Conference Session

Pay It Forward: Critical Thinking, Reflection and Faculty Engagement Promote Success in Engineering

Collection

2011 ASEE Annual Conference & Exposition

Authors

Mary R Goldberg, University of Pittsburgh, Department of Rehabilitation Science and Technology; Rory A. Cooper, University of Pittsburgh; Dan Ding, University of Pittsburgh, Department of Rehabilitation Science and Technology; Alicia Koontz, Human Engineering Research Laboratories

Tagged Divisions

Cooperative & Experiential Education

Laboratories Page 22.1615.1 c American Society for Engineering Education, 2011 Using Experiential Learning to Inspire, Educate, and Empower Underrepresented Undergraduates in STEMAbstractThe vision of the Quality of Life Technology Engineering Research Center (QoLT ERC) is totransform the lives of people with reduced functional capabilities due to aging or disabilitythrough intelligent devices and systems. Through the ERC mechanism, a comprehensiveeducation and outreach program has been developed to inspire, educate, and empower

Conference Session

How Are We Preparing Our Students for the 21st Century Workforce?

Collection

2012 ASEE Annual Conference & Exposition

Authors

Richard P. Coe, Thomas Edison State College

Tagged Divisions

Cooperative & Experiential Education

academic credit for all104 operating US nuclear electric energy generating facilities. This credit whenapplied to technical degree study can bring a candidate very close to achievingwhat has become not only a job requirement but the basis for future advancement.In 2011 Thomas Edison State College (TESC) did and in-depth review of 10nuclear utility occupational positions training and qualification programsaccredited by the National Academy for Nuclear Training. The positions rangedfrom operational to operational support positions. A TESC review team reviewedthe training curriculums, instructional strategies, laboratory and simulator training,testing and instructor qualifications. The utility laboratory training process, andespecially the on-the-job

Conference Session

Workplace Concerns, Realities, and Intangibles

Collection

2009 Annual Conference & Exposition

Authors

Craig Gunn, Michigan State University

Tagged Divisions

Cooperative & Experiential Education

university/college/majorsSoph. ME 201 – Thermodynamics ME 222 – Deformable SolidsYear Student communication survey, refresher for past Short reports on lab activities grammatical expertise Tools: MS Word, Email, WWWJunior ME 332 – Fluid Mechanics ME 371 – Machine Design IYear Laboratory Reports: (Approx. 9 @ 4-6 pages each) Short Technical Reporting Brief narrative of procedure, measured data, Design Analysis Reports (2 @ 4- deduced and analyzed data, plotted results with 6 pp. Individual); Technical discussion and conclusions. Analysis

Conference Session

Curriculum Reform with Cooperative Education

Collection

2007 Annual Conference & Exposition

Authors

Bryan Dansberry, University of Cincinnati

Tagged Divisions

Cooperative & Experiential Education

mechanism forincorporating research into undergraduate education by tailoring the strengths of the cooperativeeducation model (co-op), which is traditionally industry-focused, to the fields of fundamentalresearch. Fundamental objectives of this program will be to increase undergraduate studentawareness, interest, and participation in basic research being conducted in academic,governmental, and private research laboratories both nationally and internationally. From theUniversity perspective, his program will foster increased retention of baccalaureate students withinterest in basic research and produce students who possess a greater level of researchcompetencies upon graduation, ultimately resulting in an increase in the competency andnumbers of

Conference Session

Outcomes of Cooperative Education Assignments

Collection

2009 Annual Conference & Exposition

Authors

Daniel Walsh, California Polytechnic State University

Tagged Divisions

Cooperative & Experiential Education

sound educational approach. The college has along history of using a learn-by-doing approach to engineering education. Indeed, it is embodiedin the motto of the university “Discere Faciendo”, to learn by doing. Through this pedagogicalapproach, understanding theory is facilitated and enhanced by demonstrating its application tothe real world situations. This learning and teaching paradigm has allowed the colleges graduatesto be more productive ab initio in their professional careers than their counterparts with a lessrigorous laboratory and project based exposure. As evidenced by the growth of the “learn-by-doing” approach to education in the United States and the rest of the world, project basedlearning has been accepted as a valuable

Conference Session

How Are We Preparing Our Students for the 21st Century Workforce?

