quarta-feira, 12 de novembro de 2014

All the electronics that's fit to print

 


a) Electonic inks for printing. (b) Inkjet printed shift register circuit. (c) Printed flexible imager.

New technology allows you to print electronic devices in the same way your inkjet printer prints a document or photo. Now researchers at Palo Alto Research Center have used this technique to build a portable X-ray imager and small mechanical devices.

"It's a demonstration of how far this technology can go," said Tina Ng of the Palo Alto Research Center. She will describe these devices at the AVS 61st International Symposium & Exhibition, being held Nov. 9-14, 2014, in Baltimore, Md.

Making electronics on conventional silicon wafers can be costly and time consuming. Traditional photolithography methods, Ng explained, are complex. You first have to deposit layers of material, place a stencil-like mask on it, and then shine ultraviolet light to etch away the exposed material. You then repeat the process to create the patterns needed to form electronic circuits and devices.

But in the last ten years, researchers have been developing ways to deposit patterns of metals, semiconductors and other material directly, just like how a printer deposits patterns of ink. The materials are dissolved in a liquid solution, which can then be printed on a variety of substrates, such as plastic, paper and even fabric. When the "ink" dries, the material remains.

As a demonstration of this technology, Ng and her colleagues built a digital X-ray sensor. Using printing techniques, the researchers fabricated flexible X-ray imager arrays on plastic films that are much more portable than the behemoths at your dentist's office. Such a device could be used by doctors in the field, serve as small security scanners or even help soldiers identify bombs in battle.

The researchers are also working on printing an actuator, a simple mechanical device. Unlike typical silicon actuators, the printable actuator is based on solution-processed organic materials and behaves like "artificial muscles." While they haven't developed specific applications for such an actuator, Ng said, it could be used in conjunction with photo imagers to make adaptive optical parts that tune focal distance, or to make moving mirrors that redirect light beams.

This printing technique won't work for producing the high-end silicon chips in your computers and phones, Ng said. Instead, "we're going for more high-volume, simple but useful systems." In the future, for example, you might be able to print sensors onto clothing or some other device attached to the skin to monitor vital signs -- and alert a doctor in case of emergency. Some researchers have also been printing devices to make flexible solar cells; imagine wearing a jacket that doubles as a solar panel. Another possibility, Ng said, is to print flexible antennae for wireless communication.

Authors of this presentation are affiliated with Palo Alto Research Center (PARC), a Xerox Company, in California; Simon Fraser University in Canada; and Soonchunhyang University in South Korea.


Story Source:

The above story is based on materials provided by AVS: Science & Technology of Materials, Interfaces, and Processing. Note: Materials may be edited for content and length.


 

Space: The final frontier in silicon chemistry

 


Schematic figure of the present experiment. Reactive molecules produced in a supersonic jet come into the microwave cavity placed inside a vacuum chamber, where microwave radiation excites the molecules. Induced microwave radiation from the excited molecules is detected.

Silicon, which is one of the most common elements in Earth's crust, is also sprinkled abundantly throughout interstellar space. The only way to identify silicon-containing molecules in the far corners of the cosmos -- and to understand the chemistry that created them -- is to observe through telescopes the electromagnetic radiation the molecules emit.

Scientists from the University of Tokyo, in Japan, have now determined the unique electromagnetic emission spectrums of two new, highly-reactive silicon compounds. The research, which is published in The Journal of Chemical Physics from AIP Publishing, will help astronomers look for the molecules in the interstellar medium.

"Like human fingerprints and DNA sequences are the markers of human identity, we can identify molecules from the frequencies of the electromagnetic waves emitted by them," said Yasuki Endo, a researcher in the Department of Basic Science at the University of Tokyo.

Using spectroscopic techniques, scientists have already detected silicon-containing molecules in the gaseous clouds that envelop some stars and in the sparsely populated space between stars. In space, silicon is often found in dust grains containing stable compounds called silicates. However, highly reactive molecules, such as SiCN, have also been detected in the gas phase in the interstellar medium.

Searching for More Reactive Silicon Compounds

Endo and his colleagues wondered if compounds in the same family as SiCN, but with longer carbon chains, also existed in the interstellar medium. But there was big obstacle to answering the question: Researchers had not yet performed any laboratory experiments to determine the spectroscopic signatures of reactive, silicon and nitrogen-terminated carbon chain molecules.

