and the NASA In-Space Propulsion’s Solar Sail Technical Advisory Group.Michael Swartwout, St Louis University

Relevance Score: 0.02074344

Use of FLUENT Software in a First-Year Engineering Microfluidic Design Course

Conference Session: FPD VII: Innovative Curriculum Elements of Successful First-Year Courses
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Barbara Elizabeth Carruthers, The Ohio State University; Paul Alan Clingan, The Ohio State University - EEIC
Tagged Divisions: First-Year Programs

Engineers, 2006. Frontiers in Education Conference.6. Education and Training of the Nanotechnology Workforce. Fonash, S. s.l. : Journal of NanoparticleResearch, 2001.7. Zeigler, B.P. Theory of Modeling and Simulation. Malabar : Krieger Publishing Company, 2000.8. Using Computational Fluid Dynamics to Excite Undergraduate Students About Fluid Mechanics. Pines,D. s.l. : American Society of Engineering Education, 2004.9. The Use of Advanced Simulation Tools in Capstone Design Projects. Barber, T. s.l. : World Scientific andEngineering Academy and Society, 2007.10. Use of Computational Fluid Dynamics (CFD) in Teaching Fluid Mechanics. Sert, C. and Nakiboglu, G.s.l. : American Society of Engineering Education, 2007.11. Computational Aerodynamics Goes to

Relevance Score: 0.02058458

Work in Progress: Incorporating Pervasive Computing Concepts into an Aircraft Maintenance Job Task Card System

Conference Session: Computers in Education Poster Session
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Timothy D. Ropp, Purdue University, West Lafayette; David M. Whittinghill, Purdue University, West Lafayette; Raymond A. Hansen, Purdue University; Erin E. Bowen, Purdue University; Joshua L. Holmes
Tagged Divisions: Computers in Education

workenvironment into the students’ repertoire of critical industry skills. Working within the AviationDepartment’s Hangar of the Future Research Laboratory at Purdue University, students arechallenged to innovate upon the use of common personal computing devices and data networksused in aircraft maintenance, creating more intuitive electronic performance support to aircrafttechnicians.As part of semester projects, students within a senior capstone course AT 402 AircraftAirworthiness Assurance are assigned hands on, design-build-test projects relating to smarterprocesses, smarter tools and smarter networks for aircraft maintenance. They must reach out andwork collaboratively with other students and instructors to experience first hand the challengesof

Relevance Score: 0.020052157

A “High Touch, High Value” Approach to a Practice-Oriented Systems Engineering Master’s Degree Program for Working Professionals

Conference Session: Developing Systems Engineering Curriculum, Part II
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Michael C Smith, University of Virginia; Reid Bailey, University of Virginia
Tagged Divisions: Systems Engineering

cohort to determinewhich topics are of greatest interest to the current cohort. While these topics are often similarfrom year to year, they vary with changes in technology, the global context, and currenteconomic conditions.The Program includes 33 credit hours: ten three-‐credit courses and a three-‐credit seminar series. The four core courses that are required to earn the Master of Engineering degree are: • SYS6001: Introduction to Systems Engineering (the first course in the curriculum) • SYS6043: Applied Optimization • SYS6045: Applied Probabilistic Modeling • SYS6002: Systems Integration (the Capstone Project) The common elective

Relevance Score: 0.020021262

Enhancing Graduation Rates through High Impact Activities: Experiential Learning, Engagement, Mentoring, and Scholarships

Conference Session: Comparing Different Aspects of the Cooperative Education Experience
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Paul D. Plotkowski, Grand Valley State University; Jann Joseph, Grand Valley State University
Tagged Divisions: Cooperative & Experiential Education

Learning Communities Writing Intensive Courses Collaborative Assignments and Projects Undergraduate Research Diversity/Global Learning Service / Community Based Learning Internships Capstone Courses and ProjectsIn reviewing the programming at GVSU, the working group noted that the university employs allof these elements. The degree to which these are included for a particular student, however,depends upon each student’s academic program.One of the most significant “Ah-Ha moments” for the working group was when we recognizedthat while each of us was aware of extensive efforts and programming in our respective areas ofthe university, none of us was aware

