Tuesday, April 28, 2009

World first for strange molecule

World first for strange molecule
By Victoria Gill Science reporter, BBC News
Electrons can be pictured as orbiting around a central nucleus


The researchers excite an atom to the "Rydberg state" using a laser

A molecule that until now existed only in theory has finally been made.
Known as a Rydberg molecule, it is formed through an elusive and extremely weak chemical bond between two atoms.
The new type of bonding, reported in Nature, occurs because one of the two atoms in the molecule has an electron very far from its nucleus or centre.
It reinforces fundamental quantum theories, developed by Nobel prize-winning physicist Enrico Fermi, about how electrons behave and interact.
The Rydberg molecules in question were formed from two atoms of rubidium - one a Rydberg atom, and one a "normal" atom.
The movement and position of electrons within an atom can be described as orbiting around a central nucleus - with each shell of orbiting electrons further from the centre.
A Rydberg atom is special because it has one electron alone in an outermost orbit - very far, in atomic terms, from its nucleus.
Back in 1934 Enrico Fermi predicted that if another atom were to "find" that lone, wandering electron, it might interact with it.
"But Fermi never imagined that molecules could be formed," explained Chris Greene, the theoretical physicist from the University of Colorado who first predicted that Rydberg molecules could exist.
"We recognised, in our work in the 1970s and 80s, the potential for a sort of forcefield between a Rydberg atom and a groundstate [or normal] atom.
"It's only now that you can get systems so cold, that you can actually make them."

Right place, right time
Unimaginably cold temperatures are needed to create the molecules, as Vera Bendkowsky from the University of Stuttgart who led the research explained. "The nuclei of the atoms have to be at the correct distance from each other for the electron fields to find each other and interact," she said. "We use an ultracold cloud of rubidium - as you cool it, the atoms in the gas move closer together."
At temperatures very close to absolute zero - minus 273C - this "critical distance" of about 100nm (nanometres - 1nm = one millionth of a millimetre) between the atoms is reached.
When one is a Rydberg atom, the two atoms form a Rydberg molecule. This 100nm gap is vast compared to ordinary molecules.
"The Rydberg electron resembles a sheepdog that keeps its flock together by roaming speedily to the outermost periphery of the flock, and nudging back towards the centre any member that might begin to drift away," said Professor Greene.

Pushing this electron out to its lonely periphery - and make a Rydberg atom - requires energy.
"We excite the atoms to the Rydberg stage with a laser," explained Dr Bendkowsky.
"If we have a gas at the critical density, with two atoms at the correct distance that are able to form the molecule, and we excite one to the Rydberg state, then we can form a molecule."
This ultracold experiment is also ultra-fast - the longest lived Rydberg molecule survives for just 18 microseconds. But the fact that the molecules can be made and seen confirms long-held fundamental atomic theories.

"This is a very exciting set of experiments," added Helen Fielding, a physical chemist from University College London.

"It shows that this approach is feasible, and it will be interesting to see what other fundamental physics we'll be able to test with it."

Prize-winning ideas

Professor Greene's prediction that Rydberg molecules could exist was inspired by another Nobel prize-winning piece of physics research.

When, in 1924 the Indian physicist Satyendra Nath Bose sent some theoretical calculations about particles to Albert Einstein, Einstein made a prediction.

He said that if a gas was cooled to a very low temperature, the atoms would all suddenly collapse into their "lowest possible energy state", so they would be almost frozen and behave in an identical and predictable way.

In a sense this is analagous to when a gas suddenly condenses into drops of liquid.

When scientists reached the goal of Bose-Einstein condensation, by cooling and trapping alkali atoms, Professor Greene realised that ultracold physics could be used to form molecules that simply would not exist in any other conditions.

Nineteen to the dozen

Nineteen to the dozen
Stats on the sale of mobiles are out and they just go on to prove that Chennaiites love to talk…
ANUSHA VINCENT- Times News Network

It seems we Chennaiites love to be in touch. How else would you explain the fact that while all other metros have shown a steep decline in the sale of mobile phones, Chennai alone has recorded 4.69 lakh new mobile phone users this year? So, now that it has been clearly established that we are a cell-phone-loving populace, the simple question is…why? “It is mainly because we Tamilians absolutely love talking!” exclaims TV anchor and actress Divyadarshini ( DD), “It’s in our blood. Inherently, we are garrulous and feel restless even if there is a moment’s silence. In this vein, mobile phones are lifelines for most of us as they hold our entire social lives in them!”

And rightly enough, most agree that while meeting over a cuppa and talking about good ol’ times is charming, in today’s hectic world, it makes more sense to have conversations over phone, wherever possible.

“People in Mumbai, Delhi and Bangalore party to socialise, Chennaiites do so by talking on the phone. In fact, I can say without hesitation that most of us would feel like Tom Hanks in Castaway, without our phones!” DD laughs.

However, socialising isn’t the only reason cell phones have got such giant status. “It would spell professional suicide if you don’t own a mobile phone,” points out model Kenith, “I need to keep wired in throughout the day, to keep in touch with coordinators, or to make appointments. It is laughable to even think you can survive without a mobile, in a world where every minute could be crucial in your life.”

Which brings us to the next point, Chennai has been listed as the city with the most SMS usage. Why this distinction (dubious or otherwise)? “Obviously because messaging is a lot simpler,” pips singer Kavita Thomas, “It is an easy way to have a conversation, even when you are not really free. Besides, it is also psychological. It is easier to get away with things when you type instead of talk.”

While the SMS rage that caught on some years ago has shown no signs of weakening, it is now becoming increasingly common to see school students typing away with lazy efficiency, while their sprightly fingers oblige without complaints. “Children are so intelligent these days and very inquisitive. So it is only natural that they are enamoured by the world of cell-phones where you are connected to the outside world 24/7,” muses Kenith, “However, they don’t know how much is too much. When mobile phones start eating into academic space, it is bound to become an issue.”

And then there are those who effortlessly juggle more than one mobile phone. A survey has found that the number of mobile phone subscribers as a percentage of the city’s population is the highest in Chennai, at 111 percent. This means that a sizeable chunk of the population has more than one mobile phone. Most of them are, of course, celebrities, but it isn’t strictly only them. Don’t be surprised if you notice the girl next door, swinging down the road, one phone in either hand. The reasons range from showing-off to, “I need to have two phones; my post paid connection doesn’t have free messaging, so I have another one just for the free messages,” as law student Deepika explains. And it isn’t only city students like her. Chennai has a floating population of more than one million. And for those in this category, it is imperative to own a mobile phone so that they can be in constant touch with family back home.

But while many feel that the mobile phone is one of the best things to have ever happened, there are those who see only its cons. Lecturer Ravishankar P is one among them. He concludes crisply, “We have reached a point where, given an option between human company and a mobile phone, we choose the latter. These instruments are perhaps isolating us more then we realise.”

Saturday, April 25, 2009

The Joy of Being Realistic


The Joy of Being Realistic
Written by Naren

There are many people who have either positive or negative approaches in life, but how many of them are realistic? Realistic means to look at things as they “really” are.

  • Do you look at things as they are?
  • Do you only look at the positive side or only the negative side?
  • Are your thoughts influenced by positive thinking or by negative thinking?

Let me start by sharing my thoughts:

Italian Neo Realism

After having read my articles you might have already presumed that I have a great passion for movies. In college I used to spend most of my time in the library engrossing myself in film books, than in the classes. As I was learning about films and filmmakers, I came across The Bicycle Thief, directed by one of my favorite directors, Vittoria De Sica. This film made in 1948 has made an indelible impact in my life. The film is an example of Italian Neo realism in the history of cinema. Films which belong to this movement were shot mostly in locations, with non-actors in the lead role, financed in a shoe-string budget, and typically featured the story of the working class family.

The Bicycle Thief is one great example of the realistic cinema. The protagonist needs a job to support his family, but jobs are scarce. He finds one, which requires a bicycle. He manages to buy one by pawning the family’s bed sheets. Unfortunately the bicycle is stolen on the first day of his work. Heartbroken, the protagonist, with the help of his young son, tirelessly and desperately searches for the bicycle all day, but with no success. Tired, frustrated and scared the protagonist steals a bicycle in the end, gets caught, and is beaten by the mad crowd in front of his son. Embarrassed he could not look into his son’s eyes. The film ends showing father and son walking along the way with their future lying in uncertainty.