To fill the knowledge gap, Endo and his team created molecules of SiC2N and SiC3N by mixing precursor gases in a supersonic jet and zapping the mixture with electric pulses. The researchers then measured the electromagnetic emissions of the molecules in a Fourier transform microwave spectrometer. To find the peaks in the emission spectrum, the researchers were guided by theoretical calculations.

"Our experiment now makes it possible to search for SiC2N and SiC3N in the interstellar medium," Endo said.

Space Chemistry Insights

Endo and his colleagues plan to use their new results to look for silicon and nitrogen-terminated carbon chain molecules in the gaseous cloud surrounding a giant infrared star called IRC+10216. Scientists had previously detected the single carbon SiCN surrounding this star.

"If [SiC2N and SiC3N] molecules are identified in astronomical objects and their abundances are determined, we will be able to obtain valuable information on the mechanisms for the formations of these molecules," Endo said. "In addition, the information may provide clues to understand formation pathways of other silicon-bearing molecules." The new information could give scientists clues about the chemical composition of the universe and the conditions that birth stars and planets.


Story Source:

The above story is based on materials provided by American Institute of Physics (AIP). Note: Materials may be edited for content and length.


Journal Reference:

  1. Hiroya Umeki, Masakazu Nakajima and Yasuki Endo. Laboratory detections of SiC2N and SiC3N by Fourier transform microwave spectroscopy. The Journal of Chemical Physics, 2014 DOI: 10.1063/1.4900740

 

Safer Solvent

 

Fri, 10/31/2014 - 12:34pm

Xylene is well known as an excellent solvent, often used in the printing, paint, rubber and leather industries since it has high solvency power, as demonstrated by its high Kauri-Butanol (k-B) value of 98. However, xylene is known to be a potential occupational hazard due to numerous health and safety concerns. Consequently, an alternative for xylene has been frequently researched.

Necotek Solutions has developed Necosolv XB to address this situation, providing a strong solvent that is safer as well as non-flammable/non-combustible. Necosolv is a non-HAP (hazardous air pollutant), has low toxicity and has low or no global warming potential or ozone depletion potential.

Compared to xylene, Necosolv XB has a K-B value of 115 (vs. 98), a boiling point of 134 C (vs. 139 C) and a flash point of 102 C (vs. 77 C).

Necotek Solutions

The United States Is Far and Away the Leader in Carbon Dioxide Emissions

 

The effects of atmospheric carbon linger for centuries, so historical emissions totals are relevant context for the global climate policy debate.

Why It Matters

Nations will need to cooperate on climate policy if global emissions reduction targets are to be met.

The newly published synthesis of the Fifth Assessment Report from the Intergovernmental Panel on Climate Change (IPCC) is yet another reminder that to maintain a legitimate shot at avoiding warming of greater than 2 °C, greenhouse-gas emissions must be cut 40 to 70 percent by midcentury and reduced to zero by 2100.

How exactly to achieve this is the subject of ongoing geopolitical debate. The United States points to its annual emissions, which have been gradually trending downward, and argues that China, now the world’s leading annual emitter, bears equal responsibility, along with other high-emitting nations like India. China, meanwhile, argues that because the U.S. and other wealthy nations have contributed a disproportionate share of the greenhouse gases already accumulated in the atmosphere, they should be held more accountable for emissions cuts over the next several decades.

Since the effects of atmospheric carbon dioxide linger for centuries (See “Climate Change: The Moral Choices”), that’s a fair point. In the fifth assessment report, the IPCC has for the first time embraced the concept of a carbon budget. According to the panel, ensuring that warming remains below 2 °C will require keeping the total of human-caused emissions, from the beginning of the industrial era through the end of this century, below about a trillion tons of carbon. Over half of that total had already been emitted into the atmosphere by 2011.

At the very least, an accounting of cumulative historical emissions by individual countries is relevant context for today’s geopolitical gridlock. For example, according to the World Resources Institute, the United States has emitted some 10 times as much as India, whose population is nearly four times larger.

 

source – www.technologyreview.com

YouTube announces Music Key subscription music video service

 

YouTube has launched an invite-only beta of a subscription music service

YouTube has launched an invite-only beta of a subscription music service

 

YouTube's long-rumored music service will soon be a reality, Google announced Wednesday. Dubbed YouTube Music Key, the monthly subscription service launched an invite-only beta with minimal details.

For a promotional price of US$7.99 per month (discounted from the normal $9.99 per month fee), subscribers will get ad-free music videos that will continue to play even if your mobile screen locks or you switch to another app. You can also download videos for offline viewing and get a subscription to the audio-only Google Play Music service.