Relevance Score: 0.019965794

Converting an Internal Combustion Engine Vehicle to an Electric Vehicle

Conference Session: Energy Education and Industrial Partnership Needs
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Ali Eydgahi, Eastern Michigan University; Edward Lee Long IV, University of Maryland, Eastern Shore
Tagged Divisions: Energy Conversion and Conservation

Converting an Internal Combustion Engine Vehicle to an Electric VehicleAbstractSenior students in the Engineering and technology programs are challenged to thoroughly applytheir learned technological knowledge and skills toward design and implementation of achallenging engineering product in senior deign or capstone courses. In this paper, a successfullyimplemented comprehensive design, which utilizes a synergy of competencies gained fromundergraduate academic and research experiences with insight to the efforts concerning seniordesign project is presented.An electric vehicle is a type of alternative fuel car that utilizes electric motors and motorcontrollers instead of an internal combustion engine. Power is derived from battery-packs ratherthan a

Relevance Score: 0.019965794

Assessing Challenges and Affordances of a Traditional Instructor’s Pedagogical Change During Guided Implementation of Innovative Pedagogy

Conference Session: Innovations in Materials Education
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Jacquelyn E. Kelly, Arizona State University; Andrea Marta Eller, Arizona State University; Stephen J. Krause, Arizona State University
Tagged Divisions: Materials

at New School for the Arts and Academics, an alternative arts high school.Andrea Marta Eller, Arizona State University Andrea Eller is an undergraduate at Arizona State University in the School of Materials at Arizona State University. After graduation she will be attending graduate school in Materials Science and Engineering. She has been working as an undergraduate teaching assistant in the Introductory Materials course for two years.Stephen J Krause, Arizona State University Stephen J. Krause is Professor in the School of Materials in the Fulton School of Engineering at Arizona State University. He teaches in the areas of bridging engineering and education, capstone design, and introductory materials

Relevance Score: 0.01995587

Alternative Energy Education Using Alternative Design and Delivery

Conference Session: Interdisciplinary Education in Engineering Technology
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Stephen R. Fleeman, Rock Valley College
Tagged Divisions: Engineering Technology

of the program’s first year and graduatesof the two-year program can be measured using externally-developed measurements. Page 22.156.6 On further reflection and discussion, the faculty determined that several existing coursescould be adjusted to serve SES goals as well as those of our traditional EET program. Forexample, the definition of a current source taught in our basic circuits and electronics course(EET 141) can include a photovoltaic module or a grid-tied inverter as practical examples to whythe topic is necessary. Both our capstone project class (EET 282) and our seminar (independentstudent research) class (EET 298) can permit

Relevance Score: 0.019873269

Web-Based Magnetic Design

Conference Session: New Developments in Teaching Electromagnetics and Related Topics
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Taufik Taufik, California Polytechnic State University; Dale S.L. Dolan, California Polytechnic State University
Tagged Divisions: Electrical and Computer

AC 2011-76: WEB-BASED MAGNETIC DESIGNTaufik Taufik, California Polytechnic State University Dr. Taufik received his BS in Electrical Engineering with minor in Computer Science from Northern Arizona Univ. in 1993, MS in Electrical Engineering from Univ. of Illinois Chicago in 1995, and Doctor of Engineering in Electrical Engineering from Cleveland State University in 1999. He then joined the Electrical Engineering department at Cal Poly State University in 1999 where he is currently a tenured Professor. He is a Senior Member of IEEE and has done consulting work and has been employed by sev- eral companies including Capstone Microturbine, Rockwell Automation (Allen-Bradley), Picker Interna- tional, Rantec, San

Relevance Score: 0.019677911

Students and Sustainability: Assessing Students' Understanding of Sustainability from Service Learning Experiences

