Your bathroom showers are hazardous to health

September 15, 2009 By Leave a Comment

Washington, September 15 (ANI): That invigorating relief and good cleansing from daily bathroom showers may bring along a face full of potentially pathogenic bacteria, warn researchers at the University of Colorado at Boulder.

Using high-tech instruments and lab methods, the researchers analysed roughly 50 showerheads from nine cities in seven states that included New York City, Chicago and Denver.

CU-Boulder Distinguished Professor Norman Pace, lead study author, says that about 30 percent of the devices were found to harbour significant levels of Mycobacterium avium, a pathogen linked to pulmonary disease that most often infects people with compromised immune systems, but which can occasionally infect healthy people.

The study showed that some M. avium and related pathogens were clumped together in slimy “biofilms” that clung to the inside of showerheads at more than 100 times the “background” levels of municipal water.

“If you are getting a face full of water when you first turn your shower on, that means you are probably getting a particularly high load of Mycobacterium avium, which may not be too healthy,” Pace said.

He pointed out that research at National Jewish Hospital in Denver indicated that increases in pulmonary infections in the US in recent decades from so-called “non-tuberculosis” mycobacteria species, such as M. avium, could be attributed to people taking more showers and fewer baths.

He said that water spurting from showerheads could distribute pathogen-filled droplets that suspend themselves in the air, and could easily be inhaled into the deepest parts of the lungs.

“There have been some precedents for concern regarding pathogens and showerheads. But until this study we did not know just how much concern,” said Pace.

In Denver, according to the researcher, one showerhead with high loads of Mycobacterium gordonae was cleaned with a bleach solution in an attempt to eradicate it, but tests conducted several months later showed that the bleach treatment ironically caused a three-fold increase in the pathogen, indicating a general resistance of mycobacteria species to chlorine.

Ask Pace whether it is dangerous to take showers, and he says: “Probably not, if your immune system is not compromised in some way. But it’s like anything else-there is a risk associated with it.”

He stresses that plastic showerheads appear to “load up” with more pathogen-enriched biofilms, and thus metal showerheads may be a good alternative.

“There are lessons to be learned here in terms of how we handle and monitor water. Water monitoring in this country is frankly archaic. The tools now exist to monitor it far more accurately and far less expensively that what is routinely being done today,” said Pace.

A research article on his study has been published in the online edition of the Proceedings of the National Academy of Sciences. (ANI)

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Scientists make first high-resolution 3D images of a polymer solar cell’s insides

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): Researchers from the Eindhoven University of Technology and the University of Ulm in Germany have made the first high-resolution 3D images of the inside of a polymer solar cell.

This gives them important new insights in the nanoscale structure of polymer solar cells and its effect on the performance.

The investigations shed new light on the operational principles of polymer solar cells.

These solar cells do not have the high efficiencies of their silicon counterparts yet. Polymer cells, however, can be printed in roll-to-roll processes, at very high speeds, which makes the technology potentially very cost-effective.

Added to that, polymer cells are flexible and lightweight, and therefore suitable to be used on vehicles or clothing or to be incorporated in the design of objects.

In these hybrid solar cells, a mixture of two different materials, a polymer and a metal oxide are used to create charges at their interface when the mixture is illuminated by the sun.

The degree of mixing of the two materials is essential for its efficiency.

Intimate mixing enhances the area of the interface where charges are formed but at the same time obstructs charge transport because it leads to long and winding roads for the charges to travel.

Larger domains do exactly the opposite.

The vastly different chemical nature of polymers and metal oxides generally makes it very difficult to control the nanoscale structure.

The Eindhoven researchers have been able to largely circumvent this problem by using a precursor compound that mixes with the polymer and is only converted into the metal oxide after it is incorporated in the photoactive layer.

This allows better mixing and enables extracting up to 50 percent of the absorbed photons as charges in an external circuit.

The importance of the degree of mixing was clearly demonstrated by visualization of the structure of these blends in three dimensions.

Traditionally such visualization has been extremely challenging, but by using 3D electron tomography, the team has been able to resolve the mixing with unprecedented detail on a nanoscale.