Collection

2012 ASEE Annual Conference & Exposition

Authors

Ronald H. Brown, Marquette University; Thomas F. Quinn, Marquette University; George Corliss, Marquette University; Jay R. Goldberg, Marquette University; Mark Nagurka, Marquette University

Tagged Divisions

Cooperative & Experiential Education

Wooster (Ohio) and his Ph.D. in mathematics from Michigan State University. He has taught and worked at the Uni- versity of Nebraska, Lincoln, University of Wisconsin, Madison, Swiss Federal Institute of Technology, Argonne National Laboratory, Karlsruhe Institute of Technology (Germany), Compuware Corp., and Mar- quette University, as well as in several industrial and consulting positions. His research interests include scientific computation and mathematical modeling, guaranteed enclosures of the solutions of ordinary differential equations, industrial applications of mathematics and scientific computation, numerical opti- mization, automatic differentiation, and software engineering. He teaches courses in

Conference Session

Comparing Different Aspects of the Cooperative Education Experience

Collection

2011 ASEE Annual Conference & Exposition

Authors

Craig J. Gunn, Michigan State University

Tagged Divisions

Cooperative & Experiential Education

Page 22.863.3 EGR 100 – Freshmen Design Resumes, email, short engineering focused reports, engineering writing demands, problem solving, speaking, ethics, and orientation to the university/college/majorsSoph.Year ME 201 – Thermodynamics Student communication survey, refresher for past grammatical expertise Tools: MS Word, Email, WWWJuniorYear ME 332 – Fluid Mechanics ME 371 – Machine Design I Laboratory Reports: (Approx. 9 @ 4-6 pages each) Short Technical Reporting Brief narrative of procedure, measured data, deduced and Design Analysis Reports (2 @ 4-6 pp. analyzed data, plotted results with

Conference Session

Curriculum Reform with Cooperative Education

Collection

2007 Annual Conference & Exposition

Authors

Daniel Walsh, California Polytechnic State University; Jon Whited, St. Jude Medical; Robert Crockett, California Polytechnic State University

Tagged Divisions

Cooperative & Experiential Education

the maturation of arelationship initiated in the cooperative education experience which blossomed into project workat the university, participation on advisory boards, sponsored laboratories, distance learningactivities, help retaining faculty and the development of a consortium to support student projectsand Accreditation Board for Engineering and Technology (ABET) learning outcomes.IntroductionAll too often the plethora of opportunities presented by cooperative education programs gounrealized. In the minimal case the university perceives the coop program only as a tool toprovide students the opportunity to gain professional work experience, and earn money. Again inthis minimal case, industry perceives coop only as a “try-out” for potential

Conference Session

Faculty Set the Preliminary Standards for Co-ops

Collection

2010 Annual Conference & Exposition

Authors

Emilia Bratschitsch, Joanneum University of Applied Sciences; Annette Casey, Joanneum University of Applied Sciences

Tagged Divisions

Cooperative & Experiential Education

provided to undergraduates and the R&D activities carried out by the technical staffin the department’s state-of-the-art testing facilities, Figure 9, Figure 10, and Figure 11.Figure 9: Testing facilities. More than 10 test beds: engine, power train, acoustics, SHED, etc.The equipment in the testing facilities comprises a chassis dynamometer, stationary anddynamic engine test beds, a transmission and clutch test bed, an air/fuel mixture test bed, a Page 15.967.9titling bed, an acoustics laboratory, a SHED emissions testing system, a rapid prototypingmachine, as well as a skid resistance tester and equipment for measuring e.g. flow quantitiesand

Conference Session

CEED Paper Session 2: Leveraging Internships and Experiential Learning in Higher Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Weican Xiao, Michigan Technological University

Tagged Divisions

Cooperative & Experiential Education

Computer Engineering Department HeadsAssociation, Mousavinezhad et al. started a workshop series for developing educational andresearch programs in a critical area of power and energy systems with the support of the NationalScience Foundation 3. Many recent efforts have been devoted to improve the teaching throughsimulation 4-7; nevertheless, few have been devoted to enhance hands-on skills. Recently Farhadiand Mohammed designed a Laboratory-Scale Hybrid DC power System to address that issue8.However, it requires tremendous effort from the instructors and a great amount of sourcefunding, which is hard to duplicate in most of the schools. In addition, the DC power system issparsely used in power industry as the AC power system is still dominant due