That's about all we know for sure. It would seem that the basic idea here is for Google to offer yet another competitor to the likes of Spotify, but with the interesting addition of a music video component through YouTube.

As part of the launch, YouTube's website and app is getting a new official music section that recommends playlists and provides better access to full artist albums and discographies for the first time.

A big part of the pitch for YouTube Music Key revolves around how users have long gone on YouTube not just to listen to music, but to remix, parody and mashup music, too. It's not immediately clear what, if any role user-generated music videos will occupy in the new subscription service.

The move finally gives YouTube an official way to serve the huge demand for online music video viewing without having to worry about copyright concerns.

Source:YouTube

 

Why 'I'm so happy I could cry' makes sense

 


Individuals who express negative reactions to positive news were able to moderate intense emotions more quickly, scientists found. They also found people who are most likely to cry at their child's graduation are most likely to want to pinch a cute baby's cheeks.

The phrase "tears of joy" never made much sense to Yale psychologist Oriana Aragon. But after conducting a series of studies of such seemingly incongruous expressions, she now understands better why people cry when they are happy.

"People may be restoring emotional equilibrium with these expressions," said Aragon, lead author of work to be published in the journal Psychological Science. "They seem to take place when people are overwhelmed with strong positive emotions, and people who do this seem to recover better from those strong emotions."

There are many examples of responding to a positive experience with a negative emotion. A crying spouse is reunited with a soldier returning from war. Teen girls scream at a Justin Bieber concert and so do soccer players as they score a winning goal. The baseball player who hits a winning home run is pounded at home plate by teammates. And when introduced to babies "too cute for words," some can't resist pinching their cheeks.

"I was surprised no one ever asked why that is," she said.

Aragon and her colleagues at Yale ran subjects through some of these scenarios and measured their responses to cute babies or happy reunions. They found that individuals who express negative reactions to positive news were able to moderate intense emotions more quickly. They also found people who are most likely to cry at their child's graduation are most likely to want to pinch a cute baby's cheeks.

There is also some evidence that strong negative feelings may provoke positive expressions; for example nervous laughter appears when people are confronted with a difficult or frightening situations, and smiles have been found by other psychologists to occur during extreme sadness.

These new discoveries begin to explain common things that many people do but don't even understand themselves, Aragon said.

"These insights advance our understanding of how people express and control their emotions, which is importantly related to mental and physical health, the quality of relationships with others, and even how well people work together," she said.


Story Source:

The above story is based on materials provided by Yale University. The original article was written by Bill Hathaway. Note: Materials may be edited for content and length.


Journal Reference:

  1. E. J. Boothby, M. S. Clark, J. A. Bargh. Shared Experiences Are Amplified. Psychological Science, 2014; DOI: 10.1177/0956797614551162

 

22 Big Dogs Caring For Little Kids

 

In the United States, more than 62% of residents have a family pet, 83.3 million of these people have a dog. That means a whole lot of kids get the chance to grow up with an awesome friend by their side: a dog.

Dogs and children are among the most beautiful, innocent creatures on earth. Dogs love and care for their pack members (aka your family) unconditionally, and they also help teach us some of the more important lessons in life, like never take anything too seriously. And when it comes to babies and children, many dogs will prove you don’t have to be from the same species to fall in love.

These 22 kids are sure to look back on their first furry canine friend with love, appreciation, and nostalgia. Until then, enjoy how cute they look hanging out with their caring best bud, the loyal family dog.

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Dogs and children make the best of friends for so many reasons. For one, dogs and children share the same playful qualities, offering them endless fun to partake in together. While dogs can make almost all adults at least crack a giggle, they can make all children howl with laughter and joy.

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As kids get older they can start helping to take care of the dog to gain immense responsibility. If you grew up with a dog you know how special the connection was you shared. They become an engrained part of your childhood, without them nothing would have been the same.

I still remember my first dog, she was not big like the dogs featured in this post, and instead she was a tiny American Eskimo. I named her Nala and adored her to bits. Sometimes we would run through the yard jumping over obstacles I would set up (I was pretending she was a horse of course), and other times I would just sit and squeeze her tight. She didn’t care what we did, she was my best friend on 4-legs.

That’s what animals do for us; they provide a friendship unlike any other. Well-trained and obedient dogs are full of respect and incredibly intelligent. Some even act like mommy’s little helper when the new baby arrives, conjuring up the natural maternal instinct within each canine.

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Forget about the baby, check out the legs and tush on that dog!

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Seriously, whose decision was it to have this kid?! And can one of you parents help me out over here?!