This film renders universal emotions in a simple way, paints the grim picture of reality, and translates the story on the screen as it is, maintaining its universally comprehensible theme. It does not force on the viewer a message like “Oh! You have to be positive and good things will come along the way. Don’t think of negative, be always positive.” The story is a depiction of a sharp and poignant reality of the struggling family, the most profound portrayal of father and son relationship, and thus stands out as one of the best films of all time.

Positive Thinking -- A Sweet Candy

Those who say that you have to be positive are simply giving us false consolations and hopes. They are simply deceiving us. I am not into hope, I am into reality.

You can keep on hoping to build a castle in the air and stay positive, but do you think your positive thinking will produce the outcome you are hoping for.

Absolutely not! These are false dreams. You can keep on thinking about being as rich as Warren Buffet or Bill Gates and be positive about it, but do you think you will be rich as they are just by thinking positively.

Positive thinking is just like handing candy to a weeping child. When you give him a sweet candy, he will stop crying for the moment and then when it’s finished he will start crying again. How long can you keep on giving the child sweet candies? The very notion that: You have to be positive whatsoever happens to you, is wrong. And, by thinking positively do you think it will solve your problems. Do you think your miseries will disappear into thin air right away? Do you think by denying the negative, the negative will not be there. NO. By being positive, you are simply attempting to hide the negative. You are just being evasive and not acknowledging the other half of the truth.

Hence, we have to understand that, positive thinking is just one way of looking at things.

Similarly, negative thinking is the other way of looking at things. It is as wrong as positive thinking. I am not for or against either side. To me, both positive and negative are equally important as they comprise the whole. Just like every coin has two sides, there is day and night, there is life and death, there is joy and pain, there is beauty and ugliness –all of these things are complimentary to each other. This is the truth and this is the reality. Reality cannot be changed. A lie changes, but truth always remains the same. This is the way the Existence has planned things. There is nothing we can do about it. We just have to accept it. Total acceptance leads to understanding.

Final Thoughts

Have you ever seen the beauty of reality? Have you ever realized the joy of seeing things as they are in their whole or totality, instead of looking at only one side? There is so much joy in adopting a realistic approach in life – neither being positive nor negative – just accepting the way things are with grace and love. If you start practicing this holistic attitude from now onwards, you will see the result. You will be astounded to see how both positive and negative support and are interdependent to each other.

Let me conclude with one example: The lotus is a beautiful flower that blooms out of the mud. This is the positive way of seeing it. But, if there wasn’t mud for the lotus flower in which to grow, then it wouldn’t look so beautiful. This is being realistic, looking at both the mud and the lotus flower.

The Joy of Waking Up Early

The Joy of Waking Up Early
Written by Naren


In this article I will be discussing why we cannot sleep, some of the benefits of being an early riser, and how it can be achieved by employing a few small steps. The article turned out to be longer than I had expected, so I have divided it into three parts. Each part is self-contained, but I would recommend you to go through them in order.


Sleep from different perspectives and its significance in our life

Sleep is absolutely essential to all living organisms. During sleep, while we are in deep rest, all our cells, brain, blood and other parts of our body are actively involved in refreshing and revitalizing our energy for the next day. If we don’t get enough sleep, we cannot function properly and it can have a negative impact on our body and mind. Sleep deprivation can cause many dangerous illnesses many of which we are not aware. Hence, we should understand our sleeping pattern; otherwise it can hamper us physically, emotionally and mentally.

Let me share my own thoughts first.

Was I an early riser?

No. I wasn’t. For most of my life in America, I have been a night owl. Why? There are many reasons. I came to the United States as an international student. In college, I was staying in the dormitory where nobody went to bed until 4 or 5 o’clock in the morning. And, as far as I was concerned, I just couldn’t sleep – it was a drastic change for me. On one hand I couldn’t sleep because of the agony of missing family, and on the other hand it was being in a completely different society. There were just too many things on my mind. As I mentioned earlier, most of my friends were late nighters. What did we used to do? Nothing. Just goof on the computer, play video games, watch movies, play ping pong, drink, party… Then when we had papers due the next morning, and we would stay up all night rushing to finish just before class. I was a pretty good student, but I must admit that I had not always been an early riser. It’s quite easy to be influenced and persuaded, and be lazy while you are in college. During the summer I had an overnight job as well as a day job to support my study in the United States. And, I must confess, things were not easy even after my graduation. I worked a graveyard shift for a while until I found a day job. I still remember how I used to yearn for a good night sleep while working those graveyard shifts.

So, not being an early riser was not a choice but a circumstance for the most part.

This certainly has had adverse effects on my sleeping pattern and stripped me of enjoying the beauty of the morning, which I came to realize when I could afford to wake up early. Yes, for the last two years, I have been an early riser, and I always strive to be one. I don’t always force myself strictly to adhere to such a routine – but I always try my best.

Sleep in a Third World Country like Nepal

When I was in Kathmandu everybody would go to bed by 8pm and wake up at 6 or 7 in the morning. There was no need to care about what time to go to sleep or what time to wake up. It was the same routine for most people. And as far as I can recall, my mother always got up by 5am, took a shower and began her morning rituals. It has become her habit. Despite her age and health, she still tries to keep up with her morning schedule as much as she can. I remember asking her once how she is able do so. She said that it is up to you to treat your body the way you want, and that your mind plays a big role in determining your sleeping habits. You can be lazy and stay in bed, or you can jump off the bed right away and get involved in your work. Her answer didn’t quite quench my query, as I knew that she also couldn’t afford to sleep longer. Yes, in a poor nation like Nepal, to sleep long hours is a luxury as most people struggle day and night for their existence. If one is wealthy, even in poorer countries, he has the utmost luxury to sleep late or wake up according to his desire; but if you belong to the struggling working class then you are not only forced to get little sleep, but also to become an early riser out of necessity. What an irony…

Sleep in Western Society

Since, this article is mostly written with western readers in mind, even though it can be applied to all, I am going to elaborate more on this issue. Not being able to sleep has been a big concern in most of the western societies.

  • Why cannot we sleep?
  • What keeps us from sleeping?
  • Why people are staying up longer and longer at night?

Many books have been devoted to the answers to these questions– but, in my view the biggest reason why people can’t sleep is the anxiety, stress and the worry of coping with this fast paced society. Yes, the world is not same as it was two thousand years ago. People then didn’t have to worry about uncountable bills to pay, like we do – but then again they had their own problems as we have ours. Many things have changed over the years. The environment is different. Deforestation, global warming, pollution, increase in population, and unawareness among people have given rise to so much anxiety and stress that it’s hard to sleep. How can you sleep when there are a thousand and one things pacing back and forth in your mind? How can you fall into deep sleep when your mind has become crowded with your thoughts and worries? It would be extremely difficult. In addition there are people who have to work nights to support themselves. Then there are people who have the luxury of going to bed early, but they can’t sleep because they are so troubled or occupied. So, most people live their lives sleep deprived. The later they go to bed, the later they wake up in the morning. In addition, some people have to force themselves to wake up early for work. How can one function well if they don’t get enough sleep? And according to scientific survey, we do need at least 7-8 hours of sleep whatsoever.

Who is to be blamed?

The society, the government, the credit card companies, human being themselves… The whole system, the whole practice has become so neurotic that it’s impossible to blame only one factor. Two thousand years ago people used to go into meditation so easily. Our ancestors would fall into sleep when they lay their head on a pillow, now we are having so much trouble – Why? It’s definitely something worth pondering.

The whole system, the whole pattern, the whole mind, the whole society needs cleansing. The whole human consciousness has to go through the alchemy of change. Unless and until a ray of awareness touches us, we will continue to live our life in misery and agony. Unless and until, we realize how essential sleep is for a better, healthy, and productive life, we will keep on suffering.

As Temperatures Rise, Health Could Decline

As Temperatures Rise, Health Could Decline

Washington Post Staff Writer

Depending on where you are, this is going to be a hotter, wetter, drier, windier, calmer, dirtier, buggier or hungrier century than mankind has seen in a while. In some places, it may be deadlier, too.

The effects of climate change are diverse and sometimes contradictory. In general, they favor instability and extreme events. On balance, they will tend to harm health rather than promote it.

That is the majority view of scientists trying to solve an equation whose variables range from greenhouse gas concentrations and the El Niño weather pattern to mosquito ecology and human cells' ability to withstand heat.

"We are not dealing with a single toxic agent or a single microbe where we can put our finger with certainty on an exposure and the response," said Jonathan A. Patz, a physician and epidemiologist at the University of Wisconsin at Madison. "Climate change affects everything."

