Category Archives: Students

Items for students and others, interested in learning about science and engineering and the application of science in our lives. We post many of the general interest items here.

Engineering a Better Blood Alcohol Sensor

Scott McCain - Duke Student

Scott McCain Aims for Better Blood Alcohol Sensor:

If third-year engineering graduate student Scott McCain gets his way, the fight against drunk driving may soon be waged with a new, non-invasive blood alcohol sensor that could make standard blood or breath sample tests obsolete. The St. Louis native’s interdisciplinary research – a combination of engineering, physics and computer science – aims to build a small and inexpensive optical device capable of using harmless light to pass through skin and directly determine blood alcohol concentration.

“The device uses light at wavelengths at which skin essentially becomes transparent,” McCain said. “We shine a laser through tissue where it interacts with blood. By analyzing the scattered light that comes back out, we can determine much about the blood’s chemical content.”

Similar devices hold promise for determining other constituents of blood. For example, they could measure cholesterol or blood sugar in a matter of minutes, McCain said. Ultimately, the goal is to have a sensor that could report a medical reading in less than 10 seconds.

“We don’t yet know if our blood alcohol sensor will really work,” said McCain. “It wouldn’t be research if we knew what it was all about.”

Related: Inspiring a New Generation of InventorsRe-engineered WheelchairStrawjet, Invention of the YearInventor Hired

A Life-changing Gift

A nice human interest story, A life-changing gift:

All children have dreams. Many boys dream of growing up and becoming prime minister, a pilot, a doctor or an astronaut. For young Anusorn Pinsuwan, however, he didn’t dream that much. ”I just wanted to study. Then I could dare to dream of being something else, like an engineer or a teacher. But I didn’t think I could make my dreams come true as I didn’t have the money to study,” said Anusorn, now 25. ”But, at least, we shouldn’t sabotage our own dreams. We should give ourselves a chance.”

One of his dreams has been achieved, thanks to the support of the Bangkok Post readers, through a Bangkok Post Foundation scholarship. After excelling at Rajamangala University of Technology, Tak campus, he secured a place at King Mongkut’s Institute of Technology, North Bangkok, studying civil engineering. He graduated in 2005, and his first job offer from a private construction company followed shortly.

Related: Bangkok Post ScholarshipsErasmus Mundus Scholarshipsscience scholarship postsCivil Engineering Challenges

Science and Engineering Internships

Externs.com is another curious cat web site: an internship directory. It is getting late to try and find an internship for the summer but if you are still looking you can find science internships and engineering internships via that site.

The list of companies includes: Google, Intel, NASA, Dell, NIST, Scripps Research Institute, US Navy, National Cancer Institute, Microsoft and the International Crane Foundation. If you have any internship positions you would like included you may suggest an addition.

Related: Science and Engineering Scholarships and Fellowships

Engineering Quiet, Efficient Planes

Silent Aircraft

Fly Silent, Fly Cheap by Jeffrey Winters, Mechanical Engineering magazine:

In all, the design changes would amount to a startling reduction in the amount of sound produced on takeoff and landing. The Cambridge-MIT team estimates that a landing SAX-40 would create less than 65 decibels of noise at the perimeter of the airport—about the same level as background noise. Transformed in this way, airplanes would be relatively neutral parts of the urban environment, rather than nuisances.

But there’s a side benefit: fuel efficiency. The same design elements that cut back on noise also reduce fuel consumption. With less energy lost to creating turbulence, more power would be devoted to moving passengers.

Related: Silent Aircraft Initiative (photo from here) – previous post on SAIA plane You Can PrintEngineering the Boarding of Airplanes

Engineering Activities: for 9-12 Year Olds

Design Squad Activity page:

Unleash your kids’ ingenuity and get them thinking like engineers with these 10 DESIGN SQUAD challenges. Designed for 9-12 year olds, each challenge has step-by-step instructions and age-appropriate explanations of the main idea.

Related: Engineering Education Reality TVFun k-12 Science and Engineering ActivitiesBuilding minds by building robotsMiddle School Engineers

FDA May Make Decision That Will Speed Antibiotic Drug Resistance

FDA Rules Override Warnings About Drug:

The government is on track to approve a new antibiotic to treat a pneumonia-like disease in cattle, despite warnings from health groups and a majority of the agency’s own expert advisers that the decision will be dangerous for people. The drug, called cefquinome, belongs to a class of highly potent antibiotics that are among medicine’s last defenses against several serious human infections. No drug from that class has been approved in the United States for use in animals.