Conference Session

Assessing, Developing, and Enhancing the Engineering Experiential Education Experience

Collection

2011 ASEE Annual Conference & Exposition

Authors

Dean C. Millar, University at Buffalo, SUNY

Tagged Divisions

Cooperative & Experiential Education

employers about the Page 22.1173.7value that co-op students contributed to their organizations: Co-op Success Stories; Valuable Results from UB Student Employees4Northrop Grumman - Eric used Visual C++ to automate laboratory test procedures on newcomponent devices in order to speed up the production of these devices. As a result of theimproved test procedures time spent on testing has decreased by 68%.BOC Edwards/Precision & Vacuum Parts - Hilbert came up with a very good substitute vanematerial for vacuum pumps. This reduced the cost of these vanes by over 90%.BMP America - Tomasz's analysis of our oil roller productions process allowed him

Conference Session

Post Graduate Experiential Programs and Insights

Collection

2011 ASEE Annual Conference & Exposition

Authors

David W Schmueser, Altair Engineering Inc.; Charbel Philippe Saleh, Altair Engineering Inc.; Prakash C. Shrivastava, Oakland University; Lori Lin Crose, Oakland University

Tagged Divisions

Cooperative & Experiential Education

, higher education certification courses, and sponsorship of engineering team competitions. Schmueser joined Altair in 2007, after working for the Research Laboratories and Advanced Product De- velopment Divisions of General Motors and at the Battelle Columbus Laboratories. He has published numerous papers on CAE applications to lightweight structures, composite materials, and vehicle joint design. Dr. Schmueser has been an Adjunct Graduate Professor in the Mechanical Engineering Depart- ment at Wayne State University since 1993. Schmueser holds Bachelor of Science and Master of Science degrees in Applied Mechanics from the University of Michigan-Ann Arbor, and a doctorate degree in Mechanical Engineering from the

Conference Session

Cooperative & Experiential Education Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Mary Yvonne Lanzerotti, Air Force Institute of Technology; Maggie Varga, SOCHE; Sean J. Creighton, SOCHE; Derrick Langley, Air Force Institute of Technology; Diana Lynn Cahill, Air Force Institute of Technology; Richard K. Martin, The Air Force Institute of Technology

Tagged Divisions

Cooperative & Experiential Education

Director, Maggie leads the SOCHEIntern Program, which employs nearly 300 students an- nually in cooperation with local government and small businesses, as well as the Air Force Institute of Technology (AFIT) and Air Force Research Laboratory (AFRL) at Wright-Patterson Air Force Base. The program provides high impact experiential learning opportunities for students while generating economic benefit and enhancing community sustainability. Her work improves the efficiency of programs that support member institutions and increase the success of more than 120,000 students in southwest Ohio. Maggie has also provided guidance and leadership in the creation and evolution of regional initiatives such as the Dayton Water

Conference Session

Preparing and Retaining Engineering Students

Collection

2009 Annual Conference & Exposition

Authors

Robert Rabb, United States Military Academy; Margaret Nowicki, United States Military Academy; Elizabeth Bristow, United States Military Academy

Tagged Divisions

Cooperative & Experiential Education

accomplished duringthe summer. This, however, is sufficient time to allow the students to be exposed to, work on,and sometimes solve an engineering problem. The Army Material Command (AMC) and UnitedStates Army Corps of Engineers (USACE) sponsor most of the AIADs, but there are sponsorsfrom private engineering organizations, NASA, the national labs, and other Department ofDefense activities. This paper describes the AIAD program and discusses how it attracts andretains engineering majors. Additionally, feedback from the project sponsors can be used tomeasure student progress and assess the curriculum.Introduction “My sponsor and others at the Laboratory took time to talk with me not just about math and science but also the politics and

Conference Session

Assessing, Developing, and Enhancing the Engineering Experiential Education Experience

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ralph Ocon, Purdue University, Calumet; Shoji Nakayama, Purdue University, Calumet; Opal McFarlane, Purdue University, Calumet