Predictions of how global warming could affect people's health are crude. They are based on the experience of the past several decades, when there has been a small, well-documented rise in the temperatures of the planet's atmosphere and oceans. What that says about the future -- a time when warming is expected to accelerate, but people may be able to prepare for it -- is quite uncertain.

In the last quarter of the 20th century, the average atmospheric temperature rose by about 1 degree Fahrenheit. By 2000, that increase was responsible for the annual loss of about 160,000 lives and the loss of 5.5 million years of healthy life, according to estimates by the World Health Organization. The toll is expected to double to about 300,000 lives and 11 million years of healthy life by 2020.

The biggest tolls were in Africa, on the Indian subcontinent and in Southeast Asia. Most of that increased burden of death and disease was from malnutrition, diarrhea, malaria, heat waves and floods. But those diseases will play a minor role, at best, in many regions that nevertheless will feel the effects of global warming.

To organize their thinking -- and to focus the attention of policymakers -- researchers tend to put the health effects of climate change into five groups.

Heat Stress


The most obvious effect of global warming is hotter weather.

Scientists predict that heat waves will be longer and more frequent in the future. Their worst-case effects may have been glimpsed in Europe's summer of 2003, the hottest spell there since the 1500s. About 30,000 people died of heat-related illness, including 14,800 in France in three weeks in August.

People who were old, very young, ill, immobile or poor were at highest risk. Although the human body can adapt somewhat to chronically higher temperatures, those groups will remain vulnerable -- and they are likely to make up a bigger slice of the population in the future.

About 20 percent of people in industrialized countries are over age 60 today. That figure will rise to 32 percent by 2050. More people will also live in cities -- 61 percent of the world's population by 2030, compared with 45 percent now. Cities are "heat islands," 9 degrees Fahrenheit warmer on average than surrounding rural areas and resistant to the cooling effects of night.

Aging and urbanization -- and possibly more obesity -- will put people at greater risk for heat-related illness. Nevertheless, that consequence of global warming may be easier to avoid than others, as a study published three years ago suggests.

It examined mortality on hot days in 28 cities in the last third of the 20th century. Death rates were lower in the 1980s and 1990s than in the 1960s and 1970s in most places, with the least reduction in cities of the Northeast and the Midwest. (A heat wave in Chicago in 1995 caused more than 500 deaths, the biggest U.S. toll in years.)

This steady decline in heat-stress death was almost certainly the consequence of air conditioning, better awareness of the problem and improved medical care.

"If there is a very effective response system, then even in hotter temperatures you may not see more deaths," said Kristie L. Ebi, an epidemiologist and consultant in Alexandria. She helped write the health chapter of the most recent report of the United Nations' Intergovernmental Panel on Climate Change, which was this year's Nobel Peace Prize winner along with Al Gore.

Extreme Weather


Climate change is expected to increase the severity of storms, especially ones associated with cyclical events such as the El Ni¿o Southern Oscillation.

Flooding is the most common weather disaster, responsible for the deaths of about 100,000 people and the displacement of 1.2 billion from 1992 to 2001. The worsening of this hazard will vary by region. It is expected to change little in Southeast Asia by 2030, but it may increase 50 percent in West Africa and quadruple in Central and South America.

In addition to storms, rising oceans threaten coastal populations. Of the world's 20 megacities, 13 are at sea level. Storm surges, while short-lived, can cause permanent damage, eroding land and damaging water supplies and cropland with saltwater.

Greater variability in weather patterns along with higher temperatures may lead to droughts and water shortages. Today, 1.7 billion people -- about one-third of the world's population -- live in places that have periodic water shortages. That number is expected to increase to 5 billion by 2025.

When it comes to food production, climate change will have varying effects. Overall, it will tend to slow the long historical decline in the number of hungry people.

In 1990, there were 520 million people at risk of hunger, according to a study by British and American scientists published in 2005. In the absence of global warming, that number was predicted to fall to 300 million by 2080. With global warming, it is expected to fall to 380 million, although under various scenarios of greenhouse gas reductions it could drop to 320 to 340 million, according to recent mathematical modeling.

Air Pollution


Climate change affects air pollution in two ways.

Heat speeds chemical reactions and consequently may worsen pollution from ozone and airborne particulates, or soot. It may also spur pollen production by some plants, which could in turn worsen asthma and allergies in some people.

One model of global warming's effects on air pollution in 15 eastern U.S. cities predicts that the number of days exceeding ozone standards will rise from the current average of 12 to 20 per summer by 2050. Deaths linked to that pollutant -- nearly all in people who have lung or heart ailments -- could go up 5 percent under that scenario.


Waterborne and Food-Borne Disease


Higher temperatures and torrential rains are likely to cause outbreaks of some diarrheal diseases.


The incidence of cholera -- a bacterial infection whose home is South Asia but that circles the world in slow epidemics -- depends in part on water temperatures in the Bay of Bengal and on monsoon rains. A recent study of waterborne-disease outbreaks in the United States in the past 50 years found that 67 percent were preceded by heavy rainfall.

Researchers in Australia have shown that the number of food-borne infections from salmonella bacteria goes up in hot weather.

Overall, climate change is expected to increase the burden of diarrhea, mostly in developing countries, by 2 to 5 percent by 2020.

Vector-Borne Disease


Scientists suspect that many diseases transmitted by insects and animals will become more common, although there is more uncertainty about this than other consequences of global warming.

Dengue and malaria, carried by mosquitoes, are most likely to increase. Under some projections, Africans will be exposed to malaria 25 percent more of the time in 2100 than they are now.

That risk, however, could be offset by controlling mosquitoes with pesticides, the use of bed nets by children and pregnant women, and better medical care.

Other diseases that may become more prevalent are yellow fever (also carried by mosquitoes), schistosomiasis (by snails), leishmaniasis (sand flies) and Lyme disease (ticks).

The Role of Planning


In the United States, most public discussion of global warming has been about ways to slow the phenomenon, and not about ways to dampen or prevent effects that are already inevitable.

"We are a good decade behind Europe in designing and developing adaptations that will decrease our vulnerability and increase our resilience," said Ebi, the epidemiologist.

Such planning is wise not only for the federal government and states, but for cities and towns as well, Ebi believes.

"The impacts of climate change really do depend on your local context," she said.



Thursday, April 23, 2009

How to Make Up Your Mind to Succeed


Mind-set is key to finding success for yourself and your children


Well-intentioned parents have unwittingly left their kids defenseless against failure. The current generation of millennials (born between 1980 and 2001) grew up playing sports where scores and performance were downplayed because "everyone's a winner." And their report cards had more positive spin than an AIG press release. As a result, Stanford University psychologist Carol Dweck, PhD, calls them the "overpraised generation." Fortunately, once you understand the situation, there's some quick corrective action that can be taken. And even if you're well past your child-rearing years, her advice will help you better withstand setbacks.


Dweck has been studying how people handle failure for 40 years. Her research has led her to identify two distinct mind-sets that dramatically influence how we react to it. Here's how they work:


A fixed mind-set is grounded in the belief that talent is genetic--you're a born artist, point guard, or numbers person. The fixed mind-set believes it's entitled to success without much effort and regards failure as a personal affront. When things get tough, it's quick to blame, withdraw, lie, and even avoid future challenge or risk.


Conversely, a growth mind-set assumes that no talent is entirely heaven-sent and that effort and learning make everything possible. Because the ego isn't on the line as much, the growth mind-set sees failure as opportunity rather than insult. When challenged, it's quick to reassess, adjust, and try again. In fact, it relishes this process.


We are all born with growth mind-sets. (Otherwise, we wouldn't be able to survive in the world.) But parents, coaches, and teachers often push us into fixed mind-sets by rewarding certain behaviors and misdirecting praise. Dweck's book, Mindset: The New Psychology of Success, and online instructional program, brainology.us, explain this in depth. But she says there are many little things you can start doing today to guarantee that your kids, grandkids, and even you never get derailed by failure.


FOR KIDS


In school

Never compliment a child by saying "You're so smart" or "You picked that up so quickly." Instead, praise effort or strategy by saying "That was clever of you to take that approach" or "I'm proud of your persistence." Listen for similar remarks from teachers and correct them.


In sports


Instead of "You're a natural," say "Practice is really making you better." Instead of inquiring "Did you win?" ask "Did you give your best effort?" Explains Dweck, "Talent isn't passed down in the genes; it's passed down in the mind-set."