From these images, the researchers at the Institute of Stochastics in Ulm have been able to extract typical distances between the two components, relating to the efficiency of charge generation, and analyze the percolation pathways, that is, how much of each component is connected to the electrode.

These quantitative analyses of the structure matched perfectly with the observed performance of the solar cells in sunlight. (ANI)

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Guns n’ Roses ‘coming to Osaka, Tokyo in Dec’

September 12, 2009 By Leave a Comment

Washington, Sept 11 (ANI): Guns n’ Roses’ far east tour will also see the band perform at Japanese cities of Osaka and Tokyo in December this year, it has emerged.

Taiwanese concert promoter Brokers Brothers Herald Ltd is advertising both the shows on the Internet, reports Contactmusic.xl Rose and his team are believed to have given a nod for performing at Osaka Dome on December 16 and the Tokyo dome on December 19.

Taiwanese rock fans may also get to swing with the GNR metal if the speculations of a gig in Taipei come true. (ANI)

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26/11 attackers had left notes saying “this is pointer to war”

September 10, 2009 By Leave a Comment

Mumbai, Sep.9 (ANI): Police inspector Prakash Bhoite on Wednesday told a special trial court here that the terrorists involved in the 26/11 attacks on Mumbai, had planted two powerful bombs with timers in metal boxes at different places near the Taj Hotel with notes scribbled in Urdu saying “this is pointer to war”.

Bhoite told Special Public Prosecutor Ujjwal Nikam that one of the boxes in which these bombs and notes were found was located near the hotel where renovation work of Gateway of India was in progress. The second box was located near the Gokul Hotel behind Taj Hotel.

Both boxes contained eight kg of RDX with timers.

Nikam said that the version of the witness fortified the case of the prosecution that the aim of terrorists was not only to create terror in Mumbai but also to wage a war against India.

Bhoite said he was on duty at the Colaba Police station on the day of terror attacks when he heard the shots being fired outside.

He said he rushed outside and learnt that two persons had entered Taj Hotel after firing at customers inside and outside Cafe Leopold.

Bhoite further said he was asked to look for explosives, and during the search, he found two boxes near the Taj Hotel laden with explosives.

The bomb detection and disposal squad was immediately summoned which defused the bombs, he told the trial court. (ANI)

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Scientists use bacteria to make radioactive metals inert

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): A team of scientists is researching the use of sulfate-reducing bacteria to convert toxic radioactive metal to inert substances, a much more economical solution.

The research is being done by Judy Wall, a biochemistry professor at the University of Missouri College of Agriculture, Food and Natural Resources.

The bacteria Wall is studying are bio-corrosives and can change the solubility of heavy metals.

They can take uranium and convert it to uraninite, a nearly insoluble substance that will sink to the bottom of a lake or stream.

Wall is looking into the bacteria’s water cleansing ability and how long the changed material would remain inert.

Wall’s research could also be beneficial to heavy metal pollution from storage tanks and industrial waste.

The bacteria are already present in more than 7,000 heavy metal contaminated sites, but they live in a specific range of oxygen and temperature, making them difficult to control.

“Our research must be done in the absence of air,” Wall said. “Obviously, none but the most committed – and stubborn – will work with them,” she added.

Even if an oxygen-tolerant strain were developed, there are still multiple factors that would make applying the bacteria challenging, and these microbes can contribute to massive iron corrosion.

“Knowledge of the way bacteria live in the environment, in microbial communities, is still in its infancy,” Wall said. “We just don’t know a lot about the communication systems among microbes,” she added.

Wall and researchers from the Lawrence Berkley National Laboratory in California are investigating the bacterium’s basic genetics and hope to determine its growth limits and activity in natural settings, including how to make its interactions with metals sustainable.

They have already identified a few genes that are critical to converting uranium. (ANI)

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Nifty touches 52 weeks high, telecom, ifra sectors gain

September 7, 2009 By Leave a Comment

Mumbai, Sep 7 (ANI): The Nifty of the National Stock Exchange (NSE) touched a 52-week high of 4743.75 on Monday following early trends of good purchasing in all Asian markets.