Conference Session: Introducing Sustainability into Engineering Education
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Jonathan Wiggins, University of Colorado, Boulder; Mary E. McCormick, Tufts University; Angela R. Bielefeldt, University of Colorado, Boulder; Christopher W. Swan, Tufts University; Kurt Paterson, Michigan Technological University
Tagged Divisions: Environmental Engineering

AC 2011-1335: STUDENTS AND SUSTAINABILITY: ASSESSING STU-DENTS’ UNDERSTANDING OF SUSTAINABILITY FROM SERVICE LEARN-ING EXPERIENCESJonathan Wiggins, University of Colorado, BoulderMary E McCormick, Tufts University Civil and Environmental Engineering Ph.D. studentAngela R Bielefeldt, University of Colorado, Boulder Angela Bielefeldt, PhD, PE, is an Associate Professor in the Department of Civil, Environmental, and Architectural Engineering at the University of Colorado at Boulder (CU). She served as the Director of the Environmental Engineering Program at CU for four years. She has taught the first-year Introduction to Environmental Engineering and senior capstone Environmental Engineering Design courses for a number

Relevance Score: 0.019480139

A Hands-On Approach to Demonstrating Hardware/Software Tradeoffs in an Embedded System Design

Conference Session: Embedded System Design
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Jeanne Christman, Rochester Institute of Technology; Eric J. Alley, Rochester Institute of Technology
Tagged Divisions: Engineering Technology

engineering technology classes, president of a major student organization, and taking part in the Imagine RIT Innovation Festival with a peer developed project. Page 22.47.1 c American Society for Engineering Education, 2011 A Hands-on Approach to Demonstrating Hardware/Software Tradeoffs in an Embedded System DesignAbstractThis paper describes a Computer Engineering Technology lab activity in an Embedded SystemsDesign course used to provide students with an opportunity to substantiate the theory beingpresented in the classroom. The objective of the lab is to quantitatively

Relevance Score: 0.019480139

Understanding Students' Perceptions on the Utility of Engineering Notebooks

Conference Session: Design Communications & Cognition I
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Leema Kuhn Berland, University of Texas, Austin; William F. McKenna, University of Texas, Austin; Stephanie Baker Peacock, University of Texas, Austin
Tagged Divisions: Design in Engineering Education

’ perceptions of these notebooks.Types of engineering notebooksA brief review of the literature reveals that engineering notebooks can take many formsand be used for many purposes. For example, Tillema and Smith (2000)24 identified threedistinct types: 1. A dossier is a notebook or portfolio that is completed at the end of a project or course to “collect mandated documentation on performance. In this case, the portfolio construction is not necessarily based on a learning orientation” (p. 194)24. 2. A learning portfolio is a living document used to evaluate learning over the course of the project or semester. 3. A reflective portfolio is also a living document, in which the author records his or her

Relevance Score: 0.019197352

Analysis of the Barriers, Constraints, and Issues for Dual Credit and/or Advanced Placement® Pathway for Introduction to Engineering/Design

Conference Session: Design in Freshman and Sophomore Courses
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Leigh R Abts, University of Maryland, College Park
Tagged Divisions: Design in Engineering Education

those courses, but also for courses of study related to the Design Process, such as asenior-level Capstone Design Project. The creation of a reference Design Process Rubric wouldbegin to lay the foundation to address some of the barriers to both an advance placement and / orfor a dual-enrollment course (secondary and undergraduate credit).IntroductionThe work reported in this paper began with the Strategies for Engineering Education K – 16(SEEK-16) Summit held on February 21 and 22nd, 2005 at the National Academy ofEngineering. As a direct result of SEEK-16: (1) funding was provided by several NationalScience Foundation (NSF) awards; (2) a research program was conducted to study the rationale

