The Dutch are bicycle fanatics. Almost half of daily travel in the Netherlands is by bicycle, while the country’s bike fleet comfortably outnumbers its 16 million people. Devotees of the national obsession have taken the next logical step by launching what is likely the first bicycle school bus.
Built by Tolkamp Metaalspecials, and sold by the De Cafe Racer company, the bicycle school bus (BCO in Dutch) is powered entirely by children and the one adult driver (although there is an electric motor for tough hills). Its simple design has eight sets of pedals for the kids (ages 4 to 12), a driver seat for the adult, and three bench seats for freeloaders. The top speed is about 10 miles per hour, and features a sound system and canvas awning to ward off rainy days.
They have sold 25 of the busses so far for $15,000 each.
I wish they provided data for the larger companies, but they don’t. They show a breakdown of 9,461 (CEO or founders) with a business undergraduate major and 9,334 with an engineering degree. For those with advanced degrees 3,337 have an engineering master’s or doctorate and 1,016 have an MBA.
In the latest (2008) data I have for S&P 500 CEO’s 22% were engineers. Engineers seem to make up under 5% of college graduates (based on my eyeballing of this Dept. of Education data). Business meanwhile seems to make up about 20% of the majors.
[10-year-old Clara] Lazen’s teacher, Kenneth Boehr, introduced Border Star Montessori School’s 5th grade class to the periodic table, molecules and chemical bonds. Lazen found the topic interesting and Boehr gave her the tools she needed to explore the subject.
Equipped with a molecule-building kit, Lazen experimented with the colored wooden balls by creating existing molecules and some of her own.
Lazen approached Boehr and asked if the molecule she created using the kit was real. Unsure of the answer, Boehr emailed his longtime graduate school friend and chemistry professor at HSU, Robert Zoellner.
“Maybe [the molecule] is real and we’ll find out,” Zoellner responded.
Upon further research, Zoellner discovered the particular molecule, tetrakis(nitratoxycarbon) methane, Lazen had created had never been discussed in literature and possibly had never been thought of before.
The significance of the molecule Lazen created is that it has the potential to store energy. The dense structure allows for stable energy storage meaning the molecule can be used to produce energy or as an explosive.
Lazen was excited to hear her discovery could be used as an explosive. “I thought, ‘Wow, it could go boom!’ I could put [the molecule] in a bomb and it could blow up something,” she said.
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Lazen’s mother, Lori Schmidt was excited to hear that not only would her daughter be a co-author to the scientific article, but the discovery would be recognized in a scientific journal. “One only dreams as a parent,”
From the New York Times opinion piece, Ritalin Gone Wrong, by L. Alan Sroufe is a professor emeritus of psychology at the University of Minnesota’s Institute of Child Development:
Attention-deficit drugs increase concentration in the short term, which is why they work so well for college students cramming for exams. But when given to children over long periods of time, they neither improve school achievement nor reduce behavior problems. The drugs can also have serious side effects, including stunting growth.
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To date, no study has found any long-term benefit of attention-deficit medication on academic performance, peer relationships or behavior problems, the very things we would most want to improve. Until recently, most studies of these drugs had not been properly randomized, and some of them had other methodological flaws.
But in 2009, findings were published from a well-controlled study that had been going on for more than a decade, and the results were very clear… At first this study suggested that medication, or medication plus therapy, produced the best results. However, after three years, these effects had faded, and by eight years there was no evidence that medication produced any academic or behavioral benefits.
As I have written before I am skeptical of the amount of drug use our health care system encourages: Lifestyle Drugs and Risk.
A new mouthwash developed by a microbiologist at the UCLA School of Dentistry is highly successful in targeting the harmful Streptococcus mutans bacteria that is the principal cause tooth decay and cavities.
In a recent clinical study, 12 subjects who rinsed just one time with the experimental mouthwash experienced a nearly complete elimination of the S. mutans bacteria over the entire four-day testing period.
Dental caries, commonly known as tooth decay or cavities, is one of the most common and costly infectious diseases in the United States, affecting more than 50 percent of children and the vast majority of adults aged 18 and older. Americans spend more than $70 billion each year on dental services, with the majority of that amount going toward the treatment of dental caries.
This new mouthwash is the product of nearly a decade of research conducted by Wenyuan Shi, chair of the oral biology section at the UCLA School of Dentistry. Shi developed a new antimicrobial technology called STAMP (specifically targeted anti-microbial peptides) with support from Colgate-Palmolive and from C3-Jian Inc., a company he founded around patent rights he developed at UCLA; the patents were exclusively licensed by UCLA to C3-Jian.
The human body is home to millions of different bacteria, some of which cause diseases such as dental caries but many of which are vital for optimum health. Most common broad-spectrum antibiotics, like conventional mouthwash, indiscriminately kill both benign and harmful pathogenic organisms and only do so for a 12-hour time period.
The overuse of broad-spectrum antibiotics can seriously disrupt the body’s normal ecological balance, rendering humans more susceptible to bacterial, yeast and parasitic infections.
Shi’s Sm STAMP C16G2 investigational drug, tested in the clinical study, acts as a sort of “smart bomb,” eliminating only the harmful bacteria and remaining effective for an extended period.
“With this new antimicrobial technology, we have the prospect of actually wiping out tooth decay in our lifetime,” said Shi, who noted that this work may lay the foundation for developing additional target-specific “smart bomb” antimicrobials to combat other diseases.