Earlier, during the intra-day the Nifty registered the high of 4737.20 and low of 4679.30.

Indian markets were well-poised Monday taking cues from the positive global markets as all the sectoral indices were up, led by gains in realty, metals and auto stocks.

According to the market analysers, the US markets closed up and other Asian markets are positive.

Asian stocks rose for a third day, led by finance and technology companies, as the G-20 nations agreed on steps to shore up the global financial system.

The Sensex of the Bombay Stock Exchange (BSE) was at 15862.98, up 173.86 points the 30-share index touched a high of 15877.12 and low of 15793.27.

Amongst the sectoral indices, BSE Realty Index was up 2.13 per cent, BSE Metal Index moved up 1.60 per cent and BSE Auto Index gained 1.30 per cent.

BPCL 6.28 percent, Reliance Communications 3.36% percent, TCS 2.56 percent, Tata Motors 2.30 percent and Reliance Capital 2.20 percent were amongst the Nifty gainers. (ANI)

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Monkeys ‘groove to Metallica’s heavy metal music’

September 2, 2009 By Leave a Comment

Washington, Sept 2 (ANI): Monkeys prefer silence to Mozart, but they are big fans of heavy metal music, in particular Metallica, a new study has found.

Music is a sure-shot way to influence human emotions. However, nonhuman primates scarcely respond to human music, and instead prefer silence.

Now, a new report by Charles Snowdon, a professor of psychology at the University of Wisconsin-Madison, and musician David Teie of the University of Maryland has shown that a monkey called the cotton-top tamarin indeed responds to music.

And the catch here is: the South American monkeys are essentially immune to human music, but they respond appropriately to “monkey music,” 30-second clips composed by Teie on the basis of actual monkey calls.

In the study, the music was inspired by sounds the tamarins make to convey two opposite emotions: threats and/or fear, and affiliation, a friendly, safe and happy condition.

The group of cottontop tamarins were played a variety of music, including Bach, Led Zeppelin and Miles Davis, but they only reacted when heavy metal rock songs by Metallica were played.

The study, published this week (Sept. 1) in the journal Biology Letters, reported that the monkeys could tell the difference: For five minutes after hearing fear music, the monkeys displayed more symptoms of anxiety and increased their movement. In contrast, monkeys that heard “affiliative” music reduced their movements and increased their feeding behavior, both signs of a calming effect.

Monkeys interpret rising and falling tones differently than humans. Oddly, their only response to several samples of human music was a calming response to the heavy-metal band Metallica.

Non-human primates don’t seem to appreciate human music, Snowdon said, although research has suggested they prefer Mozart to rock music and silence to Mozart.

The study opens a new window into animal communication, Snowdon said.

“People have looked at animal communication in terms of conveying information – ‘I am hungry,’ or ‘I am afraid.’ But it’s much more than that. These musical elements are inducing a relatively long-term change in behavior of listeners. The affiliative music is making them calmer; they move less, eat and drink at a higher rate, and show less anxiety behavior,” the expert said. (ANI)

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Metal catalysts in carbon nanotubes block critical signalling pathway in neurons

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): In what may prove very useful in improving treatments for human neurological disorders, Brown University scientists have found out why carbon nanotubes tend to block a critical signalling pathway in neurons.

Writing about their findings in the journal Biomaterials, the researchers have revealed that it is not the tubes, but the metal catalysts used to form them, that are to blame.

They say that minute amounts of a metal called ‘yttrium’ may impede neuronal activity.

They add that the findings mean that carbon nanotubes without metal catalysts may be able to treat human neurological disorders, although other possible biological effects still need to be studied.

“It’s a problem we can fix. We can purify the nanotubes by removing the metals, so it’s a problem we can fix,” said Lorin Jakubek, a Ph.D. candidate in biomedical engineering and lead author of the paper.

Taking single-walled carbon nanotubes to the laboratory of Brown neuroscientist Diane Lipscombe, the research team zeroed in on ion channels located at the end of neurons’ axons.

These channels are gateways of sorts, driven by changes in the voltage across neurons’ membranes. When an electrical signal, known as an action potential, is triggered in neurons, these ion channels “open”, each designed to take in a certain ion.

