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.

Plugging America’s Broadband Gap

Plugging America’s Broadband Gap

Martin is concerned about a U.S. broadband gap. Only 60% of American households have speedy Net access. That puts the country in 15th place among developed nations, according to the Organization for Economic Cooperation & Development. It’s a mighty fall from 2001, when the U.S. ranked fourth.

This is one of a number of facts that those in the USA seem ignorant of: we have a far worse internet and cell phone infrastructure than many countries. Those that think the USA is the leading technology country should be alarmed by such poor performance in a critical area such as internet infrastructure.

There are three basic options for catching up. The government can take the lead, making its own investments in broadband. Second, the government can mandate that existing providers make the service available more widely. Most realistically perhaps, the government can create incentives for private companies to roll out more broadband. That’s what Martin is trying to do. He wants to auction off wireless spectrum and require the winning bidder to provide free broadband throughout the country. The company could make money by selling advertising and advanced services.

The free service wouldn’t be the fastest on the market. The winning bidder would have to offer a minimum speed of 768 kilobits per second to 95% of the country within 10 years. Although that’s technically broadband, it’s about half the speed of today’s average U.S. broadband link.

Still, Martin’s proposal has drawn support because it has the potential to crack what has become a broadband duopoly. In most markets, only one telecom company and one cable provider offer the service. A third alternative with decent speed and big savings off the current $50 monthly average price could spark more competition. The leading contender to win the auction is M2Z Networks, a startup founded by former FCC staffer John Muleta.

The FCC approach is no panacea. It’ll provide competition at the low end of the market and will do nothing to bring the U.S. the blazing speeds common in Korea and Japan.

Related: China Builds a Better InternetInternet Undersea CablesUnderstanding Computers and the Internet

Martian Water

NASA Spacecraft Confirms Martian Water, Mission Extended

“We have water,” said William Boynton of the University of Arizona, lead scientist for the Thermal and Evolved-Gas Analyzer, or TEGA. “We’ve seen evidence for this water ice before in observations by the Mars Odyssey orbiter and in disappearing chunks observed by NASA’s Phoenix Mars Lander last month, but this is the first time Martian water has been touched and tasted.”

With enticing results so far and the spacecraft in good shape, NASA also announced operational funding for the mission will extend through Sept. 30. The original prime mission of three months ends in late August. The mission extension adds five weeks to the 90 days of the prime mission.

“Phoenix is healthy and the projections for solar power look good, so we want to take full advantage of having this resource in one of the most interesting locations on Mars,” said Michael Meyer, chief scientist for the Mars Exploration Program at NASA Headquarters in Washington.

The soil sample came from a trench approximately 2 inches deep. When the robotic arm first reached that depth, it hit a hard layer of frozen soil. Two attempts to deliver samples of icy soil on days when fresh material was exposed were foiled when the samples became stuck inside the scoop. Most of the material in Wednesday’s sample had been exposed to the air for two days, letting some of the water in the sample vaporize away and making the soil easier to handle.

“Mars is giving us some surprises,” said Phoenix principal investigator Peter Smith of the University of Arizona. “We’re excited because surprises are where discoveries come from. One surprise is how the soil is behaving. The ice-rich layers stick to the scoop when poised in the sun above the deck, different from what we expected from all the Mars simulation testing we’ve done. That has presented challenges for delivering samples, but we’re finding ways to work with it and we’re gathering lots of information to help us understand this soil.”

Related: NASA Set to Test Mars IceNASA You Have a Problem (their site is still broken)Mars Rovers Getting Ready for Another Adventure

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Students at Powhatan Engineering Camp

Students attend Powhatan’s first-ever engineering camp

The 28 students participating in the first-ever Powhatan County Schools engineering camp spent eight days doing hands-on activities like building model amusement park rides and suspension bridges, and taking field trips to see engineering in action. They visited the Richmond Times Dispatch’s production facility, where they observed robots shuttling stacks of paper back and forth, and the Watkins Center, where they observed engineers at work on a construction site.