If I don’t pay attention, I won’t eat enough vegetables. Even when I do pay attention I still don’t eat enough (but get closer). Paying attention to what you eat is important for your health.
Some tips from the video.
Eat a wide variety of vegetables, to get the benefits each offers.
Cruciferous vegetables have cancer preventing benefits and enhancing the immune system. Vegetables in this category include broccoli and cauliflower.
Berries also have chemicals that aid in the prevention of cancer.
The Fields medal is know as the Nobel of mathematics. Tim Gowers was awarded the Fields medal in 1998 for contributions to functional analysis, making extensive use of methods from combinatorial theory. Tim Gowers is currently the Rouse Ball Professor of Mathematics at Cambridge University. He posted recently on his decision to stop supporting (with his actions, such as submitting paper and reviewing papers) the anti-open-science behavior of Elsevier (a particularly aggressive anti-open-science publisher that also has very bad pricing practices).
One method that they have for getting away with it is a practice known as “bundling”, where instead of giving libraries the choice of which journals they want to subscribe to, they offer them the choice between a large collection of journals (chosen by them) or nothing at all. So if some Elsevier journals in the “bundle” are indispensable to a library, that library is forced to subscribe at very high subscription rates to a large number of journals, across all the sciences, many of which they do not want. (The journal Chaos, Solitons and Fractals is a notorious example of a journal that is regarded as a joke by many mathematicians, but which libraries all round the world must nevertheless subscribe to.) Of course, given that libraries have limited budgets, this often means that they cannot subscribe to journals that they would much rather subscribe to, so it is not just libraries that are harmed, but other publishers, which is of course part of the motivation for the scheme.
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Elsevier supports many of the measures, such as the Research Works Act, that attempt to stop the move to open access. They also supported SOPA and PIPA and lobbied strongly for them.
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I also don’t see any argument at all against refusing to submit papers to Elsevier journals.
So I am not only going to refuse to have anything to do with Elsevier journals from now on, but I am saying so publicly. I am by no means the first person to do this, but the more of us there are, the more socially acceptable it becomes
Good for him. All we need is for more and more scientists, mathematicians and engineers to support open science with thier actions and open science will be the way things are. It is as simple as that. The outdated business practices of the old journals will die. Either the existing publishers will finally give up on their extremely outdated practices or they will be replaced.
Mitsubishi completed the conceptual design of a new container ship; this eco-ship achieves a 25% decrease in CO2 emissions over existing ships. Three, of these ships, with the Mitsubishi Air Lubrication System (MALS), are being built now (they should be completed in 2014).
In addition to blowers to create air bubbles under the vessel bottom, the three grain carriers will also feature a newly designed bow shape that will reduce wave-making resistances. For propulsion, the ship adopts a system to effectively convert the main engine power into propulsion power by positioning fins forward of the propellers and placing particular grooves in the propeller boss cap.
Reducing the frictional drag on the hull of a ship saves fuel and lowers CO2 emissions. To achieve this, MHI developed the Mitsubishi Air Lubrication System (MALS), which reduces frictional drag by introducing air bubbles by air blower into the water around the bottom of a ship’s hull, covering the ship in bubbles. By arranging the air blowhole location and shape and controlling the air volume, the lubrication effect has been enhanced, reducing CO2 emissions per container transportation by 10 percent.
This system has already been introduced on module carriers, and has been proven to reduce CO2 emissions significantly.
A disease-fighting protein in our teardrops has been tethered to a tiny transistor, enabling UC Irvine scientists to discover exactly how it destroys dangerous bacteria. The research could prove critical to long-term work aimed at diagnosing cancers and other illnesses in their very early stages.
Ever since Nobel laureate Alexander Fleming found that human tears contain antiseptic proteins called lysozymes about a century ago, scientists have tried to solve the mystery of how they could relentlessly wipe out far larger bacteria. It turns out that lysozymes have jaws that latch on and chomp through rows of cell walls like someone hungrily devouring an ear of corn.
“Those jaws chew apart the walls of the bacteria that are trying to get into your eyes and infect them,” said molecular biologist and chemistry professor Gregory Weiss, who co-led the project with associate professor of physics & astronomy Philip Collins.
The researchers decoded the protein’s behavior by building one of the world’s smallest transistors – 25 times smaller than similar circuitry in laptop computers or smartphones. Individual lysozymes were glued to the live wire, and their eating activities were monitored.
“Our circuits are molecule-sized microphones,” Collins said. “It’s just like a stethoscope listening to your heart, except we’re listening to a single molecule of protein.”
It took years for the UCI scientists to assemble the transistor and attach single-molecule teardrop proteins. The scientists hope the same novel technology can be used to detect cancerous molecules. It could take a decade to figure out but would be well worth it, said Weiss, who lost his father to lung cancer.
“If we can detect single molecules associated with cancer, then that means we’d be able to detect it very, very early,” Weiss said. “That would be very exciting, because we know that if we treat cancer early, it will be much more successful, patients will be cured much faster, and costs will be much less.”
The project was sponsored by the National Cancer Institute and the National Science Foundation. Co-authors of the Science paper are Yongki Choi, Issa Moody, Patrick Sims, Steven Hunt, Brad Corso and Israel Perez.