One such ion channel passes only calcium, a protein that is critical for transmitter release and thus for neurons to communicate with each other.

In experiments using cloned calcium ion channels in embryonic kidney cells, the researchers found that nickel and yttrium, two metal catalysts used to form the single-walled carbon nanotubes, were interfering with the ion channel’s ability to absorb the calcium.

Lipscombe, who specializes in neuronal ion channels and is a corresponding author on the paper, pointed out that yttrium’s ionic radius is nearly identical to calcium’s, which is why it “gets stuck and prevents calcium from entering and passing through. It’s an ion pore blocker.”

The experiments showed that yttrium in trace amounts – less than 1 microgram per milliliter of water – may disrupt normal calcium signalling in neurons and other electrically active cells, an amount far lower than what had been thought to be safe levels.

With nickel, the amount needed to impede calcium signalling was 300 times higher.

“Yttrium is so potent that … a very low nanotube dose” would be needed to affect neuronal activity, said Robert Hurt, professor of engineering and a corresponding author on the paper.

Jakubek said she was surprised that the metals turned out to be the cause.

“Based on the literature, I thought it would be the nanotubes themselves,” she said. (ANI)

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‘Invisibility cloak’ metamaterials could shrink cellphones antennas

August 22, 2009 By Leave a Comment

London, Aug 22 (ANI): An international team of physicists have revealed that metamaterials, which are currently being used to make real-life invisibility cloaks, may soon shrink cellphone antennas, leading to smaller gadgets.

The new metamaterial antennas could be tuned to a range of different frequencies as required.

It could be tuned to work efficiently across a small frequency range, and retuned to a different band for roaming.

Tom Driscoll at the University of California, San Diego along with Dimitri Basov and collaboraters from Duke University in Durham, North Carolina, and ETRI in the Republic of Korea developed the new “frequency-agile” design by attaching a thin film of vanadium dioxide to a gold metamaterial structure.

They found that applying a voltage to the film alters the frequency at which the gold metamaterial interferes with light waves, tuning it to a new “setting”.

This occurs because voltage causes nanoscale “puddles” of conducting vanadium metal to form within the insulating vanadium dioxide.

They interact with the design’s electrical properties and alter the metamaterial’s tuning.

“The effect continues after the electrical current is gone because the metal puddles, once formed, will not readily disappear without some cause,” New Scientist quoted Driscoll as saying

He added that there is evidence to suggest the effect should last for months or more.

“Metamaterials are often narrowband, but at least with this scheme one could adapt the material to new frequencies,” said Ulf Leonhardt, a metamaterial researcher at the University of St Andrews in the UK.

That removes an obstacle to the wider use of metamaterial antennas. Such antennas would be attractive because they could help to shrink the size of cellphones.

Driscoll said that a tunable metamaterial antenna would allow a wireless gadget to work “outstandingly well” at the frequencies used in one country, but also carry the option of retuning for use abroad.

The findings appear in journal Science Express. (ANI)

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Spielberg’s Saving Private Ryan named Best War Film Of All Time

August 20, 2009 By Leave a Comment

London, Aug 20 (ANI): Steven Spielberg’s flick Saving Private Ryan, starring Tom Hanks and Matt Damon, has topped the list of all time best war movies.

More than 3,000 members of the online DVD and games rental service, Lovefilm, took part in the poll. The survey was conducted to mark the release of Quentin Tarantino’s Inglourious Basterds.

Saving Private Ryan is an Oscar-winning epic about the D-Day landings and it pipped Steve McQueen starrer The Great Escape to land the honour.

The 1998 Spielberg classic received 21 per cent of the fans’ votes.

The Great Escape got 11 percent of votes, and it pipped another Spielberg movie, Schindler’s List, to grab the second spot.

Francis Ford Coppola’s Apocalypse Now, based on Josef Conrad’s novel Heart of Darkness, was ranked fourth with nine per cent of the votes.

The Vietnam War inspired Full Metal Jacket by director Stanley Kubrick and Oliver Stone’s Platoon, came fifth and sixth.