At the dinner table


Instead of the standard "How was your day?" (which everyone dreads anyway), ask "What did you learn today?" or "What mistakes did you make that taught you something?" Describe with zeal something you're struggling with. "Instill a passion for learning," says Dweck.


In making plans for the future


Don't just ask about goals; ask about the plan for reaching those goals.


In frustration


Don't permit children to refer to themselves as losers, failures, stupid, or clumsy. "Never let failure progress from an action to an identity," says Dweck. Likewise, don't label your kids. Don't say this one is the artist, and this one is the computer geek. Anyone can be anything.


In doubt


If you encounter skepticism, ask the child to think of areas in which she once had low ability and now excels, or to recall a time when she saw someone learn something or improve in ways not thought possible.


FOR YOU

At work

Instead of letting salary, benefits, and status define job satisfaction, ask yourself if you're still learning. If the answer is yes, then you're fortunate to have a job that encourages a growth mind-set. View its challenges as opportunities rather than stress. If you've stopped learning, then consider looking either for new avenues of growth or for another job.


In relationships


Blame never resolves anything. It's merely the fixed mind-set insisting that you're right. The next time you're tempted to blame, says Dweck, remember that "the whole point of marriage is to encourage each other's development."

When feeling down

People who are depressed tend to believe that's just the way they are. Instead of viewing yourself as a failed end product, think of yourself as a temporarily derailed work in progress. "We usually think of personality as something very stable," says Dweck, "but we're finding that even core parts of it can be changed by shifting mind-sets."

The sun's cooling down - so what does that mean for us?


The sun's activity is winding down, triggering fevered debate among scientists about how low it will go, and what it means for Earth's climate. Nasa recorded no sunspots on 266 days in 2008 - a level of inactivity not seen since 1913 - and 2009 looks set to be even quieter. Solar wind pressure is at a 50-year low and our local star is ever so slightly dimmer than it was 10 years ago.


Sunspots are the most visible sign of an active sun - islands of magnetism on the sun's surface where convection is inhibited, making the gas cooler and darker when seen from Earth - and the fact that they're vanishing means we're heading into a period of solar lethargy.


Where will it all end? Solar activity varies over an 11-year cycle, but it experiences longer-term variations, highs and lows that can last around a century.


"A new 11-year cycle started a year or two ago, and so far it's been extremely feeble," says Nigel Weiss of the University of Cambridge. With Jose Abreu of the Swiss Federal Institute of Aquatic Science and Technology in Dübendorf and others, Weiss recently predicted that the long-term solar high we've been enjoying since before the second world war is over, and the decline now under way will reach its lowest point around 2020. Their prediction is based on levels of rare isotopes that accumulate in the Earth's crust when weak solar winds allow cosmic rays to penetrate the Earth's atmosphere.


There's even a chance, says Weiss, that we might be heading for a low as deep as the Maunder minimum of the 17th century. Either side of that trough, Europe shivered through the Little Ice Age, when frost fairs were held on the Thames and whole Swiss villages disappeared under glaciers. So should we expect another freeze?


Those who claim the rise in temperatures we've seen over the last century are predominantly the result of intense solar activity might argue that we should, but they're in the minority. Most scientists believe humans are the main culprit when it comes to global warming, and Weiss is no exception. He points out that the ice remained in Europe long after solar activity picked up from the Maunder minimum. Even if we had another, similar low, he says, it would probably only cause temperatures on Earth to drop by the order of a tenth of a degree Celsius - peanuts compared to recent hikes. So don't pack your suncream away just yet.

Wednesday, April 22, 2009

Measuring the World by Daniel Kehlmann-Reviews


Measuring the World by Daniel Kehlmann,
Translated by Carol Brown Janeway
Prussian aristocrat Alexander von Humboldt (1769-1859) was an indefatigable naturalist and geographer, the first to describe South and Central America scientifically. Carl Gauss (1777-1855) was a mathematician and physicist of genius whose work in number theory, differential geometry and magnetism shaped those fields and many others to this day. Out of these dry bones Daniel Kehlmann(Pic) has constructed a magnificent novel, which is already a bestseller in his native Germany and elsewhere in Europe.
Both Humboldt and Gauss were concerned with the measurement of the world - with the displacement between one part of space and another and the relation of that gap to temporal intervals and theoretical absolutes. Humboldt constantly took readings during his vast journey - the height of every mountain, the line of the equator, the exact number of lice on the head of a servant - while Gauss conceived space as a mathematical reality in which even lines were merely an abstraction; yet his space was, in its way, as full of life as Humboldt's.
Given that its theme is displacement, it is appropriate that the occasion of the novel is a journey. In September 1828, at von Humboldt's instigation, Gauss left his home town of Göttingen to attend the German Scientific Congress in Berlin. Although he meets von Humboldt by the end of the first chapter, it will take the whole book for there to be a meeting of minds between these two giants of the German intellect, with Kehlmann boxing and coxing between the two chapter by chapter.
Their personalities, deftly brought to life with incisive strokes, are not quite what you expect. Although brought up to greatness - largely in competition with his philologist-diplomat brother - the patrician Humboldt is free of pride, forgiving of those less gifted than himself. By contrast Gauss - a child prodigy born in poverty - is overbearing and intolerant. Humboldt's taste for boys hardly emerges; he's the opposite of the licentious courtier, whereas Gauss ruts like a farm animal. There is nonetheless something endearing about the conjunction in Gauss of high theory and low sensuality, as exemplified by his Shandyesque pre-coital leaping up on his wedding night in order to write down a proof.

One of the products of Gauss's unions is Eugen, his poor son who accompanies him on the trip to Berlin, mainly serving as a target for jibes from his father about his stupidity and disappointing inadequacy. Very soon on their journey another of the book's major themes is picked up - the relationship between mathematical and scientific advances and the great coming wave of political revolt that would sweep over Europe in 1848: "Viewed from up close, one could detect the infinite fineness of the web of causality behind every event. Step back and the larger patterns appeared: Freedom and Chance were a question of distance, a point of view. Did he [Eugen] understand?"

After an ironic aside about novels, ("the perfect way to capture the most fleeting essence of the present for the future") and historical novels in particular ("a foolish undertaking for an author, as was becoming the fashion these days, to choose some already distant past as his setting"), we plunge into Humboldt's early life and adventures abroad. He intends, as he tells Goethe and Schiller, to explore the New World. Very soon he is correcting a ship captain's navigation in the nicest possible way, then hauling his Gaussian sidekick Bonpland off a naked brown woman in Tenerife.

Bonpland provides a foil for Humboldt's otherworldliness during subsequent landfalls, always looking for the next shag while his master measures relative dampness and scratches moss off walls. Even though it is Humboldt who is investigating the real, it seems as though the very act of measurement is seducing him away from it, while Bonpland has no such illusions.

Gauss himself has no sidekicks, unless they be numbers, which far from seducing him away from reality bring it closer, making it "clearer and more meaningful in a way it had never been before". His work as a land surveyor, sticking geodetic instruments into the ground to measure relative distances, seems like a distraction from number theory, but it will lead him to one of his greatest discoveries: that contrary to Euclid, parallel lines do meet. And that's not the end of it: space itself is "folded, bent, and extremely strange".

Alas Kant, the only person who might not think this idea mad, does not get it and Johanna, to whom Gauss has proposed, will not have him. He resolves to take curare - by mouth, which, as Humboldt will later tell him, has only a dizzying rather than a fatal effect. Gauss experiences a personal displacement, losing his own "I" as a messenger comes to tell him that Johanna will accept after all: "A knock at the door. A voice, vaguely like his own, called. Come in!" Gauss's dizzy spell is paralleled by Humboldt's encounter with electric eels on the Orinoco (the shock "seemed more like something that belonged to the outside world than to one's own body"). From thence on in the novel the parallel lines of these two life narratives come increasingly close, bringing us back towards the meeting in Berlin, where Eugen finds himself arrested by the Prussian police, after stumbling into a political meeting.


Along the way Napoleon has invaded Germany and been deposed, and Gauss has hardly noticed. Anyway, says Johanna, about conflict she already knows what he's going to say: "Looked at from the future, both sides would cancel each other out and before long nobody would be getting excited about the things people were dying for today." But, she adds, "What difference did that make? Cozying up to the future was a form of cowardice."


Suddenly the time-bending as well as space-bending genius of Kehlmann's construction is laid bare: we might not be able to get that excited nowadays about the Napoleonic wars - during which this novel is set - but reading Johanna's observation about cozying up makes us think about what people in the future may one day think about a present conflict, such as Iraq.


