lack of collaborationbetween industries and schools and outstanding conflicts of structural demands and supplies.The current engineering education tend to enter an ivory tower, but the collaboration ofuniversities and enterprises in the quality construction of aspects including the curriculumsystem, faculty team and practice platform is still not close enough while the effect is also notsustained enough. The reform of the engineering education has not fully reflected thedevelopment demand of science & technology and economy in the new period. Meanwhile,the construction of platforms for inter-disciplines and newly-emerging disciplines are laggingbehind and there are a lack of synergy between the training of engineering talents and
environment. MEERCatPurdue REDProject Data Collected Data Collected Freeform Department relationships and trust Faculty approaches to teaching Project Online resource usage tracking Faculty, staff and student climate Faculty role and identity Semi-structured interviews Focus group discussions Weekly instructor reflection Instructor practices and engagement Student self-efficacy survey
develop appropriate corrective measures and describe these measures quantitativelyand qualitatively in detail. The teams will explain how these measures will be implemented andjustify their effectiveness and expected costs. Each team will present findings in class or developa web page to reflect on the findings. This assignment will be carried out in collaboration withthe Engineering Design Course ED&G-100 to help students potentially in future policyinfluencing positions to interact with students who may be in future positions of influencing suchsocietal-based designs and infrastructure as roadways, bridges, mines, communication systems,levees, transportation systems, etc.”Problems that Arose in the Dispatch of the AssignmentUnfortunately
or former ITP students and composed awide variety of technical and non-technical backgrounds. Nearly 80% of these individuals havetechnical backgrounds (meaning undergraduate degrees in engineering, science or mathematics)and 70% have two or more years professional work experience. ITP has a strong internationalstudent body and the survey reflects this with 36% of the respondents being from abroad.Finally, the majority of those surveyed attended the SFTP events in the last 18 months. 5.2. Survey ResultsThe main body of the survey contained a long series of questions employing a seven-point Likertscale to measure students’ attitudes on a broad range of topics concerning the SFTP events. Wenow present some of the more interesting findings.In
courselectures.Statement 8 indicates success from the project in causing the students to now give additionalthought as to how electricity is generated in the United States, as 81% of the students agreed thattheir thoughts on how electricity should be generated has changed. This is likely a reflection ofboth the students’ increased knowledge of different techniques and what they learned about theenvironmental effects, economics, and public perception of each technique.From the viewpoint of encouraging engineering students to become more involved with policyformation in their careers, the results from Statement 7 are the most apropos. The average scorefor how much the students are likely to try to be involved in public policy decisions in the futurecomes in
information; exposureexperiences allow students to apply and contextualize knowledge; and longer experiences likecourses and programs give students time to reflect on their progress and provide moreopportunities for them to control their learning.Bloom’s taxonomy provides another way to demonstrate the affordances of the differentapproaches to policy learning. In this taxonomy there are four types of knowledge viz. factualknowledge, conceptual knowledge, procedural knowledge and metacognitive knowledge19.Programs and certificates can cover all these forms of knowledge where talks and seminars mayonly cover one domain such as factual knowledge. The same can be said for the levels ofintellectual behavior outlined in the cognitive domain of Bloom’s
public policy theories and givenassignments that required these theories to be applied to power engineering situations. Thecourse was well received by the students and is currently being offered in the Spring 2012semester.After reflecting on the progression of the course, it is the instructors’ observation that studentsfound the discussion of policy theory uninspiring. However, they were actively engaged withclass exercises and homework problems that allowed the students to apply the theories to “realworld” situations (e.g. renewable energy, nuclear power, the Keystone XL pipeline). In futurecourse offerings the instructors may consider covering only one public policy theory (likely theKingdon multi-stream theory) but cover the theory in more
were as important asknowing the material. When asked what students would change or what would they liketo learn more about, most felt the training was fine and would not change it. A fewstudents offered helpful suggestions such as adding more real life examples, moreinformation about being empathetic, and how to develop effective listening skills. Theyalso requested more practice and information about fielding difficult questions. In my personal reflection about the training, I would do two things differently.First, I would give the training at least 30 more minutes, and second I would find outabout the specific class activities the students are involved in and make sure I was usingthose as a starting place for the lecture and role
roofsalso eliminate excess air temperatures outside the building which normal, reflective roofs create(called the albedo effect). So called “Urban Heat Islands” are created in big cities, where excessthermal energy increases the air temperature above and creates both ideal conditions for smogand abnormal weather patterns. In large cities, the temperature difference from the center of thecity to the rural areas can be as large as 5° C. Green roofs reduce this excess energy radiationand promote better air quality. Thus, the excellent energy conservation properties of green roofsare one major reason for considering and promoting them by the construction industry,engineering community, and global governments.Green roofs are also very desirable in that