Mel Gibson starrer Braveheart claimed the seventh spot, Back Hawk Down, a tale of American troops in Somalia, came eighth.

Michael Cimino’s haunting The Deer Hunter was positioned at number 10.

Wolfgang Peterson’s German U-Boat drama Das Boot was the only non-English language film to make it in to the top 10 in ninth place.

The Telegraph quoted Darren Bignell, Lovefilm’s communications manager, as saying: “Having polarised opinion at the 2009 Cannes Film Festival, Inglourious Basterds marks the comeback of one of modern cinema’s most revered directors.

“Tarantino fans have been chomping at the bit for his latest offering and we’ll soon discover whether it hits the mark with cinema-goers.”

The Top 10 War Films Ever:

1 Saving Private Ryan (1998) 21 percent

2 The Great Escape (1963) 11 percent

3 Schindler’s List (1993) 10 percent

4 Apocalypse Now (1979) 9 percent

5 Full Metal Jacket (1987) 7 percent

6 Platoon (1986) 6 percent

7 Braveheart (1995) 5 percent

8 Black Hawk Down (2001) 4 percent

9 Das Boot (2006) 2 percent

10 The Deer Hunter (2078) 1 percent (others 24 percent) (ANI)

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Scientists come a nano-step closer to weighing a single atom

July 29, 2009 By Leave a Comment

Melbourne, July 28 (ANI): In a new study, a team of scientists has understood how nanoparticles lose energy, thus coming a key step closer towards producing nanoscale detectors for weighing any single atom.

In this study, the team from the University of Melbourne, Argonne’s Center for Nanoscale Materials in Illinois and the University of Chicago synthesized and studied tiny gold rods with a width 5000 times smaller than the thickness of a human hair.

According to Professor John Sader from the Department of Mathematics and Statistics, University of Melbourne, in the same way as a classroom ruler decreases its frequency of vibration when an eraser is attached, nanomechanical mass sensors work by measuring their change in vibration frequency as mass is added.

The sensitivity of such nanomechanical devices is intimately connected to how much energy they displace.

So, researchers needed to understand how damping (loss of energy) is transferred both to the fluid surroundings and within the nanostructures.

It has not previously been possible to determine the rate at which vibrations in metal nanoparticle systems are damped, because of significant variations in the dimensions of the particles that have been studied – which masks the vibrations.

However, by studying a system of bipyramid-shaped gold nanoparticles with highly uniform sizes and shapes, the researchers overcame this limitation.

“Previous measurements of nanomechanical damping have primarily focused on devices where only one- or two-dimensions are nanoscale, such as long nanowires.

Our measurements and calculations provide insight into how energy is dissipated in devices that are truly nanoscale in all three-dimensions,” said Professor Sader.

Illuminating these bipyramidal nanoparticle systems with an ultra-fast laser pulse, set them vibrating mechanically at microwave frequencies.

These vibrations were long-lived and for the first time damping in these nanoparticle systems could be interrogated and characterized.

Moreover, the researchers separated out the portion of damping that is due to the material itself and that surrounding liquid for which they developed a parameter-free theoretical model that quantitatively explains this fluid damping.

Such ultrasensitive measurements could ultimately be used in areas such as medical research and diagnostics, enabling the detection of minuscule disease-causing agents such as viruses and prions at the single molecule level. (ANI)

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Laser technology creates new forms of metal and enhances aircraft performance

July 16, 2009 By Leave a Comment

Washington, July 16 (ANI): A team of scientists is using laser light technology to create new forms of metal and enhance aircraft performance.

The laser light technology is being used by AFOSR (Air Force Office of Scientific Research) funded researchers at the University of Rochester to help the military create new forms of metal that may guide, attract and repel liquids and cool small electronic devices.

Dr. Chunlei Guo and his team of researchers for the project discovered a way to transform a shiny piece of metal into one that is pitch black, not by paint, but by using incredibly intense bursts of laser light.

The black metal created, absorbs all radiation that shines upon it.

“With the creation of the black metal, an entirely new class of material becomes available to us, which may open up a whole new horizon for various applications,” said Guo.