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“But..but… what is it!?”

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Despite the adorable quality dogs and children have when they are together, it’s important to note how careful you must be when combining dogs and kids. Not all dogs react to babies the same way, careful supervision is always recommended!

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This baby has found the perfect bed, I wonder if the dog knows how to get up without harming the sleeping infant.

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Such a beautiful image!

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There is nothing like a Golden Retriever, hands down one of the best breeds out there–but with 2 of my own I am admittedly biased.

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Dog moms are very dedicated, for the first 8 weeks after delivering her puppies, she will spend all of her time feeding, tending to, and cleaning up after them.

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Are you Team Dog or Team Cat? If your vote is for the barking crew, you will enjoy these 20 Reasons Dogs Are Better Than Cats.

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Cuteness overload: See MORE little kids hanging out with their big dogs!

Photo Credits: Viktoria Haack, Elena Shumilova, Jen Hendricks, wallpaperscraft.com, Elena Shumilova, Hanna Mac, imgur, src.lol24.com, littlebloomstudio.com, Jean Philippe Matz, Caroline Ghetes,  Amanda Patrice, Cathy Murai, Nicole Polk, Erin Vey, Katia Davidova, Marisa Matluck, grin660, theblaze.comAnonymous Panda, Cathy Murai, Orlando| Hulton Archive

 

The Hush2 shelter can withstand hurricanes

 

The Hush2 shelter is designed for use in disaster relief areas and can withstand category ...

The Hush2 shelter is designed for use in disaster relief areas and can withstand category 5 hurricanes

 

Ensuring that people have shelter is a critical part of disaster relief. But what happens if the disaster is ongoing? Or if another disaster hits? A humanitarian shelter from Extremis Technology is designed with just that thinking. The Hush2 can be erected in two hours and can withstand hurricanes.

Two hours is by no means the quickest of assembly times as emergency shelters go. The Rapid Deployment Module from Visible Good, for example, can be assembled without any tools in 25 minutes. Alastair Pryor's Compact Shelter, meanwhile, can be erected in just two minutes, albeit as a much more rudimentary facility. Whilst not as quick to deploy as these examples, the Hush2 is designed to afford more protection to those inside and is transitional to long-term use after a disaster.

The shelter is designed to be highly portable so that it can be transported quickly and easily to disaster relief areas. It is built from marine plywood and can be repaired or enhanced using local materials. It is also designed so that it can be easily repurposed after being used.

The Hush2 team stand in one of the two rooms into which the shelter is split

Once constructed, the Hush2 measures 4.3 x 4.4 x 2.4 m (14.1 x 14.4 x 7.9 ft). It is split into two compartments which can be used, for example, as separate living and sleeping spaces. The shelter is also modular and can be deployed in groups to form larger buildings. It is built using noise reduction materials and has a heat deflection coating to help control temperature. It is also possible to install water purification and solar cooking facilities.

Although it looks like a traditional rectangular shelter, the Hush2 has a special party trick. In the event of strong winds or a hurricane, the shelter can be quickly reconfigured into a more sturdy shape to provide extra protection. To adopt the shelter's "storm-safe position," the two sides of each end are folded diagonally inwards and the shelter's sides are also folded inwards to create a triangular shape.

This formation means that the Hush2 maintains a solid base, but reduces wind resistance. It also reinforces parts of the structure and covers the door and windows. Internal space is naturally reduced, although floor space remains the same. According to Extremis Technology, the process of converting the shelter takes just seven minutes and, once complete, the shelter can withstand hurricanes with category 5 winds of up to 200 mph (322 km/h).

 

Source: Hush2

 

Dogs and Toddlers

 

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Medications for High Blood Pressure

 

High blood pressure is dangerous because it increases the risk of stroke, heart attack, heart failure, kidney failure, death.

“High blood pressure is often called the ‘silent killer’ because it usually has no symptoms until it causes damage to the body,” says Douglas Throckmorton, M.D., Deputy Director of FDA’s Center for Drug Evaluation and Research. Many studies have shown that lowering the blood pressure with drugs decreases that damage.

 

A Lifelong Condition

Blood is carried from the heart to all parts of the body in vessels called arteries. Blood pressure is the force of the blood pushing forward through the body and against the walls of the arteries. The higher the blood pressure, the greater the risk of stroke, heart attack, heart failure, kidney failure, and death.

