Engineering TV

Engineering TV offers some nice videos. The site needs more content and some better usability (almost no webcasts are returned on clicking the tags – though they can be found by searching, videos play with sound automatically (without user approval), the ad sounds are way too loud…) but it is another site that might provide some interesting webcasts. I am still most hopeful about SciVee (based on the tie to PLoS) – though the progress has been slow so far.

The PI lacks the experience with the proposed methodology…

A nice post from ScienceWoman: The PI lacks the experience with the proposed methodology…

Well, no kidding. I’m 3000 miles from my old stomping grounds. I’m trying to start an independent research program in a place where the geology/climate are not at all the same. I’m applying for $ for that are specific to Mystery State. Damn straight I’m going to need to learn a few new techniques. (And we’re not talking rocket science here.) But was there nothing in the proposal to suggest that I didn’t understand the techniques or wasn’t properly applying them. Just a lack of a publication record that explicitly used those techniques or occurred in this part of the country.

I suspect that this is a criticism that I’m going to see a few more times before tenure. And I suspect that it’s a criticism that’s not uniquely being leveled at me.
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In this case, this criticism isn’t the reason the proposal wasn’t funded. But it’s the one reviewer critique that I can’t surmount on the resubmission. It’s like that itch I can’t scratch. So I guess the resubmitted proposal is just going to have to be so kick-ass in all other respects that there’s no way they can deny me these funds. Better get to work.

USA Broadband is Slow. Really Slow.

Surprise, surprise: U.S. broadband is slow. Really slow.

The U.S. comes in 15th on a worldwide scale, far behind the leaders Japan, South Korea and Finland.
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A file that takes four minutes to download in South Korea would take nearly an hour and a half to download in the U.S. using the average bandwidth. Japanese users leaves U.S. users behind with an eye-popping 63.60 Mb/s download link. This means that Japanese can download an entire movie in just two minutes, as opposed to two hours or more here in the U.S. Just in case you are wondering: No, Japanese users do not pay more for their broadband connections. In fact, U.S. broadband cost is among the highest in the world.

Japan dominates international broadband speed with a median download speed of approximately 63 Mb/s, more than enough to stream DVD-quality video with surround audio in real time. Next on the list is South Korea where download speeds achieve an average of 49.50 Mb/s. Finland and France follow with 21.70 Mb/s and 17.60 Mb/s, respectively. Canada ranked eighth with an average download speed of 7.60 Mb/s. The U.S. came in 15th with 2.35 Mb/s.

I see this as an economic issue. Countries that have provided an investment in internet infrastructure to provide broadband to the home at reasonable prices will be rewarded.

How Humans Got So Smart

Cooking and Cognition: How Humans Got So Smart

For a long time, we were pretty dumb. Humans did little but make “the same very boring stone tools for almost 2 million years,” he said. Then, only about 150,000 years ago, a different type of spurt happened — our big brains suddenly got smart. We started innovating. We tried different materials, such as bone, and invented many new tools, including needles for beadwork. Responding to, presumably, our first abstract thoughts, we started creating art and maybe even religion.

To understand what caused the cognitive spurt, Khaitovich and colleagues examined chemical brain processes known to have changed in the past 200,000 years. Comparing apes and humans, they found the most robust differences were for processes involved in energy metabolism.

The finding suggests that increased access to calories spurred our cognitive advances, said Khaitovich, carefully adding that definitive claims of causation are premature.

Nice example of scientific discovery in action. The direct link from cooking to brain development is far from proven but it is interesting. I also like “the same very boring stone tools for almost 2 million years” – maybe that is because I am too cynical (but while evolution is amazing – sometimes it is amazing how slow progress is).

Compressed Air Powered Car Webcast

I posted on a car powered using compressed air previously. Here is a webcast on that car:

More webcasts on the car: Catvolution’s Air Car ride + interview Cyril Negre – CATvolution YouTube webcasts

The Most Trusted Sources in Science

PBS: The Most Trusted Source in Science?

