Category Archives: Career

Information on jobs and careers in science and engineering.

Microsoft Wants More Engineering Students

Microsoft Marching For More Engineering Students:

“We believe it is in the best interests of our industry, to have a continuing stream of high-quality, well-educated students in the sciences and technology. Software is a people-intensive business. Microsoft is committed to technical innovation, research is a primary arm of that, and we, therefore, want to continue to hire technically innovative people,” Roy Levin said.

Webcasts from the event with National Science Foundation, National Academy of Engineering and Microsoft representatives.

Related:

Science Education and Jobs

Education Seeds the Ground Science, Technology Meet Light Spectrum by Chris Brunson is well worth reading:

“The course was designed specifically for adult learners and had the challenge of putting a lab-based course online,” said Fenna Hanes, NEBHE senior director, office of programs. “The audience was high school, community college and some four-year college faculty from both science and technology disciplines including physics, chemistry, math, electronics, telecommunications and engineering technologies.”

This article explores another example of NSF funding innovative projects to support science and engineering education – PHOTON2 Program Overview. And the article goes on to explore other activity by institutions building off that work.

In addition to providing photonics technology training to traditional community college students Three Rivers Community College (TRCC) has provided incumbent workers training…
The training was a combination of on-site as well as on-line education.

Companies in the region regularly call Judy Donnelly, program coordinator of photonics programs, Three Rivers Community College in Norwich, and Nicholas Massa, professor of laser electro-optics technology at Springfield Technical Community College (STCC).

Both get similar calls, quite regularly from companies, with the query: “I need people, I want to hire techs, do you have any students I can hire?” Even on company field trips, the almost-grads of both colleges are asked if they want to come to work for the corporations, that are growing and need skilled, educated people.

“Donna Goyette at Ellis Tech (H.H. Ellis Technical High School, in Danielson) is creating a full-year optics course for her seniors,” said Donnelly. “She is doing a fantastic job. Since they are not far from IPG Photonics in Mass., it also works out to be a good collaboration.” IPG Photonics, incidentally, has hired a number of graduates and student interns from the laser electro-optics and photonics programs at STCC and TRCC over the past several years.

Advances in technology require novel approaches to education.

Related Posts:

The Economic Benefits of Math

The crisis in maths in Australia by J Hyam Rubinstein:

The rapid economic reconstruction of Japan after the war was remarkable. A major feature was adoption of ideas of the great American statistician W. Edwards Deming on quality control and efficiency of production processes. In the United States Wal-mart, the retail giant, has a superb supply chain system, which is a key part of cost control. In Australia BHP Billiton has estimated that its group of mathematical scientists have saved the company several hundreds of millions of dollars in costs in a single year.

On our Curious Cat Management Improvement blog we post frequently about Deming’s ideas.

Most countries in the world, except for the poorest, give special attention and support to the mathematical sciences. For example, in the US, the National Science Foundation has instituted a number of programs to increase the supply of both mathematicians and statisticians. China and India stand out as emerging powerhouse of mathematical skills and the innovative technologies that will emerge from this investment.

Australia is an exception. We are in the midst of a national review of the mathematical sciences that will be completed in mid-2006. The international reviewers have been travelling across Australia. It is no exaggeration to say that the nation is facing a very serious situation.

As we have stated in previous posts the macro-economic impacts of government policy relating to science and math can be large:

Shortage of Petroleum Engineers

Talent Shortage Slows Oil Tech

There’s an extreme shortage of experienced petroleum engineers,” said Tariq Ahmad, a petroleum engineer consultant who has been in the business for 28 years. “The technology is there, but if you don’t have the people who can run the technology, what’s the use? It’s a major, major problem.”

A total of 2,412 students are enrolled in petroleum engineering undergraduate programs in the United States this year, according to Lloyd Heinze, chair of the petroleum engineering department at Texas Tech University. That compares with 11,014 students enrolled in petroleum engineering programs in 1983.

Related posts:

Top degree for S&P 500 CEOs? Engineering

See more recent post with data from 2005-2009: S&P 500 CEO’s: Engineers Stay at the Top

The most common undergraduate degree for CEO’s of Fortune 500 companies is Engineering: with 20% of all CEOs (from 2005 CEO Study: A Statistical Snapshot of Leading CEOs

Another interesting point from the report (at least to those of us who grew up in Madison with a father who taught at the University of Wisconsin (teaching Chemical Engineering, Industrial Engineering and Statistics, in my father’s case, by the way):

For the second year in a row, the University of Wisconsin joins Harvard as the most common undergraduate university attended by S&P 500 CEOs. Prior to 2004, Harvard alone was the most common school attended.

Singapore woos top scientists with new labs

Singapore woos top scientists with new labs, research money by Paul Elias:

Singapore’s siren song is growing increasingly more irresistible for scientists, especially stem cell researchers who feel stifled by the U.S. government’s restrictions on their field.

Two prominent California scientists are the latest to defect to the Asian city-state, announcing earlier this month that they, too, had fallen for its glittering acres of new laboratories outfitted with the latest gizmos.

They weren’t the first defections, and Singapore officials at the Biotechnology Organization’s annual convention in Chicago this week promise they won’t be the last.

