Tag Archives: engineering education

Better Higher Education Will Change Lives

Better higher education will change lives by Shashi Tharoor

When i left India for post-graduate studies in 1975, there were perhaps 600 million people in India, and we had five IITs (Indian Institutes of Technology). Today, we are nearly double that population, and we have seven IITs, one of which has essentially involved the relabelling of an existing Regional Engineering College. To keep up with demand – and the needs of the marketplace – shouldn’t we have had 20 IITs by now of the same standard as the original five? Or even 30?

India is entering the global employment marketplace with a self-imposed handicap of which we are just beginning to become conscious – an acute shortage of quality institutions of higher education. For far too long we have been complacent about the fact that we had produced, since the 1960s, the world’s second largest pool of trained scientists and engineers.

Whereas countries in the Middle East, and China itself, are going out of their way to woo foreign universities to set up campuses in their countries, India turns away the many academic suitors who have come calling in recent years. Harvard and Yale would both be willing to open branches in India to offer quality education to Indian students, but have been told to stay away. Those Indians who choose to study abroad easily get scholarships to do so – currently 80,000 of them are in the United States alone.

Related: Science and Engineering in Global EconomicsGlobal Research University Rankings (2007)The Role of Science in EconomyThe Importance of Science EducationEngineering graduate: USA, China, Indiaposts on engineering education

Offering Residency to Foreign Engineers and Scientists

Rep. Lofgren wants residency for foreign engineers

Foreign-born engineering, science, and math students in the United States should be automatically granted legal residency when they get a job in this country, said California Congresswoman Zoe Lofgren.

Lofgren, a Democrat, spoke to an audience Friday at the Joint Venture: Silicon Valley conference about threats to innovation in the area. She said that about 56 percent of the Ph.D. candidates at the finest schools in the United States are immigrants, and because of the government’s current immigration policy, many of those people leave the country.

I support such legislation. I also think it is only one, of many measure to take to encourage science and engineering excellence (which will in turn help the economy). I have no doubt that other countries are going to be successful establishing their own global centers of excellence and attract scientists and engineers from around the world: including from the USA. The Curious Cat Science and Engineering Blog now includes a tag cloud on the right side of our home page, tags for this post include: government and economy.

Related: Brain Drain Benefits to the USA Less Than They Could Beeconomic benefits of science and engineering excellenceUSA Losing Brain Drain Benefits

Engineering Education at Smith College

How to Re-engineer an engineering major at a women’s college:

The first women’s college to offer an engineering degree, Smith is forging new paths in a field that’s eager to swell its ranks in the United States. Women receive only 20 percent of bachelor’s degrees in engineering, according to a new report by the National Science Board (NSB). Like a handful of other liberal arts colleges, Smith is producing graduates who’ve had a different type of engineering education – one that goes beyond technical training to focus on a broader context for finding solutions to humanity’s problems; one that emphasizes ethics and communication; one so flexible that about half the students study abroad, which is rare, despite the multinational nature of many engineering jobs.

Smith’s program boasts a 90 percent retention rate and high participation of underrepresented minorities. Ms. Moriarty hopes to find out which elements of the experience at Smith most contribute to students’ success. Female role models play a part (6 out of 10 engineering faculty here are women), but she says other factors are likely to be more important: “I think the methods being used here could probably translate very easily to other institutions that aren’t all women,” she says.

Related: Smith’s engineering education effortsEngineering Education Study DebateA New Engineering EducationThe Future is Engineering

National Science Board Report on Improving Engineering Education

Moving Forward to Improve Engineering Education a report from the National Science Board:

Changes in the global environment require changes in engineering education. Markets, companies, and supply chains have become much more international and engineering services are often sourced to the countries that can provide the best value. Basic engineering skills (such as knowledge of the engineering fundamentals) have become commodities that can be provided by lower cost engineers in many countries, and some engineering jobs traditionally done in the U.S. are increasingly done overseas. To respond to this changing context, U.S. engineers need new skill sets not easily replicated by low-wage overseas engineers.

Society at large does not have an accurate perception of the nature of engineering. Survey data indicate that the public associates engineers with economic growth and defense, but less so with improving health, the quality of life, and the environment.

The third challenge for engineering education is to retain those students who are initially attracted to engineering. Attrition is substantial in engineering, particularly in the first year of college. About 60 percent of students who enter engineering majors obtain a degree within 6 years. Although this retention rate is comparable to some other fields, it is especially critical for engineering to retain the pool of entering students.

Related: NAE Report on Educating the Engineer of 2020Engineering Education Study DebateEducating Engineers for 2020 and Beyond by Charles VestThe Future is Bright with Engineering and EntrepreneurismGlobal Engineering Education StudyUSA Under-counting Engineering GraduatesLeah Jamieson on the Future of Engineering EducationImproving Engineering Education the Olin Way

Korean Engineering Education

Different Engineering Education Expectations

The “Engineering Education Innovation Center” of the engineering department at Yonsei University surveyed 350 human resources officials at some 100 small- and medium-sized companies, as well as big companies, including Samsung Electronics, LG Electronics, Doosan Heavy Industries and Construction, and Nexon. In the survey, they gave engineering graduates an “F” grade in 13 out of 14 categories. Engineering graduates themselves also said, “Education in college is not useful to our work.”