Kehlmann has the contemporary novelist's fascination with territorial politics and the poetics of space. This reassessment of the geographical perspectives and spatial assumptions in literature is in evidence everywhere, from the topomania of Iain Sinclair and Peter Ackroyd to Zadie Smith's remapping of Forster's England on America in On Beauty and Jim Crace's reversal of westward migration in The Pesthouse. Measuring the World's power is all the more acute because it harnesses to this spatial turn the sense of history in process which is key to the best historical novels. For readers in Europe today the irony of the ending, which sees Eugen heading westwards to an America that's still an icon of liberty, is no less part of the process. Yet any holder of that point of view should beware, lest they too find themselves translated to another time or place, somewhere with different values. Good novels can be perspective machines like that.

Tuesday, April 21, 2009

The Ancient Secrets of Plastic Surgery


Nose jobs and other forms of plastic surgery are nothing new – people have been performing them for thousands of years.


With no anaesthesia except opium, and using pieces of straw for nostrils, Indian medicine men were carrying out nose jobs in ancient times. The demand came mostly from men mutilated by war or punishment.


Walking down the dusty streets of 18th-century Mysore, India, a British officer was startled by a local merchant with a scarred forehead and misshapen nose. Intrigued, he asked about the man’s appearance, and learned that he had been found guilty of adultery and had had his nose cut off as punishment. A vaidya – a Hindu holy man – had fashioned him a replacement using the man’s own skin. This chance meeting introduced the notion of plastic surgery to America and Europe.


Reconstructive surgery had been practised in India for more than 2000 years, but it was a medical feat unknown in the West. When an account of a grafting operation was published in the Gentleman’s Magazine of London in October 1794, it attracted much interest.


It has long been accepted that ancient civilisations possessed the ability to carry out basic surgical operations. An ancient Egyptian manuscript known as the ‘Edwin Smith Papyrus’ dating from about 3000 BC contains advice on how to treat fractured noses and jaws, and directions on stitching and cauterising (sealing wounds by burning). Skeletons excavated from a craftsmen’s village near the Valley of the Kings show that when these labourers sustained fractures their bones could be reset and splinted. But medical historians are still surprised by the discovery that plastic surgery involving extensive reconstruction was carried out centuries before the invention of anaesthesia.

The Tragic Obsessions of a Tycoon


The Tragic Obsessions of a Tycoon

Legendary aviator and movie mogul Howard Hughes could afford anything he wanted. Yet he spent the last quarter of his life as a recluse, addicted to drugs and teetering on the brink of insanity.


Born on December 24, 1905, in Houston, Texas, Howard Hughes learned from an early age that money talks. His millionaire father owned the Hughes Tool company, which manufactured equipment for the oil industry and he had a comfortable childhood.


Yet Hughes never graduated from high school and was only able to attend classes at the California Institute of Technology because his father gave a generous endowment to the Institute. Hughes returned to Texas and enrolled at the Rice Institute in Houston, but when he was 18 his father died – and he left without his degree.


His father’s will decreed that Hughes was to take over the Hughes Tool Company at the age of 21. But after having himself declared to be of legal majority, Hughes appointed former racing driver Noah Dietrich as the company’s head of finance. It was a stroke of genius; over the next few years, Dietrich was instrumental in driving the company’s prosperity.


Movies and women

Besotted by the burgeoning movie industry, in 1925 Hughes went to Hollywood. He produced three films, then turned to writing and directing. In his first film, Hell’s Angels, the largest private airforce in the world was used to re-create aerial dogfights from the First World War.


Two of his later films tested the limits of public morality. Scarface (1932) was censored because of its violence and Hughes had to sue to allow its release. The Outlaw (1941) was controversial for its sexually explicit advertising and content, featuring a sensational décolletage worn by its star Jane Russell. Hughes had used his engineering expertise to create the half-cup bra modelled by Russell.


In 1948 Hughes took over the RKO studio. During the McCarthy era, as Hollywood was investigated for its supposedly pro-communist leanings, he was staunchly anti-communist. The studio was closed for six months while the politics of his employees were investigated – and completed pictures were re-shot if Hughes felt that their anti-communist politics weren’t sufficiently clear.


Hughes’s affairs with women were legendary. Although married to Ella Rice, a Houston socialite, in 1925, from 1928 he was linked to a string of movie stars: Jean Harlow, Katherine Hepburn, Ava Gardner, Terry Moore, Lana Turner, Rita Hayworth and Janet Leigh. There were also rumours of gay liaisons with a number of actors. He divorced Rice in 1929. In 1957, he married actress Jean Peters, but they divorced in 1970.


Round the world in record time


Towards the end of the 1920s, Hughes acquired a fleet of aircraft. In 1932 he formed the Hughes Aircraft division of the Hughes Tool Company. The firm went on to pioneer many innovations in aerospace technology.


Hughes had acquired his pilot’s licence during the filming of Hell’s Angels. From then on, the most exhilarating hours of his life were spent in the air.


A childhood illness had left him with tinnitus and a continual ringing in his ears. He was too proud to wear a hearing aid, and only in the cockpit of a plane did the ringing cease.


Flying became an obsession. Hughes set a number of world records, often in aeroplanes designed by himself. In 1935 he reached a speed of 350 miles per hour in the H-1 Hughes Racer. In 1938, he flew round the world in 3 days, 19 hours, and 17 minutes.


But in 1946, Hughes was piloting an experimental US Air Force spy plane, the XF-11, when it developed an oil leak. Crash-landing to save the plane, he suffered numerous injuries included a crushed collar bone, six shattered ribs and third-degree burns. Only morphine made the pain bearable and Hughes became dependent on the drug for the rest of his life.

Who Invented the Light Bulb?


Who Invented the Light Bulb?

If you answered Thomas Edison, think again.


At the end of the Civil War in 1865, the reunited states of America entered a new era of commerce and entrepreneurship. Businessmen made their fortunes supplying the vast marketplace of the Midwest with the latest domestic appliances and tools. Lighting was one area in which huge technological strides were made. And with the development of electricity as a reliable power source, a race began in the late 1870s to patent an efficient form of electrical lighting. At the forefront of this contest were two American inventors, Thomas Alva Edison and Hiram Maxim.


Edison was already famous for his invention of the phonograph and various telegraph instruments. But he was at least as much a businessman as he was an inventor. Edison approached investors directly rather than submit himself to the industrialists and their specifications. His experience of developing prototypes of other inventions had made him familiar with the loopholes in patent laws. As a result Edison's usual practice was to patent every advance made by his research team, however small.


Hiram Maxim, on the other hand, was an archetypal inventor - ploughing away, busily working on ideas, but not giving a thought to their commercial potential until after the final "eureka" moment.


In his mid 20s he had invented the first sprinkler system in Boston, only to fail to impress investors of its worth. In 1878 he was hired by Hans Schuyler of the US Electric Lighting Company in New York. As a further incentive, over and beyond his wages of $10 a day, Maxim was due a quarter share in anything he produced for the company. Aware of the inventor's work on gas machine lighting in Massachusetts, Schuyler placed him in charge of operations to produce electric light. Within a year Maxim had installed the first electrical "arc" lighting system in the Equitable Insurance Company building in New York.


Out of the arc


Arc lights worked by building up charge on a carbon rod until an "arc" of electricity crossed to a second rod. With sustained charge build-up, the arc sparked continuously, producing light. Arc lights wasted a great deal of energy and could be dangerous. It became a question of who would be first to find a way to channel current through a filament and sustain it without burnout.


Edison witnessed demonstrations of an early version of an unstable arc light in 1877, and in an interview with the New York Tribune in 1878, announced his intentions to design an incandescent lamp. When asked about the financial rewards of being the first man to make such a product, he replied: "I don't so much care for fortune as I do for getting ahead of the other fellow." He revealed that his platinum wire filament kept melting, and said, "I want to find something better." To help him in this quest, he founded his own fully staffed laboratory, complete with skilled glass blowers.


For all his rhetoric Edison had a lot of ground to make up. By 1878 Hiram Maxim had built a working light bulb using a filament made of carbon inside a bulb filled with gasoline vapour. The bulb stayed lit and did not burn out. Maxim applied for a patent on October 4 "on the principle of preserving and building up carbons in an incandescent lamp". If his application had been successful he would now be recognised as the official inventor of the light bulb. But he was to run into a quagmire of bureaucracy, bitter lawsuits and deliberate obstruction.


