Gene Study Finds Cannibal Pattern

Gene Study Finds Cannibal Pattern

Deep in the recesses of the human heart, lurking guiltily beneath the threshold of consciousness, there may lie a depraved craving — for the forbidden taste of human flesh. The basis for this morbid accusation, made by a team of researchers in London, is a genetic signature, found almost worldwide, that points to a long history of cannibalism.

The signature is one that protects the bearer from infection by prions, proteins that can be transmitted in infected meat and attack the nerve cells of the brain. Prions can be acquired from eating infected animals, as in the case of the mad cow disease that in 1996 spread to people in England, but they spread even more easily through eating infected humans.

The researchers then examined DNA from various ethnic groups around the world and found that all but one, the Japanese, carried the protective signature to some degree, and that the Japanese are protected by a different signature in the same gene.

Various genetic tests showed that the protective genes could not be there by chance, but were a result of natural selection. This implies that human populations in the past must have been exposed to some form of prion disease, the researchers say.

MacRobert Award Nominations

Three weeks left to enter the UK’s biggest innovation prize:

Now in its 38th year, the MacRobert Award is Britain’s pre-eminent award for innovation in engineering. Open to individuals or teams of up to five people from any size of company who have exploited a major engineering breakthrough

the MacRobert Award honours the winning company with a gold medal and up to five team members with a tax-free prize of £50,000 between them. HRH the Duke of Edinburgh, Senior Fellow of the Academy, takes a close interest in the MacRobert Award and has presented it almost every year since it was created.

Apply. Previous awards granted for: the roof structure of the Millennium Dome (1999), Light-emitting polymers (2002), development and commercialisation of a unique non-invasive retinal imager (2006).

Want to be a Computer Game Programmer?

You need to understand math, physics and more to become a computer game programmer. Things You Need to Know before Interviewing for a Game Programming Position:

You do need to have very good linear algebra skills. If you don’t know what the formula for a dot product is (a dot b = a.x * b.x + a.y * b.y + a.z * b.z ) and what it means geometrically (|a| * |b| * cosine of the angle between a and b), then there’s no chance you can get a job. You need to know how to project a vector onto another vector (a projected onto b = ( a dot b ) / |b|^2 * b) and onto a plane. You need to know what the cross product is (a x b = [a.y * b.z – a.z * b.y, a.z * b.x – a.x * b.z, a.x * b.y – a.y * b.x]) and what it means geometrically (a vector perpendicular to the vectors with a length equal to the sine of the angle between them).

You should be very familiar with all the projectile equations. If you can’t either derive or remember d = v0 * t + 0.5 * a * t^2, you’ll be in trouble when you interview or take a programming test. Any problem that involves a projectile with gravity should be easy for you to solve. Whether the unknown is gravity, launch angle, y velocity, xz velocity, time, distance or any combinations that are solvable, you should have no problems determining the solution. You should also be familiar with momentum and kinetic energy for elastic and inelastic collisions. Drag and friction should be concepts you understand also.

If that all looks like great fun to you, perhaps game programming is the career for you.

$100 Laptop Update

Green $100 Laptop photo

Public can purchase $100 laptop. I am not sure I understand the headline – this seems a more accurate picture of situation: OLPC aims for mass production in third quarter, 2007. At this time the cost each is about $150 and you will have to pay for 2 (you buy one for yourself and one for the developing world). The aim is to reach the $100 price level, but that has not quite been achieved yet.

The first countries to sign up to buying the machine, which is officially dubbed XO, include Brazil, Argentina, Uruguay, Nigeria, Libya, Pakistan and Thailand.

The XO’s software has been designed to work specifically in an educational context. It has built-in wireless networking and video conferencing so that groups of children can work together. The project is also working to ensure that children using the laptop around the world can be in contact.

The project continues to move forward even with the bumps along the road – it is quite an ambitious plan. Take a look at this great story: What kids can learn when you just give them access to a computer.