Blood pressure is made up of two numbers:

  • The “top” number is the systolic blood pressure—the pressure while the heart is pumping blood out. According to the National Institutes of Health (NIH), this number should be less than 120 to be in the normal range.
  • The “bottom” number is the diastolic blood pressure—the pressure while the heart is filling up with blood, getting ready to pump again. According to NIH, this number should be less than 80 to be in the normal range.

It was once believed that only diastolic pressure (the “bottom” number) was important, but this is not true. Elevated systolic pressure alone, particularly common in older people, is just as dangerous as elevations of both systolic and diastolic pressure.

Blood pressure is elevated for two main reasons:

  • too high blood volume
  • too narrow blood vessels.

Most of the time, the cause of a person’s high blood pressure is unknown. Once it develops, high blood pressure usually lasts the rest of the person’s life. But it is treatable.

Some people can lower blood pressure by losing weight, limiting salt intake, and exercising, but for most people, these steps are not enough. Most people need medication for blood pressure control, and will probably need it all their lives.

 

Types of Medications

FDA has approved many medications to treat high blood pressure, including

  • Diuretics, or “water pills,” which help the kidneys flush extra water and salt from your body and decrease blood volume
  • Angiotensin converting enzyme (ACE) inhibitors and Angiotensin II receptor blockers (ARBs), reduce blood pressure by relaxing blood vessels
  • Beta blockers, which also cause the heart to beat with less force
  • Drugs that directly relax the blood vessels. These include calcium channel blockers (CCBs) and other direct dilators (relaxers) of blood vessels
  • Alpha blockers, which reduce nerve impulses that tighten blood vessels
  • Nervous system inhibitors, which control nerve impulses from the brain to relax blood vessels

Many people with high blood pressure will need more than one medication to reach their goal blood pressure. Your health care provider can tell you if you should be on medication and, if so, which drug(s) may be best for you.

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Tips for Consumers

Controlling your blood pressure is a lifelong task. Blood pressure is only one of a number of factors that increase your risk of heart attack, stroke, and death. High cholesterol and diabetes are other risk factors. Lifestyle changes—such as weight loss, a healthy diet, and physical activity—can affect all three risk factors, but many people will also need medications.

Take your medicines and monitor your blood pressure. Take the medications prescribed for you regularly and don’t stop them except on the advice of your health care provider. Hypertension tends to worsen with age and you cannot tell if you have high blood pressure by the way you feel, so have your health care provider measure your blood pressure periodically. You may also want to buy a home blood pressure monitor, available in many drug stores, to measure your blood pressure more frequently. Your health care provider or pharmacist can help you choose the right device. Many drug stores also have blood pressure measuring devices you can use in the store.

Tell your health care provider about any side effects you are having. Some side effects may go away over time, others may be avoided by adjusting the dosage or switching to a different medication.

Updated: May 1, 2014

For more about food, medicine, cosmetic safety and other topics for your health, visit FDA.gov/ForConsumers.

Snap 2014-10-23 at 12.26.46

 

Rice by the numbers: A good grain

 

Millions of people around the world rely on rice as the bulk of their daily diet. This snapshot of the crop's production, consumption and trade shows an overall surplus, but population growth in future decades may affect the situation, writes Emily Elert.

DAILY DEPENDENCE

Average percentage of daily calories derived from rice 1961–2011, per capita. Factors that affect the demand of rice include: rapid economic development; increased gross domestic product; and urbanization in developing countries.

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

 

GLOBAL NUTRITION

On average, every day, each person on the planet consumes:

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

INCREASED DEMAND

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

 

RISING RICE PRODUCTION

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

 

PRODUCTION AND CONSUMPTION

The major rice producers of the world grow more than enough rice to feed their own people. The excess ends up as exports, livestock feed, seed stock or waste (spoiled during transport or storage). Data show the average annual production and consumption from 2007 to 2011, measured in million tonnes (Mt).

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

 

IMPORTS AND EXPORTS

Most rice is consumed in the country where it is grown, but increasing demand in Africa has lead to broader global trade. Data show the average annual export amount in tonnes from 2007 to 2011.

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

 

SPACE TO GROW

Improved rice strains and modern agricultural techniques have meant that farmers can produce higher yields on a smaller area of land. The figure shows the average area of land needed to produce 1 tonne.

Data source: Food and Agriculture Organization of The United Nations, Statistics Division.

Snap 2014-11-12 at 12.36.50

Agriculture: The next frontier

 

Africa's newfound taste for an old grain has experienced problems — drought, low yields and costly imports. But new projects are driving the continent towards self-sufficiency.

tbkmedia.de/Alamy

An African community winnowing its rice crop — this ancient farming practice separates the grain from the chaff and helps to remove pests.

