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ME101 and ME470 classes each split into 8 groups ME101 and ME470 students form combined groups Sit in 103 in the order shown below If group is too large for the discussions, form two discussion groups. Group 8 Front of 103 Group 7 Group 6 Group 3 Group 5 Group 4 Group 2 Group 1
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Opening ?: In surveys of what engineers do, what is the most often mentioned engineering task?
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Answer Informal coordination of people [from a study reported at ASEE 2008]
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Discussion: What did you find interesting and/or useful from the Advisory Board panel discussion? Any follow-up questions?
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Engineering Education for the 21st Century Charles M. Vest President, National Academy of Engineering ASEE Annual Conference Pittsburgh, PA June 23, 2008
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In this New Century Engineering is Dynamic with Exciting Frontiers and Grand Challenges
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Engineering is not static. 20th century Stovepipes: –Scientists discovered. –Engineers created. –Doctors healed.
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Engineering is not static. 21st century science, engineering,and medicine are: –Totally interdependent –Blending together in new ways
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Engineering is about Systems From nanobiological devices To large scale infrastructure To the earth itself
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And Engineering Systems include, interact with, and serve: People Economies Business Law Politics Culture …
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Grand Challenges for Engineering Proposed by a committee of amazingly accomplished and innovative people. Extremely challenging and important. Deemed to be doable in the next few decades.
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Group Activity Brainstorm, discuss and make a list of what your group thinks are the “Grand Challenges" for engineering.
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Engineering Grand Challenges See the NAE website. Energy Environment Global Warming Sustainability Improve Medicine and Healthcare Delivery Reducing Vulnerability to Human and Natural Threats Expand and Enhance Human Capability And Joy
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Engineering Grand Challenges Announced Feb. 15, 2008 Make Solar Energy Economical Provide Energy from Fusion Develop Carbon Sequestration Methods Manage the Nitrogen Cycle Provide Access to Clean Water Engineer Better Medicines Advance Health Informatics Secure Cyberspace Prevent Nuclear Terror Restore and Improve Urban Infrastructure Reverse Engineer the Brain Enhance Virtual Reality Advance Personalized Learning Engineer the Tools of Scientific Discovery
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Think about these Challenges Some are imperative for human survival. Some will make us more secure against natural and human threats. All will improve quality of life. Most are of global scale.
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Subtext of the Challenges The public and policy makers need to understand what engineers do and can do. And don’t forget why young women and men chose NOT to study engineering … They’d “rather go into a field where they can help people and make the world better”! Engineering is essential to our health, happiness, and safety.
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More Info From The National Academy of Engineering on the “Grand Challenges” http://www.engineeringchallenges.org/ The American Society of Mechanical Engineers (ASME) perspective, from a report of the Global Summit on the Future of Mechanical Engineering titled: “2028 VISION FOR MECHANICAL ENGINEERING” http://www.asmeconferences.org/asmeglobalsummit/FinalGlobalSummitReport.pdf [see page 4]
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By Sam Y. Zamrik, Ph.D. ASME President 2007-2008 A Global summit with input from 19 countries created a vision of our profession over the next 20 years. We are inspired by a vision that calls us to: ■ Develop sustainably through new technologies and techniques, and respond to the global environmental pressures brought about by economic growth; ■ Be at the forefront of implementing a system design approach across large and small-scale systems; ■ Engage in international collaboration around our critical knowledge and competencies; ■ Work in the emerging Bio-Nano technologies to provide solutions in such diverse fields as healthcare, energy, water management, the environment and agriculture management, and ■ Create engineering solutions for the other 90 percent that live on less than two dollars a day. The vision and scope of this summit is broad but not unreachable if we draw upon our collective talents, thoughts, ideas, resources and the collaboration and contributions of our global profession. Mechanical engineers must be able to adapt and change in order to produce globally competitive engineers that will contribute to the growing needs of our profession over the next two decades.
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