The group even enjoyed a presentation from a NASA engineer, who spoke of his experience working on the Mars rover.

These engineering camps help kids enjoy their naturally inquisitive minds – which unfortunately they don’t get to do often enough.

Related: Toy and Entertainment Engineering CampScience Camps Prep GirlsTurtle Camps in MalaysiaEngineering Activities: for 9-12 Year Olds

Mobile Phone-based Vehicle Anti-theft System

18 year old self-taught electronics ‘genius’ invents mobile phone-based vehicle anti-theft system

Morris Mbetsa, an 18 year old self-taught inventor with no formal electronics training from the coastal tourist town of Mombasa on the Indian Ocean in Kenya, has invented the “Block & Track”, a mobile phone-based anti-theft device and vehicle tracking system.

The system, that Mbetsa created by combining technology from projects that he has completed in the past, uses a combination of voice, DTMF and SMS text messages over cell-based phone service to carry codes and messages that allow control of some of a vehicles’ electrical systems including the ignition to manage vehicle activation and disabling remotely in real time.

Mbetsa is now looking for funding to commercially develop his proof of concept and bring it to the market

Another cool example of engineering in action.

Related: Inspirational EngineerAfrica Turning to China and India for Engineering and Science EducationCar Powered Using Compressed AirEngineering Entrepreneurs

An Appetite For Science

An Appetite For Science by Corinne A. Marasco

episodes titled “Churn Baby Churn” and “I Pie” explain, respectively, how sugar crystallization affects the texture of ice cream and what happens to a pie crust in the oven as it bakes. These are the sort of processes that chemists and materials scientists address everyday.

Yogurt contains beneficial bacteria, such as Lactobacillus bulgaricus and Streptococcus thermophilus, that love lactose, the sugar found in milk. Adding a starter culture of plain, store-bought yogurt to milk at 110 °F, Brown shows that the bacteria will convert the lactose into lactic acid. The heating pad helps to maintain a steady temperature to allow the bacteria to incubate. If the temperature of the milk is too low, the bacteria won’t grow to make yogurt. If the temperature is too high, the bacteria will die.

He’s confident he could teach a high school or college science course with nothing but a kitchen. For labs he could demonstrate how heat denatures protein by cooking an egg, how yeast cells execute gas-liberating reactions by baking a loaf of bread, or how fermentation occurs by making pickles. As a bonus, the class would get to eat the experiments, enabling observation of cause and effect.

Related: The Man Who Unboiled an EggBacterial Evolution in YogurtPlumpynut, Food SaviorScience and Engineering Search

Malaysian Shrew Survives on Beer

photo of Malaysian tree shrew

Malaysian Shrew Survives on Beer

The shrew lives in the forest of Malaysia and feeds on the flowers of the bertam palm. Produced year-round and constantly fermenting, its nectar is about 3.8 percent alcohol — roughly equivalent to a Sam Adams light.

“Fine,” you say, “except that’s a light beer!” But cut the shrew some slack — it doesn’t eat anything else. Let’s see you subsist on nothing but beer, light or not, and stay sober.

That’s the shrews’ most amazing quality: they don’t get drunk. On any given night, said researchers in a study published today in the Proceedings of the National Academy of Sciences, one-third of the shrews have a blood-alcohol level that would leave us under the bar — but there’s no evidence of intoxication.

Related: Nectar-Feeding BatsTurtle Camps in Malaysiaposts on animalsMutualism – Inter-species Cooperation

Science Policy Research Virtual Intern

externs.com is another curiouscat.com web site that lists internship opportunities. I am surprised that virtual internships and externships have not grown much more popular in the last 5 years. Scientists and Engineers for America do have such a virtual internship:

Members of the first Scientists and Engineers for America (SEA) virtual intern class can be located anywhere in the world and will work remotely on specific SEA projects. Intern will research the positions elected officials and candidates for office take on science policy issues.

The internship is for between 10 to 20 hours per week and can be done anywhere, as long as you have a computer, internet connection, and telephone. The dates of the internship are flexible accepted on a rolling basis.