Diets in Africa are changing. Traditionally, Africans have obtained their carbohydrate calories from maize (corn) and tubers such as cassava and sweet potatoes. But for the past three decades, rice consumption has been on the increase across the continent. “In the 1960s in Burundi, for example, rice was eaten only on feast days,” says Joseph Bigirimana, regional coordinator for the International Rice Research Institute in east and southern Africa. “Nowadays, Burundians eat rice every day. And for some families, especially in cities, rice is eaten three times a day.” A 2013 report by the International Grains Council, based in London, predicted that over the next five years rice imports would increase in sub-Saharan Africa more rapidly than in any other region in the world.

This newfound taste for rice is understandable, says Gurdev Khush, an agronomist and geneticist at the University of California, Davis. Khush was behind some of the key breeding innovations that helped to ignite the green revolution, an agricultural awakening that brought new strains of rice and farming techniques to Asia in the 1960s. Khush notes that because rice takes much less time to prepare and cook than traditional African standbys such as cassava root, the grain is popular with people who have to cook dinner after a long day at work. Urbanization has also increased the demand for food that can be easily transported and stored. But production is not keeping up with rice's increasing popularity and the continent's growing population, so the gap between supply and demand keeps widening. To fill it, Africa imports a lot of rice, primarily from Asia (see page S50). At the last count, out of 21 million tonnes of rice consumed annually, only about two-thirds — 14.5 million tonnes — were home-grown. Imports made up the 6.5-million-tonne shortfall, at a cost of US1.7 billion.

Closing this gap would have two major benefits for Africa: countries would spend less on rice imports, and the continent would be less vulnerable if the imports stopped or became prohibitively expensive. There is reason to worry about the price of rice. During the global food crisis of 2008, rice prices quadrupled within just a few months, from less than 300 a tonne to more than 1,200 a tonne on the world market. Some analysts predict that by 2020 an expanding population and shrinking resources will mean that Asia may no longer have any rice to export and may need to import it instead.

Africa is aiming for self-sufficiency in rice production, but that does not look imminent. “Africa imports a lot of rice and will continue to,” says Chris Barrett, director of the Charles H. Dyson School of Applied Economics and Management at Cornell University in Ithaca, New York. “That's not going to change in the next five to ten years.” What is changing is the way that rice is grown in Nigeria, South Africa, Kenya and other African countries. Scientists and farmers are teaming up to make the crop more sustainable, more productive and more important to Africa's future than ever before. AfricaRice, an independent consortium of 25 rice-producing countries in Africa, is optimistic about the challenge ahead. And, says its director-general Papa Abdoulaye Seck, the “rice sector development can become an engine for economic growth across the continent”.

Rice economics

West Africa is the continent's leading rice-producing region, and the countries there are especially bullish about their ability to meet local demands. “Anybody who says Nigeria cannot be self-sufficient in rice production either does not know the country or does not know rice, or both, or is just being mischievous,” says Martin Fregene, adviser to the country's agriculture minister, Akinwumi Adesina. If recent trends continue, Fregene predicts that Nigeria could produce enough rice to feed its people by 2016.

Countries such as Nigeria are taking aggressive economic approaches to encourage rice production — for example, by giving hefty tax breaks to anyone who grows and mills rice locally. In Nigeria, this arrangement has encouraged at least one of its citizens, multi-billionaire Aliko Dangote, to ramp up his rice business. In August 2014, Forbes reported that Dangote had invested 1 billion in rice production. He has purchased 150,000 hectares of farmland on which he plans to produce 1.4 million tonnes of rice every year, which he will then process in the largest rice mill in Africa — the one he intends to build.

In early 2014, the Bill & Melinda Gates Foundation in Seattle, Washington, and Germany's Federal Ministry for Economic Cooperation and Development made a different kind of investment in rice by founding the Competitive African Rice Initiative (CARI). This programme will benefit smallholder rice farmers who have a daily income of less than 2 by helping them to produce rice that is more competitive in the local marketplace. Among other things, the programme is helping to identify the varieties of rice that are most sought after in the local markets and the facilities that will be required to grow and sell it. “We started with the market and worked our way backwards,” says Richard Rogers, senior programme officer at the Gates Foundation.

Better yields, brighter future

Alexis Duclos/Gama-Rapho/Getty

Nerica rice varieties are high yielding and hardy.