Wednesday, April 15, 2009

Nano - The Next Big Thing


Scientists predict it could have as much of an impact as the industrial revolution did.
Michael Franco

First there was plain old small. The Japanese perfected that with the transistor radio, then the Walkman. Then we had mini - Alex Issigonis shrunk the car down to city-friendly proportions. Next came micro, as Gordon Moore introduced the microprocessor and founded Intel on the strength of it. Now we have gone even smaller: nano.


Derived from the Greek word for "dwarf," nano refers to all things that take place at the sub-microscopic level. The usual measure of length at this level is the nanometre, which equals one one-millionth of a millimetre. That's small - very small


If you shrunk human beings down to this size, you could easily line up every single person on the planet from one side of an average bedroom to the other - with plenty of space left over.So while things at the nanoscale are tiny indeed, many expect the work being done in this field will have a gargantuan an impact on society. Scientists predict it could have as much of an impact as the industrial revolution did. You could almost say small size matters big.


Nanoparticles

Because they can enter and be absorbed by the body more effectively, nanoparticles - which have at least one dimension of less than 10 namometre - are now appearing in a whole host of consumer goods. This includes hairsprays, bug repellents, moisturisers, sunscreens and deodorants. And thanks to a company in China, you can even drink nanoparticles of pulverised leaves in a bottle of nano-tea.

Ironically, the super-absorbability of nanoparticles has consumer watch groups uneasy, and several have called for studies to track the effects of such tiny particles inside the human body.

Sometimes though, the theoretical risks of nanoparticles are outweighed by the tangible benefits. That's certainly the case at the Emory-Georgia Tech Nanotechnology Center where scientists have linked gold nanoparticles to antibodies which are drawn to cancer cells. Once inside the rogue cells, the golden hitchhikers can be beamed with a laser to determine tumour size and location, acting as an early detection system


Other researchers find silver more attractive than gold because of its natural ability to resist and fight bacteria. They're embedding silver nanoparticles into everything from soaps to mobile phones. Pooghe Laundry in the United States has even created germ-resistant nanotech underwear.

And soon, movie-goers might be able to enjoy a ring-free entertainment experience - once the theatre walls are coated in a new nanoparticle paint that blocks mobile phone signals.


Nanofibres

Nanofibres are defined as fibres with diameters less than 100 nanometres, roughly one-thousand times thinner than a human hair.

These liliputian filaments have already woven themselves into our lives in the form of substances like Nano Tex, used by clothing manufacturer Eddie Bauer to keep shirts and pants stain resistant. Researchers at Ohio State University, by treating nanofibres with certain chemicals, can alter their properties to attract or repel various substances like oil. Coating a sheet of glass with such dirt-repelling fibres, which are invisible to the human eye, could mean never having to wash windows again

Nanofibre bandages that would heal wounds faster and fight infection harder than traditional wraps have already been through clinical trials and may be on the market later this year.

And, most significantly, Northwestern University science professor Samuel Stump has just developed a method of restoring the mobility of paralyzed mice. He injects them with a liquid that assembles itself into a nanofibre scaffold along which nerves can grow to repair damaged spinal cords. Which proves once and for all that sometimes, the biggest things really can come in the smallest of packages.

And, most significantly, Northwestern University science professor Samuel Stump has just developed a method of restoring the mobility of paralyzed mice. He injects them with a liquid that assembles itself into a nanofibre scaffold along which nerves can grow to repair damaged spinal cords. Which proves once and for all that sometimes, the biggest things really can come in the smallest of packages.


Buckyballs

If you've ever seen a dome-shaped house, then you have some idea of what a buckyball looks like. These tiny particles are named after the inventor of the geodesic dome home - architect and engineer R. Buckminster Fuller - and are also remarkably similar to traditionally-stitched footballs. Just like their inflated cousins, buckyballs can bounce and spin. But crush one under extreme pressure, and it snaps back into shape when the pressure abates.

What makes buckyballs so tough? The lines that make up their cage-like structures consist of carbon bonds - the strongest molecular bonds found in nature.

Because of their incredible might, researchers at Rice University have figured out a way to use them as mini-crates to store compressed hydrogen. Before this discovery, there was simply no way to compact this potential fuel-of-the-future for efficient storage in a car's gas tank.

Medically, buckyballs are being studied for their sneeze-stifling abilities because they can prevent certain cells from releasing histamine into the body. They're also great free radical sponges and may someday work to soak up these cancer-causing substances in our blood streams.

In a truly futuristic development, buckyballs have been used as the wheels of the world's smallest car which measures just 3x4 nanometres. The hope is that one day small vehicles like this could work as pick-up trucks delivering atoms around molecular-sized nanofactories.


Carbon Nanotubes

If you held a piece of paper on its edge and tried to balance a teacup on it, the results would be obvious, and messy. Roll that paper into a tube however and then put the teacup on it. Voila, you have something very light supporting something relatively heavy.

This is the idea behind carbon nanotubes which are formed by rolling up a sheet of honeycomb-like carbon molecules. The process creates the strongest substance on earth - tiny tubes that are 100 times stronger than steel, yet six times lighter.

Researchers at the University of California have exploited the electricity-producing ability of carbon nanotubes by using them in artificial muscles that can not only repair themselves but can generate enough power through their expansion and contraction to actually charge your iPod.

Nanotubes can also channel sound frequencies and, in fact, one has been used as the world's smallest radio, appropriately broadcasting "Good Vibrations" by the Beach Boys.

Scientists at Rice University and Rensselaer Polytechnic Institute in America have even produced a darker colour black by stacking carbon nanotubes on end like bristles on a brush. Because light slips between the tubes and gets swallowed instead of reflected, the colour appears much darker than any black to date. This new material can store energy from light sources, including the sun, and militaries worldwide are interested in its ability to make the "cloak" part of "cloak-and-dagger" even more clandestine.

Discover More:

http://www.nanotechia.co.uk/content/aboutus/

http://www.crnano.org/

http://www.northwestern.edu/newscenter/stories/2008/04/SpinalCordInjury.html

Unfair Advantage


Today’s stealth technology is close to making every warrior’s ultimate goal of being invisible to the enemy a reality. Using plasma clouds, radioactive paints, light-bending cloth and deadly-silent power plants, the prospect of war could turn into a decidedly one-sided proposition.
By Mark Davis

(Stealth technology also known as LO technology (low observable technology) is a sub-discipline of military electronic countermeasures which covers a range of techniques used with aircraft, ships, submarines, and missiles, in order to make them less visible (ideally invisible) to radar, infrared, sonar and other detection methods.)

Barricaded behind the rubble of a shattered village, heavily armed fighters watch as enemy troops pick their way down a distant hillside. It is daytime and the glaring sun can easily play tricks on even the most experienced eyes, but the defenders watch in bewilderment as one by one, the approaching soldiers reach up to their helmets, flip a switch and seem to vanish from sight. Without the slightest warning of any sound, there are suddenly a half dozen helicopters, bristling with weapons, hovering above the encampment like a swarm of deadly insects, soundless and fading in and out of sight behind shimmering waves of heat.

Off balance, unsure where to shoot first, one of the better-hidden fighters takes aim at a still-visible foot soldier. The instant his bullet leaves its barrel, a cluster of geo- metrically arrayed microphones on an approaching vehicle triangulates the shock wave and delivers 3D co- ordinates to a soldier's aiming aid. One shot, threat eliminated.

Sounds far-fetched, but the world's major military powers aren't just dreaming about such systems.

"Take Michael Callahan of the Pen- tagon's Defense Advanced Research Projects Agency. He is tasked with making the futuristic scenario hap- pen today for the US military. "It is my goal to provide our men and women with an unfair advantage over the enemy," he says.

Up in the Air

While military technology co-opted the term "stealth" 40 years ago, the first large-scale attempt to hide armies and weapons goes back to World War II, with the introduction of patterned camouflage uniforms.

"Stealth," as weapons expert Da- vid Hambling puts it, "comes down to not being spotted by whatever is most dangerous to you.

"This is as easy as sticking grass in your helmet for infantry soldiers, but WWII aircraft engineers grap- pled with ways to minimise airframe silhouettes against the daytime sky.

At first they tried painting the underbelly of the airplanes white, or pale blue, to match the sky. They soon realised, however, it was the shadow - not the colour - that made the dark dot in the sky. To get rid of the incriminating shadow, engineers attached fluorescent lights under the fuselage and wings that pilots could dim or brighten to match the time of day. It wasn't perfect, but gave pilots some virtual invisibility.