On the contrary, however, engineering professors gave high marks of 97 out of 100 on their knowledge, and answered positively regarding their teaching skills, which revealed the different views colleges and companies have.

The conflict between what is being taught and what is needed in business is the subject of continuing debate globally.

Related: Innovative Science and Engineering Higher EducationThe World’s Best Research UniversitiesEngineering Schools and Economic DevelopmentEducating Scientists and EngineersEducating Engineering Geeks (MIT webcast)Leah Jamieson on the Future of Engineering EducationEducating the Engineer of 2020 (NAE Report)Global Engineering Education StudyApplied Engineering EducationWhat do Engineers Need To Know?

$10 Million for Engineering Education Scholarships

$10 million perk aims to help prove engineering is the profession to pursue (link broken)

Kao today will announce that his family foundation is donating $10 million to establish scholarship funds at six regional universities for students majoring in electrical and computer engineering. Kao, an electrical engineer who co-founded Garmin, said he decided to fund the program because he was concerned the United States was losing its edge in engineering and design.

“As a business leader of a company like Garmin, and as an immigrant, I feel it should be a real concern for this country,” Kao said. “I don’t think it’s good for a country to be a pure service business.” The education initiative is the somewhat private billionaire CEO’s first significant endowment in the Kansas City area. “Compared to Asian countries, the career of engineer is somewhat overlooked” in the United States, Kao said. “Young kids don’t aspire to be engineers.”

The endowment from the Kao Family Foundation will be used to fund 100 scholarships a year, offering students $5,000 annually. It will be tied in with Garmin’s internship program, offering 75 or more summer jobs that include a furnished apartment and health and dental benefits.

Good. Related: Increasing American Fellowship Support for Scientists and EngineersScience and Engineering Scholarships and FellowshipsEngineering Internships$35 million to the USC School of Engineering

Asia: Rising Stars of Science and Engineering

Great report – The Atlas of Ideas: How Asian innovation can benefit us all by Charles Leadbeater and James Wilsdon:

Each country will develop differently. In South Korea strong government support has created a world-class information infrastructure.

China is mobilising massive resources for innovation through ambitious long-term plans, funded by rapid economic growth. Beijing’s university district produces as many engineers as all of western Europe. China is developing world-class universities and attracting multinational innovation centres.

India’s elite, trained at the Indian Institutes of Technology, are second to none. New institutions like the National Science and Engineering Foundation could energise a disjointed innovation system. Yet India’s innovation elite may face a rural backlash. Its infrastructure is in poor repair and cities like Bengalooru are congested. Even the much-vaunted IITs do not, unlike their US counterparts, animate innovation clusters.
Percentage of world share of scientific publications

Year China France Germany Japan Korea UK US EU-15
1995 2.05 6.09 7.62 8.65 0.79 8.88 33.54 34.36
1998 2.90 6.48 8.82 9.42 1.41 9.08 31.63 36.85
2001 4.30 6.33 8.68 9.52 2.01 8.90 31.01 36.55
2004 6.52 5.84 8.14 8.84 2.70 8.33 30.48 35.18

Excellent reading, the report is full of useful information I have not been able to obsorb yet.
Related: Diplomacy and Science ResearchThe World’s Best Research UniversitiesEngineering the Future EconomyWorldwide Science and Engineering Doctoral Degree DataUSA Under-counting Engineering GraduatesIncreasing American Fellowship Support for Scientists and Engineers
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$40 Million for Engineering Education in Boston

Bernard M. Gordon, is giving away $20 million each, for the engineering education and research at two major Boston institutions: the Museum of Science and Northeastern University. Science museum, NU to widen paths:

At the museum, the gift will expand the engineering focus in exhibits and educational programs aimed at motivating a new crop of American engineers and inventors. The money will be used to remodel a wing of the museum to house its two-year-old National Center for Technological Literacy, which seeks to boost engineering curricula in schools.

We previously have posted on the work of the museum and its president, Ioannis Miaoulis: k-12 Engineering Education and k-12 Science Education Podcast:

Gordon, an MIT graduate and a Tufts University trustee, had no previous connection to Northeastern, Freeland said. He said the philanthropist was attracted by the university’s emphasis on marrying research with practical applications.

Economic Benefits and Science Higher Education

University Tries to Make Texas a Science Force:

In an effort to make Texas a magnet for scientific and medical research, the University of Texas is planning a $2.5 billion program to expand research and teaching in the sciences, including medicine and technology.

The initiative would be one of the largest investments in expansion by a public university, university officials said.

Related: How to cultivate Your Own Silicon ValleyUniversities Focus on Economic BenefitsEconomic Benefits of EngineeringSingapore Supporting Science Researchers$1 Billion for Indian Research University

Engineering Resources for K-12 Teachers

Teach Engineering, funded by NSF, provides k-12 teachers “teacher-tested, standards-based engineering content” to “enhance learning, excite students and stimulate interest in science and math through the use of hands-on engineering.”

The TeachEngineering digital library provides teacher-tested, standards-based engineering content for K-12 teachers to use in science and math classrooms. Engineering lessons connect real-world experiences with curricular content already taught in K-12 classrooms. Mapped to educational content standards, TeachEngineering’s comprehensive curricula are hands-on, inexpensive, and relevant to children’s daily lives.

Available modules include: Engineering and the Human Body, Exploring Solar Power, Engineering: Simple Machines and Environmental Engineering.