This is why it is so important for government decisions that require scientific knowledge be made by knowledgeable scientists.

But Sundlof said that under FDA rules, those decisions must be left up to veterinarians unless there is clear evidence that wider use is causing harm.

“That is our policy” is not a good excuse for endangering public health. The dangers of anti-biotic resistance are obvious, well known, we see the results of bad decisions in the past creating havoc today and still government wants to act as though the inevitable consequences of their actions are somehow out of their hands. A policy that will lead to the deaths of many people should be fought. If you want to claim this policy will not do that, then make that argument. Don’t claim some policy prohibits you from saving lives.

Democratic/Republican forms of government give politicians oversight over bureaucracy to guide decisions for the public good. When politicians don’t understand basic science (in this day and age – when decisions require that understanding) that can lead to very dangerous policies. You would think that adults would be able to understand that just because consequences will be delayed a few years that doesn’t mean you should allow special interests to get what they want today. But the deficit (nearly $8,800,000,000,000 for the federal government now) provides a visible sign how much they care about future consequences of their actions. Combine that with little scientific understanding and that is not a prescription for good decisions.
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NSF Summer Institute on Nano Mechanics and Materials

NSF Summer Institute on Nano Mechanics and Materials is offering short courses this summer, one at Northwestern and one at UCLA. NSF fellowships are available to professors, high-school science teachers, post-docs and Ph.D. candidates from US universities. The fellowship consists of full tuition plus a travel allowance, if applicable. Apply by April 1, 2007. I really like that the NSF provides funds to help people attend this type of thing.

The objectives of the NSF Summer Institute on Nano Mechanics and Materials are:

* To identify and promote important areas of nanotechnology, and to create new areas o focus which will augment current nanotechnology research and development by universities, industries and government.
* To train future and practicing engineers, scientists and educators in the emerging areas of nanotechnology, nano-mechanics, and nano-materials.
* To exchange new ideas, disseminate knowledge and provide valuable networking opportunities for researchers and leaders in the field.

The short courses offered by the Institute provide fundamentals and recent new developments in selected areas of nanotechnology. The material is presented at a level accessible to BS graduates of science and engineering programs. Emphasis is on techniques and theory recently developed that are not available in texts or standard university courses.

Atom-thick Carbon Transistor

Atom-thick carbon transistor could succeed silicon by Tom Simonite:

Transistors more than four times smaller than the tiniest silicon ones – and potentially more efficient – can be made using sheets of carbon just one-tenth of a nanometre thick, research shows. Unlike other experimental nanoscopic transistors, the new components require neither complex manufacturing nor cryogenic cooling.

The transistors are made of graphene, a sheet of carbon atoms in a flat honeycomb arrangement. Graphene makes graphite when stacked in layers, and carbon nanotubes when rolled into a tube. Graphene also conducts electricity faster than most materials since electrons can travel through in straight lines between atoms without being scattered. This could ultimately mean faster, more efficient electronic components that also require less power.

How to Deal with False Research Findings

The Science of Getting It Wrong: How to Deal with False Research Findings by JR Minkel adds to our recent spate of posts on drawing faulty conclutions from data (such as: Correlation is Not Causation, Cancer Deaths – Declining Trend?, Seeing Patterns Where None Exists, Karl Popper Webcast).

In his widely read 2005 PLoS Medicine paper, Ioannidis, a clinical and molecular epidemiologist, attempted to explain why medical researchers must frequently repeal past claims. In the past few years alone, researchers have had to backtrack on the health benefits of low-fat, high-fiber diets and the value and safety of hormone replacement therapy as well as the arthritis drug Vioxx, which was pulled from the market after being found to cause heart attacks and strokes in high-risk patients.

Using simple statistics, without data about published research, Ioannidis argued that the results of large, randomized clinical trials—the gold standard of human research—were likely to be wrong 15 percent of the time and smaller, less rigorous studies are likely to fare even worse.

Among the most likely reasons for mistakes, he says: a lack of coordination by researchers and biases such as tending to only publish results that mesh with what they expected or hoped to find. Interestingly, Ioannidis predicted that more researchers in the field are not necessarily better—especially if they are overly competitive and furtive, like the fractured U.S. intelligence community, which failed to share information that might have prevented the September 11, 2001, terrorist strikes on the World Trade Center and the Pentagon.

But Ioannidis left out one twist: The odds that a finding is correct increase every time new research replicates the same result, according to a study published in the current PLoS Medicine.