“To do this, we looked at the reverse process of light absorption or light radiation and transformed the incandescent lamp into a bulb that glows twice as brightly as a regular light source, while consuming the same amount of energy,” Guo added.

The key to creating this super-filament is an ultra-brief, ultra-intense beam of light called a femtosecond laser pulse.

The laser burst lasts only a few quadrillionths of a second.

That intense blast forces the surface of the metal to form nano-structures and micro-structures that dramatically alter how efficiently light can radiate from the filament.

In addition to increasing the brightness of a bulb, Guo’s process can be used to tune the color of the light as well.

In addition to this research, Guo and his team have been working on creating technology that may enable the Air Force to create an additional kind of metal.

They are able to do this by using the femtosecond laser once again to alter the surface of metal and create unique nano- and micro-scale structures on the metal.

The unique nano-structures which are created from the laser affect the way liquid molecules interact with metal molecules.

The liquid spreads out over the metal because the nano-structures attach themselves to the liquid’s molecules more readily than the liquid’s molecules bond to each other.

The end result is the formation of a new kind of metal that can cool the plane’s electronic brain and heat pumps and allow the craft to retain dominance over any enemy that is also in flight. (ANI)

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Nirvana’s ‘Smells Like Teen Spirit’ voted best song of all time

July 13, 2009 By Leave a Comment

Melbourne, July 13 (ANI): Nirvana’s ‘Smells Like Teen Spirit’ has been voted as the best song of all time in a new poll.

The song sung by late Kurt Cobain has topped Triple J’s ‘Hottest 100 of All Time’ list.

Two more songs from Nirvana’s 1992 groundbreaking album Nevermind, ‘Come As You Are’ and ‘Lithium’, made it to the top 100, at 40th and 74th positions, respectively.

‘Killing in the Name’ by metal band Rage Against the Machine (RATM) came second, followed by ‘Hallelujah’ by Jeff Buckley at the third.

‘Love Will Tear Us Apart’ by Joy Division and ‘Paranoid Android’ by Radiohead wrapped up the top five.

“After all these years that scream hasn’t diminished one bit,” News.com.au quoted Triple J’s Richard Kingsmill of Kurt Cobain’s searing voice after broadcasting the winner.

Nirvana was out ahead for much of the vote, Kingsmill added.

The top ten ‘Hottest 100 of All Time’ are:

1. Smells Like Teen Spirit, Nirvana

2. Killing in the Name by Rage Against the Machine

3. Hallelujah, by Jeff Buckley

4. Love Will Tear Us Apart by Joy Division

5. Paranoid Android by Radiohead

6. Bohemian Rhapsody by Queen

7. Last Goodbye by Jeff Buckley

8. Under The Bridge by Red Hot Chili Peppers

9. Everlong by Foo Fighters

10. Stairway to Heaven by Led Zeppelin (ANI)

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‘Bullet fingerprinting’ technique improves recovery rate of prints

July 13, 2009 By Leave a Comment

Washington, July 13 (ANI): A team of scientists has developed ‘Bullet fingerprinting’ technology, which is a simple but effective method to visualize fingerprints even after the print itself has been removed.

The technology has been developed by Dr John Bond, from Northamptonshire Police Scientific Support Unit and an Honorary Research Fellow at the University of Leicester’s Forensic Research Centre, in collaboration with University scientists.

Continuing work exploring this forensic technique in the Department of Chemistry at the University of Leicester is uncovering new ways of recovering fingerprints from metal surfaces.

Researcher Alex Goddard has uncovered a natural technique that he believes is so simple, which can explain why it has been overlooked until now.

The technique involves studying the chemical and physical interactions occurring between the metal and the fingerprint sweat deposit.

Using advanced surface imaging techniques, such as an Atomic Force Microscope, nanoscale observations of fingerprinted brass samples can identify optimum conditions to promote the natural enhancement of the fingerprint, vastly improving their recovery rate.

It has also proven that components of the sweat deposit survive washing and wiping of the surface.

According to Goddard, “Once a finger has touched the metal surface, a residue remains behind. This starts to react with the metal and an image of the fingerprint can be developed by use of elevated temperature and humidity, with the resultant image becoming a permanent feature on the surface of the metal.”