But encouraging people to grow and process rice is only part of the solution. A more direct approach to increasing rice production is to increase rice yield. And there is plenty of room for improvement in Africa, where the yield is very low, on average 2.2 tonnes per hectare — much less than the world average, which is 3.4 tonnes per hectare, and only one-third of the average yield in China, the world's leading rice producer.

Regular and severe drought is one reason for Africa's low yield. Although rice does not have to be submerged in paddy fields to grow well, it does need a lot of water. Irrigation systems are expensive, so about 80 of farmers rely on rainfall alone. But in most places, there is not enough rain to ensure healthy crops. A study1 spanning 1999 to 2003 found that yield for rice grown in rain-dependent lowlands was 2.0 tonnes per hectare, whereas in irrigated lowlands the yield was 70 more.

Upland areas might have more rain, but they can lack nitrogen. In some upland areas, the yield is only one tonne per hectare. Fertilizers can supply the needed nitrogen, but many farmers do not have enough money to buy them — at least in the quantities needed to significantly boost the yield.

In the absence of more money to build irrigation systems or buy fertilizers, the scientific solution is to breed new varieties of rice that need less water and less nitrogen. In fact, this is one of the most promising approaches to solving many of Africa's rice-growing problems.

Only two cultivated species of rice exist. Asian farmers domesticated one of them, Oryza sativa, and a few thousand years later African farmers domesticated the other, Oryza glaberrima (see page S58)2. The two species have some traits in common but also significant differences. Crucially, O. sativa produces much higher yields, which gives it more obvious commercial value. It is the species that over the years has come to be grown all over the world. Ever since O. sativa was introduced into Africa, perhaps as early as the 1500s, O. glaberrima pretty much faded into the bush.

In the process, something was lost. O. glaberrima is a survivor. It can thrive in harsh conditions that kill its Asian cousin3. In the 1990s, plant breeders at AfricaRice decided to try to get some of that hardiness back. They began crossing the two species, hoping to produce a new kind of rice that could be both high-yielding and tolerant. New Rice for Africa, or Nerica, was born.

Nerica is not a single variety of rice but rather a number of different varieties. In general, Nerica strains are high-yielding, producing nearly twice as much per hectare as traditional rice grown in the same conditions. Nerica plants also mature in a hurry, which gives weeds and drought less time to do their damage. Another big benefit is that they have a 25 higher protein content than the world-market average.

Specific Nerica varieties have been developed for various regional conditions. They may be resistant to devastating diseases that are endemic in some areas or to destructive pests that wreak havoc in others. And new varieties are being created all the time. In 2013, for example, the Alliance for a Green Revolution in Africa, a non-profit organization that promotes agriculture on the continent, partnered with the University of Port Harcourt in Nigeria to release three new lowland varieties that were long-grained, high quality and resistant to stresses such as iron toxicity and drought.

In 2005, seven West African countries received funding from the African Development Bank to finance the distribution of Nerica. Farmers chose varieties to grow on the basis of their needs. At the beginning of the project, Nerica strains were being grown on 200,000 hectares across all of sub-Saharan Africa. By 2011, they covered at least 800,000 hectares. Pre-project rice yield was about 1 tonne per hectare in the uplands, but yield now averages 2.5 to 3 times as much. Over the six years of the project, participating farmers earned 14.4 million more than they would have done otherwise, and the roughly 35,000 members of their households rose above the poverty line of 1.25 a day.

Many researchers see parallels between Africa today and Asia in the early 1960s. Asia was then on the brink of a green revolution that improved food security, revitalized economies and stabilized governments. Recreating the Asian green revolution in Africa would be a tall order. But with a combined effort by scientists, farmers, governments and investors, African rice could enter a new era, and history could be repeated.

Snap 2014-11-12 at 12.36.50

Supercomplication, the world's most complicated watch, breaks the record – again

 

The Supercomplication holds the record for the most complex pre-digital timepiece

The Supercomplication holds the record for the most complex pre-digital timepiece

Image Gallery (8 images)

It says something that a watch made in 1932 keeps breaking world records, and the Henry Graves Supercomplication watch did just that today as it was knocked down by Sotheby’s Geneva for a record-breaking CHF 23.2 million (US$24 million). The Supercomplication, which also holds the Guinness record for the most complicated handmade pre-digital timepiece, was purchased by an anonymous buyer after 15 minutes of competition between five bidders.

