Author Archives: curiouscat

Hispanic Engineering Students

A Future Engineer:

While they are the largest minority group in the United States at 14.5 percent of the population, only 4 percent of engineers in the workforce in this country are Hispanic. Just 7 percent of the bachelor’s degrees in engineering, 5 percent of master’s degrees and even fewer doctoral degrees are awarded to Hispanics

To this end, several universities host summer camps to expose young Hispanics and other minorities to STEM subjects. New Mexico State University’s College of Engineering, for instance, brings 180 middle and high school students to campus each summer for intense math and science workshops. “We target demographics that we really want to push engineering on,” says Castillo, who became interested in engineering himself at a summer camp at rival University of New Mexico. “It’s been an extremely successful program for us.”

Related: Mexico Engineering GraduatesDiversity in Science and EngineeringStudy on Minority Degrees in STEM fieldsEngineering Jobs in Mexico

Edinburgh University $115 Million Stem Cell Center

Stem cell centre plan confirmed

Additional Scottish Executive funding of £24m will allow Edinburgh University to develop the £59m centre in collaboration with Scottish Enterprise. The Scottish Centre for Regenerative Medicine (SCRM) is thought to be equalled only one in Kobe, Japan. Prof Ian Wilmut, formerly of the Roslin Institute, will be the director.

The state-of -the-art facilities are expected to house 220 academic researchers and will include a centre for “scale-up” development and manufacture of cells. Space will also be made available for commercial regenerative medicine. It is hoped that the SCRM, which will be part of the new Centre for Biomedical Research at Edinburgh’s Little France, will create about 560 jobs and generate £18.2m per year for the Scottish economy.

Related: Harvard Plans Life Sciences CampusChina’s Gene Therapy Investment

via: Univ. of Edinburgh Launches $115 Million Dollar Stem Cell Research Center

Concrete Houses 1919 and 2007

Concrete Edison House

Robo-builder threatens the brickie [the broken link was removed]

Is the writing on the wall for the brickie? Engineers are racing to unveil the world’s first robot capable of building a house at the touch of a button. The first prototype — a watertight shell of a two-storey house built in 24 hours without a single builder on site — will be erected in California before April.

Brickie?: a search seems to indicate that is a bricklayer.

By building almost an entire house from just two materials – concrete and gypsum – the robots will eliminate the need for dozens of traditional components, including floorboards, wooden window frames and possibly even wallpaper. It may eventually be possible to use specially treated gypsum instead of glass window panes. Engineers on both projects say the robots will not only cut costs and avoid human delays but liberate the normal family homes from the conventional designs of pitched roofs, right-angled walls and rectangular windows.

Edison patented a process for constructing concrete buildings in 1908 (1917 issued). Photo is of a concrete Edison house being constructed in one day in Union, NJ on October 9th, 1919. See more photos of concrete houses and much more at the great National Park Service Edison photo gallery [sadly the NPA broke the link and it has been removed].

Related: Thomas Edison’s Remaining Concrete HouseEdison Patent ListGoogle Patent SearchUW- Madison Wins 4th Concrete Canoe CompetitionLight transmitting concrete

More from the article:

Inspired by the inkjet printer, the technology goes far beyond the techniques already used for prefabricated homes. “This will remove all the limitations of traditional building,” said Hugh Whitehead of the architecture firm Foster & Partners, which designed the “Gherkin” skyscraper in London and is producing designs for the Loughborough team. “Anything you can dream you can build.”

The robots are rigged to a metal frame, enabling them to shuttle in three dimensions and assemble the structure of the house layer by layer. The sole foreman on site operates a computer programmed with the designer’s plans. The researchers in Los Angeles claim their robot will be able to build the shell of a house in 24 hours. “Compared to a conventional house, the speed of construction will be increased 200-fold and the building costs will be reduced to a fifth of what they are today,” said Khoshnevis.

The rival British system is likely to take at least a week but will include more sophisticated design features, with the computer’s nozzle weaving in ducts for water pipes, electrical wiring and ventilation within the panels of gypsum or concrete.

Harvard Plans Life Sciences Campus

Harvard Unveils Plans for 250 Acre Stem Cell and Life Sciences Campus:

During the first 20 years of the expansion, Harvard would build 4 million to 5 million square feet of buildings and create at least 5,000 jobs, university officials said. Construction in Allston could begin this summer when Harvard hopes to break ground on a 500,000-square-foot (46,450-square-metre) science complex that will house the school’s stem-cell researchers and other institutes. The science complex, university officials said, would be the nucleus for new interdisciplinary research and is expected to go a long way toward boosting Boston’s economy by encouraging partnerships with biotechnology firms that may displace the region’s long-fading manufacturing base.

5,000 jobs is a huge number (even looking out 20 years). Manufacturing is still a huge economic factor (for the USA and the world) but investing in creating science and engineering centers of excellence is critical in determining where strong economies and good jobs will be 30+ years from now. They don’t explain what those 5,000 jobs are, but it seems that thousands could be for science and engineering graduates. The value of that to Boston’s economy is huge.

Related: Engineering the Future EconomyDiplomacy and Science ResearchIncreasing American Fellowship Support for Scientists and EngineersThe Future is EngineeringChina’s Economic Science ExperimentChina’s Gene Therapy InvestmentSingapore Supporting Science Researchers

Evolved for Cancer?

Evolved for Cancer? by Carl Zimmer:

In cancer, cells play the role of organisms. Cancer- causing changes to DNA cause some cells to reproduce more effectively than ordinary ones. And even within a single tumor, more adapted cells may outcompete less successful ones.