“Currently, fingerprint recovery from bullets is very low; less than 1 percent. This uses a natural process and even if it only leads to small increase in success rate, then that would be significant,” he said.

“Previous recovery methods include applying powder to the material which can actually damage the evidence,” said Goddard.

“This new technique promotes a naturally occurring process which does not involve adding anything to, or damaging, the evidence. Instead, it employs heat and humidity to promote the enhancement of the fingerprint image.

There are also indications that it could be used after other techniques have failed, perhaps as a last resort,” he added. (ANI)

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Jackson’s daughter writes letters to him everyday

July 13, 2009 By Leave a Comment

Washington, July 13 (ANI): Michael Jackson’s sister La Toya has revealed that the legend’s eleven-year-old daughter, Paris, has been writing letters to him everyday after his death.

“She wears Michael T-shirts every day and the walls of her room are covered with posters and pictures of her daddy. She still writes him letters every day, sweet lovely letters about how much she loves him. Her letters are brilliant. When you read them you cry,” Contactmusic quoted La Toya as saying.

The 53-year-old sibling of Jackson also added that Paris bought a ‘mood’ chain to place in her father’s coffin before he was buried.

The necklace, which had a metal heart on it that changes colour when it touches someone’s skin, divides into two.

And Paris kept half of it and said she will wear it “forever”.

La Toya said: “The heart is in two pieces. Paris told me, ‘I want one half to go to daddy and I will wear the other half forever’. She carefully wrapped it around his wrist. She said, ‘Daddy, this is for you’… I put one of his sequined gloves in there. And a pair of his favourite sunglasses.” (ANI)

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How Java’s seafarers built their boats in the 6th and 7th centuries

July 11, 2009 By Leave a Comment

Jakarta, July 11 (ANI): The recent discovery of an ancient boat in Indonesia has shed light on how Java’s seafarers in the 6th and 7th centuries built their boats.

According to a report in The Jakarta Post, the ancient boat, measuring 15.6 meters long and 4 meters wide, was found in Punjulharjo village, Rembang district, in Rembang regency.

A team from the Yogyakarta Archaeology Center made a detailed study of the site, about 200 meters inland from the Java Sea coastline, from June 17 to 26 this year.

The boat, approximately 1,200 years old, was found buried near the Central Java northern coastline, with its bow lying to the west and its stern in the east.

The ancient boat is the most complete ever found in Indonesia, according to the chairman of the Yogyakarta archaeology team, Novida Abbas.

“So far, we have only got wooden planks and other separate pieces. The discovery in Rembang is 50 percent intact,” Novida said. “We can see the actual shape of the boat and its construction technology,” he added.

Novida estimates that the boat could hold 30 people.

Its skeleton remains complete, including its sides, bottom, curved ribs (to support the sides), stringers (to fasten the ribs) and wooden pegs, as well as palm-fiber ropes to fasten the ribs to knobs on the inside of the sides. There are also rattan and bamboo items.

According to Priyatno Hadi, a team member and archaeology graduate from Yogyakarta’s Gadjah Mada University, the main body of the boat was unbroken.

The hull was built using a very simple method that did not require any metal components.

“Planks were first arranged to form an arc and then the curved wooden ribs were placed in parallel rows from the stern to the bow. Thereafter, they were fastened and strengthened with wooden pegs,” said Hadi, showing the thumb-sized pegs.

Twelve of the boat’s 17 ribs are still joined to its flanks, with their palm-fiber ropes still partly tied in their knots.

Unusually, there are also L-shaped planks in the stern – with those in the bow probably having been lost – for reinforcement due to the palm-fiber rope holes.

Missing are the upper parts of the boat and some parts of the bow, according to Novida.

“The entire boat may have been larger than what has been found today. Its age of 12 centuries and its almost complete state provide good material for more comprehensive research,” he said.