The Supercomplication was made on commission for New York banker Henry Graves Jr.. According to Sotheby’s, Graves was inspired by his rivalry with automaker James Ward Packard over who could have the most complicated watch made. In 1925, the challenge was given to the Swiss watchmaking firm of Patek Philippe and after three years of research and five years of bench work, the completed gold open-face watch was delivered to Graves in 1933 under special shipping conditions to protect the timepiece mechanism while crossing the Atlantic.

One glance is enough to explain where the Supercomplication got its name, because it looks like it was made to the specifications of an unusually gifted eight-year old with an unlimited allowance. There are not one, but two faces – front and back – and inside the gold case are 920 parts, 430 screws, 110 wheels, 120 removable parts, 70 jewels, and even a little aperture that lets you peep inside the mechanism to make sure it’s still running.

The result of all this workmanship is a surprisingly large watch with 24 complications, including a perpetual calendar good until 2100, a moon dial, a sidereal time dial, power reserve indicator, sunrise and sunset times, a night sky map set for New York, and Westminster chimes to mark the passage of time in case you can’t find the hour and minute hands.

The Supercomplication sold for a record US$24 million

"The list of superlatives which can be attached to this icon of the 20th century is truly extraordinary," said a Sotheby's spokesman prior to the sale. "Indisputably the ‘Holy Grail’ of watches, the Henry Graves Supercomplication combines the Renaissance ideal of the unity of beauty and craftsmanship with the apogee of science. Our offering of this horological work of art in 1999 was unquestionably the highlight of our professional careers and set a world record which has held until today. We are extremely privileged to be offering it once again."

The 1999 sale referred to was when the Supercomplication set the previous record for most expensive watch ever when it sold at auction for US$11 million.

 

Source: Sotheby's (pdf)

 

NASA tests aircraft with shape shifting wings

 

The Adaptive Compliant Trailing Edge (ACTE) flap undergoing testing at  NASA’s Armstrong F...

The Adaptive Compliant Trailing Edge (ACTE) flap undergoing testing at NASA’s Armstrong Flight Research Center at Edwards Air Force Base, California (Image: NASA/Ken Ulbrich)

In January, we looked at FlexFoil; a variable geometry airfoil system that seamlessly integrates into the trailing edge of the wing. During the year the system has made the leap from the test bench to the sky, with NASA conducting tests of the FlexFoil on a modified Gulfstream III business jet.

For all the advances in aircraft design over the last century, the wings of an airplane are still fundamentally clumsy. If airplanes spent all their time flying straight and level, the airfoils would only need to be one shape, but that's not how it works – they need to turn and blank, ascend and descend, stay in the air at different speeds, and go through all that tedious taking off and landing.

In a conventional wing, changing shape is achieved by equipping the wing with flaps that pivot, slide, and generally rely on mechanics that create all sorts of seams and gaps. These not only make the wing less efficient, but also noisier.

FlexSys ACTE flap (Image: FlexSys)

NASA’s Environmentally Responsible Aviation (ERA) project aims at making airplanes quieter and more fuel efficient. One aspect of this is the FlexFoil, made by Ann Arbor, Michigan-based FlexSys and developed as part of NASA and the U.S. Air Force Research Laboratory’s (AFRL) Adaptive Compliant Trailing Edge (ACTE) project.

Put simply, FlexFoil is a shape-changing assembly that replaces the flaps on a wing and can alter shape in flight to produce seamless bendable and twistable aerofoil surfaces. This allows the FlexFoil to act like a flap in its various positions while still providing an unbroken air surface. This makes for a more streamlined wing and reduces noise during takeoffs and landings. Importantly, it’s designed not only for new aircraft designs, but for retrofitting to existing ones.

The ACTE flights were carried out at NASA's Armstrong Flight Research Center in Edwards, California, using the Gulfstream III as a testbed with the composite material FlexWing replacing both of the aircraft’s 19-ft (5.7-m) aluminum flaps. The purpose of the test was to take it out of the wind tunnels and determine if its airworthy. The FlexFoil was locked in a series of shapes to allow engineers to collect data on its aerodynamic performance under real-life flight conditions.

This modified Gulfstream III used as a test bed for the ACTE flexible-flap research (Image...

NASA says that work continues on commercial applications for the FlexFoil as well as for those beyond aircraft wings. It is hoped that ACTE technology will allow engineers to tailor wings to particular purposes at the best efficiency and using much lighter materials.

"The first flight went as planned – we validated many key elements of the experimental trailing edges," says Thomas Rigney, ACTE Project Manager. "We expect this technology to make future aircraft lighter, more efficient, and quieter. It also has the potential to save hundreds of millions of dollars annually in fuel costs."

Source: NASA