Related: Official Laptop Site$100 Laptops for the WorldAppropriate Technology

Cheap, Superefficient Solar

Cheap, Superefficient Solar

Technologies collectively known as concentrating photovoltaics are starting to enjoy their day in the sun, thanks to advances in solar cells, which absorb light and convert it into electricity, and the mirror- or lens-based concentrator systems that focus light on them. The technology could soon make solar power as cheap as electricity from the grid.

“I’d much rather make a few square miles of plastic lenses–it would cost me less–than a few square miles of silicon solar cells,” Olson says. Today solar power is still more expensive than electricity from the grid, but concentrator technology has the potential to change this. Indeed, if manufacturers can meet the challenges of ramping up production and selling, distributing, and installing the systems, their prices could easily meet prices for electricity from the grid, says solar-industry analyst Michael Rogol

Related: Large-Scale, Cheap Solar ElectricitySolar Tower Power Generation

Engineering A Cleaner River

I Eat Rubbish:

“I eat rubbish!”, the notice fixed to it claims that it collects 40 tons of rubbish every year; the equivalent of 800,000 plastic bottles. Called a “passive debris collector”, nine of them have been bobbing along the river for the past five years. Each captures tons of floating litter; bottles, cans, and plastic, that otherwise would have flowed out to sea and killed fish and birds. It was initiated by Thames21, an environmental charity…

NSF Strategic Plan

National Science Foundation Investing in America’s Future Strategic Plan FY 2006-2011

We will support transformational research and promote excellence in science and engineering education in ways that will fuel innovation, stimulate the economy, and improve quality of life. We will also nurture the vibrant and innovative science and engineering enterprise necessary to achieve these goals and stimulate broader participation in this enterprise throughout the nation.

That is pretty broad strokes but they have details and recognizable changes in attitude also.

abroad. Increasing international competition and workforce mobility, combined with a surge in international collaboration in science and engineering research, continue to alter the science and engineering landscape worldwide. To lead within this broader global context, the U.S. science and engineering workforce must build greater capacity for productive international collaboration.

More priorities: “Promote transformational, multidisciplinary research.” “Prepare a diverse, globally engaged STEM workforce.” “Engage and inform the public in science and engineering through informal education.” “Identify and support the next generation of large research facilities.” “Expand efforts to broaden participation from underrepresented groups and diverse institutions in all NSF activities.”

Related: Diplomacy and Science ResearchEngineering the Future EconomyUSA and Global Science and Engineering Going Forward

How Do You Fix an Undersea Cable?

How Do You Fix an Undersea Cable?

A working fiber will transmit those pulses all the way across the ocean, but a broken one will bounce it back from the site of the damage. By measuring the time it takes for the reflections to come back, the engineers can figure out where along the cable they have a problem.

If the faulty part of the cable is less than about 6,500 feet down, the crew will send out a submersible tanklike robot that can move around on the sea floor. A signal can be sent through the cable to guide the robot toward the problem spot. When the robot finds the right place, it grabs ahold of the cable, cuts out the nonworking section, and pulls the loose ends back up to the ship.

A skilled technician or “jointer” splices the glass fibers and uses powerful adhesives to attach the new section of cable to each cut end of the original—a process that can take up to 16 hours. The repaired cable is then lowered back to the seabed on ropes.

Related: Underwater Fiber for the Internet

Help Choose the New PBS Science Program

PBS Science:

Here’s the experiment: Throughout January, PBS will broadcast three new science programs. Only one program will become a regular science series on PBS. We want you to help us decide. Watch the programs on your PBS station or, beginning January 1st, visit the companion sites below to watch each pilot show. Then tell us what you think

Wired Science – “brings WIRED Magazine’s cutting edge vision, stylish design, and irreverent attitude to the screen with breakout ideas, recent discoveries, and the latest innovations”

Science Investigators – “Full of information told through compelling stories, the series is presented by four young, lively hosts armed with the latest gadgets and technology, who make this a science show with attitude for the blog generation.” From WGBH, producers of NOVA

22nd Century – “Science fantasy or futuristic nightmare? 22nd Century takes you to the forefront of technology and hears from people on the cusp of a scientific revolution.”