When Americans were asked in 2005 about their views on the credibility of information sources about biotechnology, a clear hierarchy of trust emerged starting at the top with scientific journals (almost 60% of respondents said they trusted journals as credible information ), followed by university scientists who are funded by government (50%), public television (50%), government scientists (40%), the WHO (40%), university scientists funded by industry (35%), biotechnology company scientists (30%), religious leaders (20%), TV networks (18%), biotechnology executives (15%), print media (15%), and political leaders (10%)

The data is from a survey by NSF in 2005. I predict PBS’ influence will grow as they provide valuable, open access, content online (the way the public will get most of their news).

Lighting in Slow Motion

Video deleted

The videos provides a super slow motion lighting strike. A separate lighting related item, from NASA: Gigantic Jets:

They are extremely rare but tremendously powerful. Gigantic jets are a newly discovered type of lightning discharge between some thunderstorms and the Earth’s ionosphere high above them. Pictured above is one such jet caught by accident by a meteor camera in Oklahoma, USA. The gigantic jet, at the lower left, traversed perhaps 70 kilometers in just under one second.

Invisibility Cloak Closer

Invisibility shields one step closer with new metamaterials that bend light backwards

Applications for a metamaterial entail altering how light normally behaves. In the case of invisibility cloaks or shields, the material would need to curve light waves completely around the object like a river flowing around a rock. For optical microscopes to discern individual, living viruses or DNA molecules, the resolution of the microscope must be smaller than the wavelength of light.

The common thread in such metamaterials is negative refraction. In contrast, all materials found in nature have a positive refractive index, a measure of how much electromagnetic waves are bent when moving from one medium to another.

In a classic illustration of how refraction works, the submerged part of a pole inserted into water will appear as if it is bent up towards the water’s surface. If water exhibited negative refraction, the submerged portion of the pole would instead appear to jut out from the water’s surface.
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For a metamaterial to achieve negative refraction, its structural array must be smaller than the electromagnetic wavelength being used. Not surprisingly, there has been more success in manipulating wavelengths in the longer microwave band, which can measure 1 millimeter up to 30 centimeters long.

Compressor-free Refrigerator

Compressor-free refrigerator may loom in the future

Refrigerators and other cooling devices may one day lose their compressors and coils of piping and become solid state, according to Penn State researchers who are investigating electrically induced heat effects of some ferroelectric polymers.

“This is the first step in the development of an electric field refrigeration unit,” says Qiming Zhang, distinguished professor of electrical engineering. “For the future, we can envision a flat panel refrigerator. No more coils, no more compressors, just solid polymer with appropriate heat exchangers.”
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Zhang’s approach uses the change form disorganized to organized that occurs in some polarpolymers when placed in an electric field. The natural state of these materials is disorganized with the various molecules randomly positioned. When electricity is applied, the molecules become highly ordered and the material gives off heat and becomes colder. When the electricity is turned off, the material reverts to its disordered state and absorbs heat.

An Illustrated Guide to Every Stupid Cable You Need

There are at least four different kinds of USB plugs, two kinds of FireWire and like a million different ways to connect something to TV or monitor. Modern gadget life can be kind of retarded in this way. Why not one kind of cable, or just a couple? I don’t know. But until everyone gets on the same appendage-to-hole scheme, in the meantime, you can use this: an illustrated guide to pretty much every kind of cable you will see in current gadgets and what it’s used for
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USB Type A Universal Serial Bus, the gold standard. The whole idea behind it is that this one interface will connect everything (except the stuff it doesn’t), killing off the old guard, like parallel and serial ports. It moves data, and in the case of USB 2.0—which is pretty much the standard now—it does it faster, and with some extra specs for power.
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USB Type B The USB Type B plug is basically a USB connector for peripherals—you’ve probably seen it jacked into a printer or scanner.