The quest to make planes invis- ible received an unexpected boost when US space programme scien- tists from NASA noticed that early spacecraft went dead to radar and radio waves upon re-entering the atmosphere. This occurs because the friction heating on re-entry creates a plasma "bubble" around the craft, making it vanish from radar screens. Called plasma aerodynamics, the concept seems right out of an episode of "Star Trek," but several inventors say they have a way to cre- ate "cloaking devices" for real.

One suggestion involves an on- board particle accelerator that zaps the atmosphere immediately in front of the aircraft, laying down "a carpet of invisibility" to fly into.

Another method advocates us- ing an on-board super-conductor magnetic coil to engulf the craft in a radar-absorbing plasma cloud. A third suggestion involves painting warplanes with radioisotopes that would ionise the surrounding atmo- sphere, creating a plasma sheath.

The beauty of flying your airplane in a plasma sheath is that it also sig- nificantly reduces drag, by as much as 3 percent. The one drawback of painting a fighter, bomber or recon- naissance plane with radioactive isotopes is that they will glow in the dark. There is speculation that some of the glowing in the night skies over the notorious "area 51" in the US state of Nevada, widely speculated as being caused by UFOs, might instead have been the result of the US Air Force's top-secret experi- ments using radioactive paint on U-2 spy planes.

Other stealth approaches involve using high-tech materials that could either scatter incoming radar waves, or even switch their wavelengths, thus confusing the trackers by turn- ing the aircraft's radar signature into random noise.

Lost at Sea

The Swedish Navy leads the way to invisibility on the high seas with its corvette-class Visby warship. Made from the same ultra-hard, carbon- fibre material used in Formula One racing cars, the Visby is light and quick and uses less fuel than more conventional ships in its class.

NAIR-SAN


Pic:orginal Nair-san with his family

AN INDIAN FREEDOM FIGHTER IN JAPAN
A.M.Nair known as NAIRSAN

Youth leader, patriot, colonial Britain’s Bete Noir, technocrat, linguist, advisor to the Indian diplomatic mission in Tokyo and eventually a business entrepreneur, Ayyappanpillai Madhavan Nair.

Following his schooling in his home state of kerala, he graduated as a civil engineer from Kyoto University in Japan. After a short stint as an engineer he was drawn inexorably into Japanese politics in which he functioned sometime as a Ronin, that character of rightwing activists who sought no personal rewards but wielded the highest influence in the country.

Nairsan, as he is commonly known, has lived in Japan for over half a century and also spent several years in Manchuria. Here he was an unofficial advisor to the Manchukuo government and the Kwangtung army and also conducted anti-colonial movements against British imperialism in India and other parts of Asia.

His advisory function was invariably marked by complete objectivity, integrity and independence, quality which earned him deep respect all round. For various purposes of his dealings with them the Japanese government recognized him as a personally equivalent in status initially to a major general and later to a lieutenant general.

Waging a most hazardous one-man crusade against the wool trade from Mongolia and Tibet to England, he successfully stopped the shipment of the goods to Manchester and Lancashire. During his Mongolian adventures which took him to regions some of which no other Indian has ever visited, he assumed many secret identities - a living Buddha, a camel caravan expert and a Muslim priest among them.

With Japan’s entry into the second world, Nairsan joined the Indian independence league in Japan and the south East Asian countries under the leadership of Rash Behari Bose – the legendary revolutionary in exile. Here he served as co-founder of the league and the chief link between the Indian freedom movement and the Japanese government.

In their forthright approach these memoirs constitute a valuable contribution to the history of India’s freedom struggle abroad.

In recognition of his dedicated and sustained contribution to the strengthening of friendly and cordial relations between India and Japan, Mr. Nair was awarded the exalted decoration of the order of merit of the sacred treasure (Kun zuihosho) by emperor Hiorohito in November 1984.

NAIR SAN: The legendary indian patriot in world cinema

1964 Japan Olympics. It was a thrilling moment for India when Indian Hockey Team won the Gold. But when the National anthem was being played at the medal distribution ceremony one among the crowd began shouting at the Japanese Government only because of the fact that instead of India ’s National Anthem the authorities played Pakistani National Anthem. Even though there were many officials and great personalities from India who were witnessing the incident none raised their voice other than this great Indian. That was the Indian legendary hero Ayyapan Pllai Madhavan Nair famous as Nair San in Japan. This is only one of the incidents which show the patriotism of this great man who became the reason for ending the Asian exploitation by the British during the freedom struggle.
For those who know Nair san personally he is special in different ways. Nair San had to leave his native land Kerala at the age of 18 as he campaigned among the students and led protests and marches against the social injustices of the British. He rebelled against the Education tax polled by English rulers. Being settled in Japan he struggled hard to root out the imperialism in Asian Countries. At the same time freedom fighters in India assembled men against English rulers. His efficiency in Japanese, Chinese and Spanish languages lifted him above all other Indian freedom fighters in Japan such as Netaji Subhash Chandra Bose, Rash Behari Bose, Pratap Singh, Barkathullah etc. Thus Nair San became an ever lively presence in the strong and well arming agitation organized by Indian National Army and Indian Independence League.
Many thrilling moments in the life of Nair San are unknown.. His strange experiences and dangerous encounters taking the roles of a trader, a Holy lama and a Soofi during his one man expedition and exploration through the deserts and Plateau of Manchukia , Ala Shaan , Mongolia , Tibet , and China in 1933 paved the way for ending the illicit wool trade of the British which contributed the major source of their income.
When a renowned film Director from Kerala like Albert honored with awards for his debut film decided to take up the story of Nair San for his next film it is a prestigious moment for the whole of India as the film is being designed in such a way so as to attract the aesthetics of the International audience. Albert’s passion and vision on Nair San is complemented by his tremendous urge to discover new eras on the subject and to create a truly international class Asian film spanning different cultures, languages and religions. The adventurous life of Nair San lighted the flame in Albert’s mind to create such a film where the Director’s creative concept is used more than the mere historical approach. The story is based on ‘Memories of Nair San’ the biography of A.M.Nair and the creative concept is developed by Albert himself.
Padmasree Mohanlal acts the lead role in the first Japanese film directed by an Indian. The other two famous actors in the film are selected from Bollywood. The leading Japanese actress is preferred to be the heroine of Mohanlal. As Nair San married a Japanese lady it is the perfect recreation by the director himself to select a Japanese actress as the heroine.
The world action hero Jackie Chan also in this film to play the role of a Cameo”,
Music maestro A.R.Rahman will be doing music for the film. The traditional Mongolian & Japanese songs included in the film will be a different experience for the music lovers. The $7.5 million budget film is said to be a different experience for the film lovers worldwide as it is the result of the hard work and enthusiasm of a handful of talented artists. As Japan is the second largest film market in the world the revenue calculated from the movie will be much more than the budget of the film. The major location of the film is Japan, Mongolia and India . The schedule of the film is planned within 145 days and it is expected to release by the end of 2008. Albert had been in hazardous attempt to secure all the detailed knowledge for the perfection of the film.

Data faked on Hitachi-built atomic plants

Hitachi Ltd. said Monday it has discovered that data were falsified in connection with equipment at two nuclear plants in Shizuoka and Shimane prefectures, but shrugged off any safety concerns

The falsified data relate to the heat-treatment process used by another company responsible for the pipe welds on the moisture-separator heaters, Hitachi and its group company said. The heaters increase thermal efficiency by removing moisture from steam sent to turn the turbines and heating it.

Hitachi admitted that the equipment used at Chubu Electric Power Co.'s No. 5 reactor at the Hamaoka plant in Shizuoka Prefecture and at Chugoku Electric Power Co.'s No. 3 reactor under construction at the Shimane plant in Shimane Prefecture, were not operating as specified. But Hitachi claimed that "there is no problem with its material or safety."

Hitachi is checking for any similar data falsification incidents at its 17 other nuclear reactors.
Hitachi outsourced the heat treatment work, which was intended to make the pipes more resistant to cracking, to Japan Industrial Testing Co.
Although Hitachi was reprimanded by the government over a similar incident involving a subcontractor in 1997, it does not appear that the company is facing harsher punishment.
Instead, the Nuclear and Industrial Safety Agency told Hitachi and Hitachi-GE Nuclear Energy Ltd., to investigate whether other incidents of falsification had occurred and to submit plans to prevent a recurrence. Hitachi-GE Nuclear was formed by the merger of the nuclear businesses of the Hitachi and U.S. giant General Electric Co.