Tagged Divisions

Cooperative & Experiential Education

variousindustries. During an accident investigation of the Plutonium Spill at National Institute ofStandards and Technology (NIST) on June 9, 2008, investigators reported a lack of safetytraining and inadequate laboratory procedures led to this particular accident (U.S. Houseof Representative, 2008). A similar concern was also identified in the taxi business wherethe National Institute for Occupational Safety and Health (NIOSH) identified a lack ofsafety training among taxi drivers often causes drivers to be victimizes (2009). Providingadequate safety training is essential to various businesses and industries20, 21. a. Application of Creativity Concept/Technique: Verbal brainstorming Because workplace injuries can sometimes result from a lack

Conference Session

Cooperative Education and Engineering

Collection

2008 Annual Conference & Exposition

Authors

Tylisha Baber, Michigan State University; Norman Fortenberry, National Academy of Engineering

Tagged Divisions

Cooperative & Experiential Education

/internship workplace. o Traditional classroom. o Classroom laboratory. o Classroom capstone design. o Extracurricular activities (engineering profession related). o Extracurricular activities (non-engineering profession related).The engineering workplace ranked the highest as the best setting to develop and demonstrate thecompetencies, followed by cooperative education/internships. The traditional classroom settingconsistently ranked last. According to the constituents, engineering students spend the majorityof their academic experiences in the classroom, the least likely place to develop the skills,attitudes and behaviors necessary to be successful engineers.Very few of the studies reviewed focused on engineering

Conference Session

Assessing, Developing, and Enhancing the Engineering Experiential Education Experience

Collection

2011 ASEE Annual Conference & Exposition

Authors

Emilia Andreeva-Moschen, FH Joanneum University of Applied Science, Graz; Adrian J. Millward-Sadler, FH Joanneum University of Applied Science, Graz

Tagged Divisions

Cooperative & Experiential Education

language (English),and a large practical component. Neither the industry nor the alumni expected thatBachelor’s degree graduates would be able to operate in research and development.Instead, they would act as assistants, laboratory or test bed supervisors, ordesigners; to be responsible for technical documentation or customer care. Only aMaster’s degree would qualify them to become fully fledged engineers who couldbear project responsibility and work autonomously on new technological researchand development.Two further questions were also significant in the design of the new curricula: How important and useful was the knowledge gained in a diploma degree of study for the graduates when starting their career? How important and useful was the

Conference Session

Developing Tomorrow's Leaders through Co-op Education

Collection

2009 Annual Conference & Exposition

Authors

Adrian Millward-Sadler, Joanneum University of Applied Sciences; Annette Casey, Joanneum University of Applied Sciences; Emilia Bratschitsch, Joanneum University of Applied Sciences

Tagged Divisions

Cooperative & Experiential Education

the same time as providing motivation for the students byproviding this academic / “real” world link, the webquest also facilitates the primary languageobjective, which in this case is the composition of a written report in a suitable language register to bepresented to either an academic supervisor or a departmental superior.ImplementationThe webquest activity, unlike a normal English lesson, takes place in the departmental computer labs.Fortunately, the department is well resourced in the area of computer technology. In addition to twoCAD studios, the separate computer laboratory contains 22 separate Windows based PCs, eachnetworked and with internet access. During their first two semesters, students are required to undertakea course of 30

Conference Session

CEED Technical Session: High-Impact Makerspaces, Transitioning from Co-op to School and Service Research

Collection

2017 ASEE Annual Conference & Exposition

Authors

Alexandra Longo, American Society for Engineering Education; Brian Yoder, American Society for Engineering Education; Rocio C. Chavela Guerra, American Society for Engineering Education; Rossen Tsanov, American Society for Engineering Education

Tagged Topics

Diversity

Tagged Divisions

Cooperative & Experiential Education

and share their skills and creations (para. 14). One ofthe main places where Makers can collaborate and share processes and products is a Makerspace.Makerspaces can be located in a wide variety of spaces, including libraries, art galleries,museums, laboratories, and workshops. Although makerspaces can vary greatly, Davee, et. aldefined them “fundamentally [as] places to design, explore, and create” (2015, p. 3).Making gained significant visibility due to President Obama’s support for the Maker Movement,culminating in the 2014 White House Maker Faire, a newly established National Week ofMaking, and the Nation of Makers Initiative. The Nation of Makers Initiative was a call tofederal agencies, companies, organizations, and schools to pledge