Relevance Score: 0.019197352

Educating Elementary Teachers in Engineering: A Design Method and Baseline

Conference Session: Certifying Teachers in Engineering or Integrated STEM
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Yvonne Ng, St. Catherine University; Lori R. Maxfield, Saint Catherine University
Tagged Divisions: K-12 & Pre-College Engineering

discipline on the lives of others in the wider world, examine the ethics and philosophy characteristics of the discipline and their implications, and project themselves into the discipline while developing a sense of pride and humility related to both the self and the discipline. 24 Although it not always explicitly addressed, most engineering programs aim to have engineering have a strong identity as an engineer. Capstone and senior design projects are ways that traditional engineering programs develop identity, but providing opportunities earlier in the academic career may help to develop this earlier. Service learning and mentoring programs are strategies used recently, especially with

Relevance Score: 0.01889643

Distance Education Program in Electrical Engineering

Conference Session: Distance and Web-based Learning in ECE
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Esteban Rodriguez-Marek, Eastern Washington University; Min-Sung Koh, Eastern Washington University; Claudio Talarico, Eastern Washington University; Jabulani Nyathi, Eastern Washington University
Tagged Divisions: Electrical and Computer

that suits a variety of learning styles. For example, the program has left significant leeway for service learning components in the classroom, in the form of final projects or in the Senior Capstone class. Service learning typically engages students, faculty and community members in a community project. These types of projects allow students to become connected to the community and, thus, to provide a sense of civic engagement. Surveys have shown overwhelmingly that over 65% of students recognize civic engagement as a critical part of their education [10]. Research further indicates that women learn most effectively when theoretical concepts and classroom

Relevance Score: 0.018863544

A Comparison of Design Education Across Two Fields: Lessons from Industrial Design and Mechanical Engineering

Conference Session: Design Across Disciplines
Collection: 2011 ASEE Annual Conference & Exposition
Authors: William Besser, University of Saint Thomas; AnnMarie Thomas, University of Saint Thomas
Tagged Divisions: Design in Engineering Education

34. Lastly, the program at the University ofAuckland is focused on teaching a multidisciplinary approach that integrates the various parts ofmechanical engineering to prepare students to be successful upon graduation5. These are classessimilar to the capstone design courses in US engineering universities, but instead of simplypairing students with professional engineers, they are also paired with individuals from art,business and design disciplines in order to work on a truly multidisciplinary project. Theseindustrial design-style classes were created and carried out by the mechanical engineeringdepartments of their respective universities. The result of this style of program is thatundergraduate students are not only educated on the

Relevance Score: 0.018858105

Ensuring Curriculum Integrity for Engineering Technology

Conference Session: ETD Design V: Classroom Delivery, Course Content, and Assessments
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Mike Eastman, Rochester Institute of Technology; Fred Walker, Rochester Institute of Technology
Tagged Divisions: Engineering Technology

theoretical and practical. In many cases, the laboratory component of courses will be significantly strengthened with the semester transition due to the additional five weeks allocated.  Within the new curriculum plan, there are extensive opportunities for long-term projects, existing both early in the programs, and as part of capstone sequences. Additionally, a course entitled Design and Innovation has been added in the third year to provide students with a significant long-term project experience prior to their first co-operative educational experience.  Perhaps the most significant impact of the semester conversion deals with student

Relevance Score: 0.018822726

EET Nationally-Normed Assessment Exam: First Experiences and Their Relations to ABET Outcomes

Conference Session: TAC/ABET Related Outcome Based Assessment Methods and Models
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Ilya Grinberg, Buffalo State College; Ronald E. Land, Pennsylvania State University, New Kensington; Thomas M. Hall Jr., Northwestern State University; Kelly Ann Lacroix, Society of Manufacturing Engineers; Steve Macho, Buffalo State College; Mike Eastman, Rochester Institute of Technology
Tagged Divisions: Engineering Technology

, timeliness, and continuous improvement canbe represented by the following performance indicators:  Practicum, internship, field experience, co-op experience  Work on a research project with a faculty member outside of course or program requirement  Culminating senior experience (capstone course, senior project, comprehensive exam, etc.)Strict time constraints of the exam also suggested including timeliness as a factor.Program outcomes 3h and 3k were chosen to illustrate relevance of the EET test as an indirecttool because the above mentioned performance indicators identify the value of examinations(periodic, professional, certification, comprehensive, etc.) in student’s academic and professionallearning experience.These