Tumor suppressor proteins are among the most effective defenses against cancer. Studies suggest that some of these proteins prevent cancer by monitoring how a cell reproduces. If the cell multiplies in an abnormal way, the proteins induce it to die or to slip into senescence, a kind of early retirement. The cell survives, but it can no longer divide. Tumor suppressor proteins play a vital role in our survival, but scientists have recently discovered something strange about them: in some respects, we would be better off without them.

Scientists discover new class of RNA

Scientists discover new class of RNA

These new RNAs are named after their distinctive features: Each molecule contains 21 chemical building blocks (or nucleotides), and each begins with the chemical uridine, represented by the letter U (the only RNA nucleotide not also found on DNA). In addition, each of the 5,000 different 21U-RNA molecules comes from one of two chromosomal regions.

Further, “we can predict where additional 21U-RNA genes might reside,” says Bartel, who is also a member of the Whitehead Institute for Biomedical Research and a Howard Hughes Medical Institute investigator. “Combining these predictions with the 5,000 (21U-RNAs) that we experimentally identified, we suspect that there are more than 12,000 different 21U-RNA genes in the genome.” Because each gene typically produces a unique 21U-RNA, a very large diversity of molecules is made.

RNA description from the Nobel Prize site:

When an organism needs to use the data stored in the genome, e.g. to build components of a new cell, a copy of the required DNA part is made. This copy is called RNA and is almost identical to DNA. Just like DNA, RNA is an abbreviated form of a chemical name which in the case of RNA is ribonucleic acid. Unlike the double stranded DNA, RNA is only made up of a single strand. Furthermore, the base T, thymine, is replaced by U, uracil in RNA. This RNA string is used by the organism as a template when it builds protein molecules, sometimes called the building blocks of the body. For example, your muscles and hair are mostly made up of proteins.

Related: DNA-RNA-Protein Introduction

Can Brain Exercises Prevent Mental Decline?

Last month we posted about: Short Mental Workouts May Slow Decline of Aging Minds. Now here is another article on the same topic: Little proof that brain exercises can prevent mental decline by Alice Dembner

Richard Suzman, who oversees behavioral and social research at the National Institute on Aging, said the downside of using the programs include “harm to the wallet or false hope,” or health setbacks if people spend time brain-training instead of getting physical exercise. But others say, despite the lack of evidence, that the programs may be worth trying, particularly in conjunction with other activities that may help with brain health such as a healthy diet, exercise, managing stress, and keeping up social contacts.

And only last month did the first rigorous study suggest that brain training could positively affect daily-life activities and might delay age-related declines in everyday functioning. Even in that large, government-funded study, the evidence was far from conclusive.

In the original post we mentioned: “Another Paper Questions Scientific Paper Accuracy (just a reminder that the conclusions of many studies are not confirmed in future studies).” That is always important to keep in mind, even though we don’t post that reminder every time.

Attracting Women to Engineering

Colleges focusing on attracting women to engineering

Mahera Philobos, director of Georgia Tech’s Women in Engineering program and a civil and environmental engineering professor, said she’s had success getting women to enroll in some areas of engineering, like biomedical and industrial. Both are perceived by women as fields that make contributions to the world, she said.

While frustrated by the stagnant enrollment, Philobos knows change happens slowly. She said the key is reaching the girls when they’re in middle and high school to encourage them to take rigorous math and science courses.

That does not translate into a national trend. Women received 18 percent of the 78,200 engineering degrees given out in 2003-04, the latest data available from the U.S. Department of Education. That’s the same percentage as in 1998 and only slightly more than the 16 percent in 1996.

Related: A Decade of Progress for Women in ScienceIndian Institute of Technology – Female StudentsWomen for ScienceDiversity Focus

Applied Engineering Education

Classroom projects translate into immediate workplace gains for working professionals in engineering

In the final semester of his UW–Madison master’s degree, Bob Aloisi didn’t just earn a letter grade in his quality engineering class: He saved his company $50,000. It wasn’t the typical classroom outcome — but it wasn’t a typical classroom. As a student in “Quality Engineering and Quality Management,” Aloisi accomplished a major class project in quality improvement at his own workplace.

The project is the capstone experience in the College of Engineering’s award-winning distance-education program, the Master of Engineering in Professional Practice (MEPP). Designed for mid-career engineers who live and work all over the country, MEPP’s Internet-based curriculum strives to provide knowledge students can apply immediately at their companies.

“Our project was a very good example of the Kaizen approach,” says Aloisi. “It wasn’t one specific thing, a home run type of thing, that we changed to make our improvements.” Instead, his team met its targets through many small steps, including adjustments to equipment settings and better training for machine operators.

Related: Improving Engineering EducationEducating Scientists and EngineersTeaching Quality Improvement by Quality Improvement in Teachingfind an internship

Human Embryo Hybrids

Embryo hybrids are used to grow human stem cells (for a few days) in eggs from animals. Public debate on embryo hybrids

Allowing DNA from humans and animals to be mixed should be put to a public debate, a regulatory body has said.

The Human Fertilisation and Embryology Authority (HFEA), which oversees embryo research and fertility treatment, said the research could fall under its remit and would not be prohibited by law after a meeting of experts on Wednesday.

Door left open for creation of hybrid embryos:

Two teams of British scientists have applied for licences to create “hybrid” embryos that would be about 99.9 per cent human and 0.1 per cent animal to produce embryonic stem cells — the body’s building blocks that can grow into all other types of cells.
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They want to use stem cells to understand and develop therapies for diseases such as Alzheimer’s, Parkinson’s, cystic fibrosis, motor neurone disease and Huntington’s. The hybrid embryos would be destroyed within 14 days when they were no bigger than a pinhead.

Related: Diplomacy and Science ResearchSingapore woos top scientists with new labsChina’s Economic Science Experiment