Conference Session

Issues of Cooperative Education I

Collection

2008 Annual Conference & Exposition

Authors

ROBERT GRAY, Penn State Erie

Tagged Divisions

Cooperative & Experiential Education

with a local industry.Perceived Shortcomings to Traditional Systems Design CurriculumBefore I began a career in academia as a professor of (electrical) engineering, I worked inindustry for nearly 20 years. A major part of my career was in the military performing duties asan avionics maintenance technician, a flight crewmember in remote operations in Alaska, anavionics systems engineer for the F-16 aircraft, and researcher for guidance and controls systemsin an avionics laboratory. Once in front of the classroom, it did not take long before I noticedthat my senior students had a good grasp of the individual subjects (circuits, digital electronics,microprocessors, mathematics, physics, etc.), but they lacked a solid understanding of how

Conference Session

Issues of Cooperative Education II

Collection

2008 Annual Conference & Exposition

Authors

Jean-Claude Thomassian, State University of New York, Maritime College; Anoop Desai, Georgia Southern University; Patrick kinnicutt, Central Michigan University

Tagged Divisions

Cooperative & Experiential Education

teams of students work on structured tasks (e.g., homeworkassignments, laboratory experiments, or design projects) under conditions that meet five criteria:positive interdependence, individual accountability, face-to-face interaction, appropriate use ofcollaborative skills, and regular self-assessment of team functioning. Many studies have shownthat when correctly implemented, cooperative learning improves information acquisition andretention, higher-level thinking skills, interpersonal and communication skills, and self-confidence.” [6].Regardless of the subject matter, research has shown that active/cooperative learning is aneffective teaching technique compared to using traditional instruction alone such as lectures. Byusing Active

Conference Session

The "Education" in Experiential Education

Collection

2012 ASEE Annual Conference & Exposition

Authors

Heather Lynn Ogletree, San Jacinto College; Anthony Zippay, Arizona State University

Tagged Divisions

Cooperative & Experiential Education

Students”. Kimberly Kendricks and AnthonyArment. Ohio State University, Journal of College and Science Teaching Vol. 24, 2011.“National Science Foundation-Sponsored Colloquy on Minority Males in STEM”. NormanFortenberry, Catherine Didion, Beth Cady, Wei Jing, Simil Raghavan. Journal of AfricanAmerican Males in Education Feb/Mar 2011 – Vol. 2 Issue 1Boyer Commission in Educating Undergraduates in the Research Laboratory. (1998).Reinventing undergraduate Education: A blueprint for Americas research universities”. MenloPark, CA: Carnegie Foundation for the Advancement of Teaching. Page 25.523.10

Conference Session

Cooperative & Experiential Education Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Joy Watson, University of Cincinnati; Maureen G. Schomaker, University of Cincinnati

Tagged Divisions

Cooperative & Experiential Education

through its practical applications  The critical evaluation of co-op positions by the university and the inclusion of positions with the greatest possible amount of education content  Condition of actual employment (not artificial conditions imposed upon employers which could reduce the experience to a laboratory experience in a campus environment  Co-op position as a paid positions because payment is the primary component of work  Ongoing evaluation of curricular design both on and off campus  Understanding by the university of the students’ aptitudes, academic preparation and the relationship between classroom theory and practical applications  Development of methods in which the student is led to observe

Conference Session

Expanding the Borders of Engineering Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

John Farris, Grand Valley State University; Paul Merritt Lane, Grand Valley State University

Tagged Divisions

Cooperative & Experiential Education

majoring in engineering Live, learn and work in a culture at the base of the economic pyramid. Page 22.947.3 3. Provide an opportunity for students majoring in engineering to design products for people living at the base of the economic pyramid. Pre-departure Activities and Orientations To prepare students to work safely in Nicaragua, each student will complete a machine shop qualificationbefore departure. Every student in the engineering school is required to take this short safety and machine operationcourse before they are allowed to work in The University’s shops. The Engineering Laboratories

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

of Liberal Arts and Sciences (and a biologist), has been the slow time to graduation bystudents in the STEM fields at GVSU. This was identified to be particularly problematic amonghigh financial need students.It is well documented that programs of study in the STEM fields include: • More credit hours to graduate than liberal arts programs Page 22.618.6 • Extensive structure and prerequisite requirements that limit flexibility • Extensive laboratory components that increase the number of contact and study hours expected of students and leading to very long school daysIn addition, it was identified that the demographics of the