Other Asian countries, including Japan, South Korea and even China, are also here touting their burgeoning biotechnology spending to the 20,000 scientists and biotechnology executives attending the conference.

In all, the country has managed to recruit about 50 senior scientists — far short of what it needs, but a start for a tiny country of 4.5 million people off the tip of Malaysia.

Another 1,800 younger scientists from all corners of the world staff the Biopolis laboratories, which were built with $290 million in government funding and another $400 million in private investment by the two dozen biotechnology companies based there. Biopolis opened in 2003 and contains seven buildings spread over 10 acres and connected by sky bridges

Sports Engineering

Wind Tunnel at MIT for sports testing

MIT is not the first school to come to mind when discussing athletics. However, the MIT Center for Sports Innovation (CSI) is making news. The CSI mission is to expand the students’ learning experience by involving them in the development of sports technology and products.

One project at the Center is a wind tunnel used for bicycle testing:

The design and construction of the bike test stand was Brian Hoying’s senior thesis project. The data acquisition software upgrade was Mark Cote’s freshman term project. The resulting test system was deemed “the best cycling test system I’ve ever seen” by Phil White, owner of Cervélo Cycles, and sponsor of the CSC professional cycling team.

It is great to see student projects with such success.

Mark Cote, a researcher at the MIT Center for Sports Innovation, has an impressive list of clients — from Tour de France stage winners to some of North America’s leading bicycle manufacturers. Now the wind tunnel specialist plans to use his expertise in fluid dynamics to develop and, he hopes, patent his own advances in aerodynamic cycling gear.

Not bad, considering that Cote, 21, is still an undergraduate.

Companies Hunting for Engineers to Fill New Jobs

Increase in work has companies hunting for engineers by Molly McMillin:

In 2007, Airbus’ North America Engineering Center in Wichita must hire an additional 150 engineers because of new work it is getting. Bill Greer, Airbus North America’s vice president and general manager, said he will hire as many engineers locally as he can for the wing design center, which now employs 207 engineers.

But if he can’t find enough high-quality, experienced engineers in Wichita, Greer said he will contract with engineering companies outside Kansas.

Cessna Aircraft hired 150 engineers last year and plans to hire 100 to 120 more in 2006.

Raytheon Aircraft expects to add more than 100 engineers in the next year.

Right now, both say they are finding the engineers they need.

WSU, which has 155 to 160 engineering graduates in a year, is not graduating all the engineers Wichita needs, Toro-Ramos said.

Those who are graduating are getting multiple offers of employment, she said.

Expanding Your Horizons in Science and Mathematics

photo of science presentation

Expanding Your Horizons in Science and Mathematics (EYH)

EYH facilitates conferences for middle school and high school girls on science and math and information on careers involving math and science.

Over 625,000 young women have participated in the these conferences so far. Many of these conferences conduct concurrent programs for parents and educators so they may more effectively support young women and their technical aspirations.

A typical conference takes place on a Saturday at a local college or university and is attended by 200-500 young women from nearby middle schools and high schools. The schedule includes a keynote address encouraging girls to persist in mathematics and science courses, and two varieties of workshops.

In most of the workshops, young women participate in hands-on learning experiences led by women scientists, mathematicians, and engineers. In other workshops, role models share career awareness information and discuss job satisfaction, necessary education, and descriptions of a typical day on the job.

List of conferences with contact information

Related Posts: Wow! That’s Engineering?Science Camps Prep GirlsInspire Students to Study Math and ScienceEngineering is ElementaryThe Future is PlasticsIntel Science Talent Search ResultsMath in the “Real World”

What Happens at an EYH Conference?

A LOT OF FUN!

At an EYH conference, you will attend talks, participate in hands-on workshops, and meet with women scientists and engineers. You will also spend time with other girls who are thinking about their futures. Through these activities you will:

  • Experience the fun of math, science and engineering;
  • Learn about math and science-based careers;
  • Find out about the education required for these professions;
  • Discover what scientists do in a typical day;
  • Obtain first-hand information about the lives of women in science and the various paths leading to careers in the sciences.

Podcasts of previous events

Via: Expanding girls’ horizons

Directory of Science and Engineering Education Sites

GE’s Edison Desk Blog

photo of windmills

GE global research’s Edison Desk blog provides interesting posts on the scientific and engineering research at GE. They provide interesting reading and, as I am sure is part of GE’s plan, let GE present their company in a positive light (so far the text is a bit too heavy on public relations spin, in my opinion, but it is still interesting). For example, Reaching for A High Penetration of Renewable Energy in The Grid:

Many additional challenges exist. Technologies that ease the integration of renewable energy resources into the grid will have a large impact in driving continued growth for these industries. Technology needs range from advanced component design to renewable resource forecasting and all the way through to large-scale system designs which take into consideration the aggregation of diverse power generation technologies to form dispatchable entities (such as wind-hydro hybrids, for example)

and Your Movie Collection on a Single Disk:

However, the capacity of the discs is being increased just enough to put a single HDTV movie on one disc. The Holographic Storage technology that our team is working on leapfrogs these next generation formats enabling users to put over 40 HDTV movies or over 200 standard definition movies on a single disc.