Also see the externs.com science internships and engineering internships. If you have an internship you would like included, please add it (there is not cost for the site, listing or using).

Related: Summer Jobs for Smart Young MindsPreparing Computer Science Students for JobsScience and Engineering Scholarships and FellowshipsScientists and Engineers in Congress

Science and the City: Science Barge

Science and the City is (among other things) an excellent podcast series from the New York Academy of Science. The latest podcast discusses the science barge project we posted about earlier. They discuss looking at commercially viable urban farms (on rooftops in NYC) and the establishing educational gardens at schools.

See the Curious Cat Science and Engineering Podcast Directory for some great resources for podcasts. Don’t miss the naked scientists from the BBC.

Related: Middle School EngineersFun primary school Science and EngineeringEducation Resources for Science and Engineering

Life After the Chernobyl Nuclear Accident

Silent Spring by Lauren Monaghan, Cosmos

Ever since, a 30 km ‘exclusion zone’ has existed around the contaminated site, accessible to those with special clearance only. It’s quite easy, then, to conjure an apocalyptic vision of the area; to imagine an eerily deserted wasteland, utterly devoid of life.

But the truth is quite the opposite. The exclusion zone is teeming with wildlife of all shapes and sizes, flourishing unhindered by human interference and seemingly unfazed by the ever-present radiation. Most remarkable, however, is not the life buzzing around the site, but what’s blooming inside the perilous depths of the reactor.

Sitting at the centre of the exclusion zone, the damaged reactor unit is encased in a steel and cement sarcophagus. It’s a deathly tomb that plays host to about 200 tonnes of melted radioactive fuel, and is swarming with radioactive dust.

But it’s also the abode of some very hardy fungi which researchers believe aren’t just tolerating the severe radiation, but actually harnessing its energy to thrive.

“Our findings suggest that [the fungi] can capture the energy from radiation and transform it into other forms of energy that can be used for growth,” said microbiologist Arturo Casadevall from the Albert Einstein College of Medicine at Yeshiva University in New York, USA.

Taken together, the researchers think their results do indeed hint that fungi can live off ionising radiation, harnessing its energy through melanin to somehow generate a new form of biologically usable growing power.

If they’re right, then this is powerful stuff, said fungal biologist Dee Carter from the University of Sydney. The results will challenge fundamental assumptions we have about the very nature of fungi, she said.

It also raises the possibility that fungi might be using melanin to secretly harvest visible and ultraviolet light for growth, adds Casadevall. If confirmed, this will further complicate our understanding of these sneaky organisms and their role in ecosystems.

Pretty amazing stuff. It really is great all that nature gives us to study and learn about using science.

Related: Radiation Tolerant BacteriaNot Too Toxic for LifeBacterium Living with High Level RadiationWhat is an Extremophile?

Learning How Viruses Evade the Immune System

photo of Naama Elefant

MicroRNA genes are a class of very tiny genes found in a variety of organisms. First discovered in 1993 and at the time considered relatively unimportant, they are now recognized as major players in diverse biological processes.

MicroRNAs are important regulators of protein production. Proteins, the building blocks of the cell, must be produced precisely at the right time and place. MicroRNAs specifically latch on to other genes (their targets) and inhibit the production of the protein products of these genes. Hundreds of microRNAs have already been discovered, but the identity of their target genes remains mostly unknown and presents a great challenge in the field.

Elefant developed a computer algorithm that predicts the targets of microRNAs. Her algorithm, named RepTar, searches the thousands of genes in the human genome and through sequence, structural and physical considerations detects matches to hundreds of microRNAs.

For her work in this field, Naama Elefant, a student of Prof. Hanah Margalit of the Faculty of Medicine at the Hebrew University and an Azrieli fellow, was named one of this year’s winners of the Barenholz Prizes for Creativity and Originality in Applied Computer Science and Computational Biology. This discovery also was declared by the magazine Nature Medicine as ”one of the ten notable advances of the year 2007.”
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