Conference Session

Cooperative & Experiential Education Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Mary Yvonne Lanzerotti, Augsburg College; Sean Joseph Creighton, SOCHE; Maggie Varga, SOCHE; Richard Martin, The Air Force Institute of Technology; Derrick Langley, Air Force Institute of Technology; Diana Lynn Cahill, SOCHE

Tagged Divisions

Cooperative & Experiential Education

Force Institute of Technology (AFIT) and Air Force Research Laboratory (AFRL) at Wright-Patterson Air Force Base. The program provides high impact experiential learning opportunities for students while generating economic benefit and enhancing community sustainability. Her work improves the efficiency of programs that support member institutions and increase the success of more than 120,000 students in southwest Ohio. Maggie has also provided guidance and leadership in the creation and evolution of regional initiatives such as the Dayton Water Roundtable, Ohio’s Great Corridor Association, and the University of Dayton Rivers Institute. Prior to her position at SOCHE, Maggie worked for the Fitz Center for

Conference Session

Revitalizing Cooperative Education and Engineering

Collection

2006 Annual Conference & Exposition

Authors

Robert Stwalley, Purdue University

Tagged Divisions

Cooperative & Experiential Education

practical experiences available at Purdue, it seemed to makesense to utilize the original mission of the university to classify the types of experiences. Purdueis one of the first Land Grant universities, with engagement, research, and traditional academicgoals. Students at Purdue can gain practical experience in service learning projects throughEPICS, research projects through employment in on-going laboratory projects with faculty, andwork experience through employment with various university partner organizations. It wasdetermined that we would use the term “experiential education” to describe this larger spectrumof practical experience. Unfortunately, Co-Op does not adequately describe all of the types of traditional workexperience

Conference Session

Cooperative & Experiential Education Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Chris Plouff, Grand Valley State University; Nael Barakat, Grand Valley State University

Tagged Divisions

Cooperative & Experiential Education

. Most commonly, this is accomplished through assessment of somecourse-related activity including homework assignments, exams, laboratories, and projects.However, some of the learning outcomes are not easy to assess in a typical classroom setting. Inparticular, professional skills and their related outcomes are the most challenging to assess, likestudent learning outcome „f‟ which states that by the time a student graduates, they must have anunderstanding of the professional and ethical responsibility.[1] Multiple challenges have beenreported in the literature regarding educating students, and assessing the mastery level of thisparticular outcome.[2, 3] Some of these challenges are common to all engineering programs,including limitations to

Conference Session

CEED - Technical Session 1

Collection

2013 ASEE Annual Conference & Exposition

Authors

Chris Plouff, Grand Valley State University

Tagged Divisions

Cooperative & Experiential Education

different formsof involvement by the employer constituents, including course projects, senior capstoneexperiences/projects, and advisory boards. These directly address ABET‟s criteria that studentsare prepared for engineering practice through a curriculum incorporating appropriate engineeringstandards and multiple realistic constraints[2].IntroductionDemonstration that graduates of an engineering program have met the student learning outcomesa-k is required to be compliant with ABET expectations for accreditation. There are many waysthat the learning outcomes can be demonstrated, and most commonly is accomplished throughassessment of some course-related activity including homework assignments, exams,laboratories, and projects. Some of the learning

Conference Session

What Are We Learning About Co-op and Experiential Education Experience?

Collection

2012 ASEE Annual Conference & Exposition

Authors

John Marshall, University of Southern Maine

Tagged Divisions

Cooperative & Experiential Education

OneIntroductionProfessional internships are not a new concept to college and university programs.However, to require this experience in the form of a demanding, well designed andimplemented internship is a very time consuming investment, which will yield excellentreturns for your students and for your program. Students, both traditional and non-traditional, are given an opportunity to demonstrate, advance, and refine technical andsupervisory competencies learned in the classroom and in the laboratories. “Internshipsgive you on-the-job experience, help you learn whether you and that industry are a goodmatch, and can provide you with valuable connections and references.” 1Graduates with this type of resume-worthy experience have a substantial advantage overpeers with