Relevance Score: 0.018814573

An Investigation on the Impact of the Design Problem in Ideation Effectiveness Research

Conference Session: NSF Grantees Poster Session
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Gül E. Okudan Kremer, Pennsylvania State University, University Park; Linda C. Schmidt, University of Maryland, College Park; Noe Vargas Hernandez, University of Texas, El Paso
Tagged Topics: NSF Grantees

completed so that we can devise effective methods for learning design and preserving knowledge that arises in the process. She has been actively teaching and reflecting upon engineering design issues for over 15 years. Dr. Schmidt was the 2008 recipient of the American Society of Engineering Education’s prestigious Fred Merryfield Design Award and is the co-author with George Dieter of the text ”Engineering Design, 4th edition”, published by McGraw Hill in 2008. Linda Schmidt has published over sixty refereed publications in the areas of mechanical design theory and methodology, mechanism design generation, graph isomorphism issues in generative design and effective student learning on engineering project design

Relevance Score: 0.018785812

Introducing Interdisciplinary Content through Electives

Conference Session: SPECIAL SESSION: Interdisciplinary Course Design Opportunities for Chemical Engineers
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Joseph J. Biernacki, Tennessee Technological University; Christopher D. Wilson, Tennessee Technological University
Tagged Divisions: Chemical Engineering

includes a good introduction toteamwork 11. While the student body in Introduction to Engineering is interdisciplinary, theemphasis is largely on teamwork and does not focus on the interdisciplinary element per se.Each of the COE engineering units requires a senior-level capstone design course. Consistentwith the majority of engineering programs around the country, the capstone courses areadministered by the departments and so are discipline-homogeneous, the interdisciplinaryteamwork element in most cases coming from teamwork incorporating intradisciplinaryspecialization. In addition to this form of contrived “interdisciplinary” teamwork, CHE and MEand CHE, ME and ECE jointly offer two electives that are truly interdisciplinary,“Interdisciplinary

Relevance Score: 0.01857963

Re-Engineering Engineering Education: A Comparison of Student Motivation, Ability Development, and Career Paths in Traditional and Cross-Disciplinary Engineering Degree Programs

Conference Session: Multidisciplinary Technical Session
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Barbara A. Masi, Massachusetts Institute of Technology; Shanette A. Go; E. Hosoi, Massachusetts Institute of Technology
Tagged Divisions: Multidisciplinary Engineering

Page 22.1214.3for a complete reworking of the disciplinary boundaries among engineering disciplines, andbetween engineering and science, as part of engineering education. Sheppard11 has argued thatthe ABET-required senior engineering design capstone subject, the typical experience forprofessional practice in engineering curricula, is not enough to create an engineering graduateready for innovative engineering practice. Sheppard’s study suggests that curricula that include adesign subject each academic year that parallels engineering fundamentals subjects wouldprovide students with experiences that permit them to apply fundamentals each year. Moreover,this curricular design would also permit an increasing degree of sophistication in

Relevance Score: 0.018541427

The Role of the College of Technology in the Nuclear Industry

Conference Session: Interdisciplinary Education in Engineering Technology
Collection: 2011 ASEE Annual Conference & Exposition
Authors: Joseph F. Kmec, Purdue University; Bryan J. Hubbard, Purdue University, West Lafayette; Martin A Lopez De Bertodano, Purdue University, West Lafayette; Benjamin Revis, Purdue University
Tagged Divisions: Engineering Technology

12 86 Nuclear Core Introduction to Nuclear Engineering (NUCL 200) 3 Nuclear Reactors and Plant Systems (new) 3 Radiological Engineering Fundamentals (new) 4 Nuclear Engineering Laboratory I (NUCL 205) 4 Selected Topics in Applied Nuclear Energy (new) 3 17 103 Capstone Project 4TOTAL