During the work, the pipes' temperatures fell faster than specified because of inappropriate temperature management, but that data was erased from the records using a bleaching agent, according to Hitachi, its group company and other sources.

The incident at the Shimane reactor occurred last December when a person in charge of the work wrongly operated the heat treatment equipment and failed to spot the irregularity quickly enough, they said.
The person in charge was quoted as saying: "If (the mistake had been) found, I would have had to do the heat treatment process again at the yearend when I was supposed to be off. I didn't want to do that."

An official at Japan Industrial Testing apologized and vowed that the company will train its employees appropriately. Hitachi has also apologized and said it will work to prevent a recurrence.

Hitachi started to investigate after Chugoku Electric Power in March found possible data falsification related to the heat treatment work of the Shimane plant's No. 3 reactor.

AR Rahman teams up with Japanese music composer Joe Hisaishi




AR Rahman has added another feather to his cap. The composer has now tied up with Japanese music composer Joe Hisaishi for the music of their forthcoming Indo-Japanese venture. Our source said, “Rahman, Bharat Bala (director) and some people from Disney (who are producing the film) met Joe Hisaishi in Tokyo on April 6 to discuss the film. Apart from Kamal Haasan and Asin, the film also stars Japanese actor Tadanobo Asano (Mongol,Wind Up Type,Last Life In The Universe).The movie will trace the origin of martial art in India.” According to our source, the film deals with Kalaripayattu, the martial art form of Kerala. The source added, “Kamal was very keen to work with a Japanese actor after he met Jackie Chan during the music release of Dasavataram. This is a $ 50 million (250 crores approx) project by Bharat Bala who will also be directing the film. Research work on the martial art form is currently on. The film will show that martial arts originated in India and not in Japan.” Bharat Bala and Rahman remained unavailable for comment.

Monday, April 13, 2009

Original Schindler’s List discovered


Sydney: A list of Jews saved by Oskar Schindler that inspired the novel and Oscar-winning film Schindler’s List has been found in a Sydney library, its co-curator said. Workers at the New South Wales State Library found the list, containing the names of 801 Jews saved from the Holocaust by the businessman, as they sifted through boxes of Australian author Thomas Keneally’s manuscript material. The 13-page document, a yellowed and fragile carbon typescript copy of the original, was found between research notes and German newspaper clippings in one of the boxes, library co-curator Olwen Pryke said.


Pryke described the 13-page list as “one of the most powerful documents of the 20th Century” and was stunned to find it in the library’s collection. “This list was hurriedly typed on April 18, 1945, in the closing days of WWII, and it saved 801 men from the gas chambers,” she said. “It’s an incredibly moving piece of history.”

She said the library had no idea the list was among six boxes of material acquired in 1996 relating to Keneally’s Booker Prize-winning novel, originally published as Schindler’s Ark.


The 1982 novel told the story of how the roguish Schindler discovered his conscience and risked his life to save more than 1,000 Jews from the Nazis. Hollywood director Steven Spielberg turned it into a film in 1993 starring Liam Neeson as Schindler and Ralph Fiennes as the head of an SS-run camp.


Pryke said that, although the novel and film implied there was a single, definitive list, Schindler actually compiled a number of them as he persuaded Nazi bureaucrats not to send his workers to the death camps. She said the document found by the library was given to Keneally in 1980 by Leopold Pfefferberg—named on the list as Jewish worker number 173—when he was persuading the novelist to write Schindler’s story. As such, it was the list that inspired Keneally to tell the world about Schindler’s heroics, she said. AFP

100 youngsters give up hot jobs TO TEACH FOR INDIA

100 youngsters give up hot jobs TO TEACH FOR INDIA
Namita Devidayal


When 23-year-old Saurabh Taneja announced to his parents that he wanted to take two years off and teach underprivileged children, they were aghast. Their son had graduated from IIT (Delhi) and had a well-paying job as a consultant with a Bangalore-based company.

They had some very big questions for him: Why would you want to throw it all away? Why would you take such an enormous salary cut? Who had heard of Teach For India? What about the future? Saurabh realized that these were not issues he could discuss over the phone. He flew home to Jaipur, sat them down, and explained why he wanted to leave his comfort zone and enter a world where he may not even have fans above his head, or why he was willing to go from earning Rs 50,000 to Rs 15,000 per month. “I had to explain to them that this may be the most challenging thing I would do in my entire life,” he says.

Over the last couple of months, many 20-somethings have been similarly convincing their parents about their decision to mentor children. Says Gaurav Singh, 24, a software programmer with Accenture, "My mother was also understandably apprehensive about my decision to quit the corporate world and become a teacher. But when I told her in detail about the idea and the people behind Teach For India and also why I wanted to be a part of it she not only supported me but was also very proud of my decision.” It may have taken a little heartburn, but Saurabh and Gaurav are now on board.

Starting June this year, 100 such youngsters from different walks of life will be spread across in a unique national programme that seeks to narrow the educational gap in India by placing accomplished graduates and young professionals in low-income schools to teach for two years. The Teach For India fellows will undergo rigorous training in May and enter the classrooms after the summer vacation. This year, the programme is confined to 45 low-income private schools and municipal schools in Mumbai and Pune,.

Over a period of time, it will spread across the country. Teach For India founder Shaheen Mistri says, “Our Fellows represent the driving force of Teach For India’s movement. The energy, quality, commitment and passion of our candidates has been the most inspiring. It drives us to work relentlessly to ensure that Teach For India’s first class of 2009 is a success.” When asked what motivated them to apply for this fellowship, the youngsters are driven by a range of reasons—from an altruistic desire to give back to a very practical sense that they were, in fact, going to enhance their future. For, they realize that such an experience will broaden their leadership and management skills and add value to whatever they end up doing. This is perhaps why a number of companies – including the Aditya Birla group, Thermax, ICICI – are supporting the programme, agreeing to pay the stipends for, as well as reinstate, any employee who qualifies and takes the two years off to teach. For some, the two-year stint also promises to be an extraordinary, if challenging, adventure. “It is a crash course in how to manage challenges,” says Dhiren Achtani, 26, who currently works as a project manager for Citibank, “I am driven by that idea of slowly and steadily reaching that last mile where your students show signs of progress --progress that tells you that you added value and you made the child move from bookish knowledge to real knowledge and that you earned that bit of the day…”

Saturday, April 11, 2009

Love Hormone Boosts Strangers' Sex Appeal


Love Hormone Boosts Strangers' Sex Appeal
Oxytocin Could Play a Key Role in Choosing Mates
By EWEN CALLAWAY

A chemical best known for cementing the bond between a mother and her newborn child could also play a part in picking mister (or miss) right.

A new study shows that men and women who inhale a whiff of the hormone oxytocin rate strangers as more attractive.

When oxytocin courses through our blood, "we are more likely to see people we don't know in a more positive light," says Angeliki Theodoridou, a psychologist at the University of Bristol, UK, who led the new study.

This effect adds to the hormone's known role in human relationships. One study found that oxytocin levels spike after new mothers look at or touch their newborns and may help bonding.

Other work has hinted at the importance of oxytocin in social situations between adults too.
People administered the hormone make overly generous offers in an economic game that measures trust, while men who got a dose of oxytocin proved better at remembering the faces of strangers a day later, compared to subjects who got a placebo.

Dampened Fear?
In the latest trial, Theodoridou's team tested 96 men and women in a double-blind placebo-controlled trial. After participants got either a spritz of oxytocin or a placebo, they rated pictures of 48 men and women for attractiveness and 30 for trustworthiness. Her team also tested for mood.

No matter their sex or mood, volunteers who received oxytocin rated male and female strangers as both more attractive and trusting.
Theodoridou's study did not examine how oxytocin could affect social judgements, but she speculates that the hormone dampens brain activity in a region involved in processing fearful emotions, called the amygdala.

A previous study found that oxytocin tempered amygdala activation in volunteers who saw a face that had previously been paired with a slight shock.

Love Spray
Although Theodoridou's study shows that oxytocin acts similarly on men and women when rating strangers, sex differences could emerge in real-world situations, says Jennifer Bartz, a psychologist at Mount Sinai Medical School in New York.

More research is needed to see if this is the case, she says.Unsurprisingly, entrepreneurs are already trying to make a buck off of oxytocin's social effects. One company offers a spray that claims to engender trust in others, though it offers little more than testimonials as evidence that it works. Could a similar spray spark romances between total strangers? Theodoridou doesn't think so. "I would not endorse any of these products," she says.