“So, we will finally have an idea of what Indonesia’s ancient boats looked like without having to speculate much. This finding gives us a good idea,” he added. (ANI)

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2000-year-old statue of Greek athlete sheds light on metal corrosion

July 10, 2009 By Leave a Comment

Washington, July 9 (ANI): The restoration of a 2,000-year-old bronze sculpture of the famed ancient Greek athlete Apoxyomenos may help modern scientists understand how to prevent metal corrosion, discover the safest ways to permanently store nuclear waste, and understand other perplexing problems.

That’s the conclusion of a new study on the so-called “biomineralization” of Apoxyomenos.

Best known as “The Scraper,” the statue depicts an athlete scraping sweat and dust from his body with a small curved instrument.

Scientist Davorin Medakovic and his team point out that Apoxyomenos was discovered in 1998 on floor of the Adriatic Sea.

While the discovery was a bonanza for archaeologists and art historians, it also proved to be an unexpected boon to scientists trying to understand biomineralization.

Biomineralization is the process in which animals and plants use minerals from their surroundings and form shells and bone.

Apoxyomenos was encrusted with such deposits.

“As studies of long-term biofouled manmade structures are limited, the finding of an ancient sculpture immersed for two millennia in the sea provided a unique opportunity to probe the long-term impact of a specific artificial substrate on biomineralizng organisms and the effects of biocorrosion,” according to the researchers.y evaluating the mineral layers and fossilized organisms on the statue, the researchers were able to evaluate how underwater fouling organisms and communities interacted with the statue as well as how certain mineral deposits on the bronze sculpture slowed its deterioration. (ANI)

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Novel implant coating technique created

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): An electrochemical process for coating metal implants which vastly improves their functionality, longevity and integration into the body has been developed by a Tel Aviv University researcher.

Brainchild of Prof. Noam Eliaz of the TAU School of Mechanical Engineering, the new process could vastly improve the lives of people who have undergone complicated total joint replacement surgeries so they can better walk, run and ultimately avoid rejection of the implant by their bodies.

“The surface chemistry, structure and morphology of our new coatings resemble biological material,” explains Prof. Eliaz.

“We’ve been able to enhance the integration of the coating with the mineralized tissue of the body, allowing more peoples’ bodies to accept implants,” the expert added.

His new coating resulted in a 33 percent decrease in the level of materials failure, or delamination, in these implants.

Prof. Eliaz presented his findings to the 215th meeting of the Electrochemical Society in San Francisco in May 2009. (ANI)

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Sindh government declares 80 shrines ‘sensitive’ to terror attacks

June 22, 2009 By Leave a Comment

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Karachi, June 22 (ANI): The Sindh Government has declared at least 80 shrines of saints, including 36 in Karachi, as sensitive, following a terror threat in the province.
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The shrines which have been declared sensitive, are those under the administration of the Auqaf Department, while there are many more shrines across the province where the possibility of a terror attack cannot be ruled out, the Daily Times reports./pp
According to sources, the Auqaf Department had provided a list of 80 shrines to the Sindh Home Department, and asked for foolproof security to avoid any untoward incident of terrorism. /pp
Since the possibility of a terrorist act cannot be ruled out anywhere at any time, therefore, we have asked for more security for the safety of devotees, the paper quoted Provincial Minister for Auqaf Abdul Haseeb, as saying./pp
Following a threat of a suicide bombing attack, police had sealed the shrine of Hazrat Abdullah Shah Ghazi on Thursday and devotees were not allowed inside the premises./pp
However, the shrine of Hazrat Abdullah Shah Ghazi will be opened for devotees on Tuesday. /pp
The security arrangements for the shrine of Hazrat Abdullah Shah Ghazi have been carried out by deputing law enforcers along with private security guards there while a metal detector gate has also been installed at the place. The security measures taken would be reviewed in a meeting today (Monday) and then the tomb would be opened for devotees on Tuesday, Haseeb said. /pp
Moreover, the devotees have condemned the sealing of the shrine, saying that this is not the appropriate way to tackle terror threats./pp
If the law enforcers receive information regarding terror attacks in the city, would they shut down the whole of Karachi? they questioned./pp
According to sources, mosques and imambargahs are facing grave terror threats, especially during Friday prayers, but no reliable arrangements have been made by the law enforcement agencies. (ANI)/p

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