Sanjay Dutt convicted
Sanjay Dutt convicted by TADA court under Arms act but not for the Mumbai Blasts case of 1993. He faces maximum five years in prison. Judge Kode said "During my reasoning, I have not found him (Sanjay) to be a terrorist". He then went to announce his judgement, that the court had found Sanjay Dutt guilty primarily on three accounts:
his own confession statement; the confession statement of his co-accused; and recovery of weapons from his
residence as evidence.
Sanjay, who spent about 16 months in prison after his arrest in April 1993, was found guilty under Sections 3 and 7 read with Section 25 of the Indian Arms Act. Under Section 3, he was found guilty of possessing a 9mm pistol and under Section 7 for possessing an AK-56 rifle, a prohibited weapon.
Under these charges, he faces a maximum of five years in prison. The court, on Sanjay's plea, extended his bail and asked him to surrender on December 19. The court also let off Sanjay's friends Yusuf Nallawalla and Kersi Adajenia for terrorism charges but found them guilty under the Arms Act and for destroying evidence.
Dutt received three AK-56 rifles, its ammunition, 9 mm pistol, its cartridges and hand grenades, which were part of the consignment smuggled by Tiger Memon to set off a series of blasts in Mumbai on March 12, 1993.
Tuesday, November 28, 2006
Saturday, November 25, 2006
Forts of Maharashtra
Maharashtra is home to the largest number of military forts in India – many of them over 300 years old. But most of them are falling apart.
The forts in Raigarh, Maharashtra could be an ideal location film producers or hotel chains.
But the indifference of the Maharashtra government and the Archaeological Survey of India, which is in charge of the forts, has ensured these forts are crumbling.
The Padmadurg fort is yet another a serene location on the west coast of Maharashtra. Here one can clearly see the western part of ramparts are totally fallen and are in dilapidated condition.
Speaking about the forts’ situation, writer and journalist Kiran Batham says, “Yeh quila hai. Log aate hain, dekhte hain aur aason baha ke chale jaate hain. Aise haal mein quial hai (People visit the fort and go away feeling sad because of the state it's in)."
The cannons at the Padmadurg fort are the vital evidence of history. There are hundreds of such cannons in the fort.
This is the western bastion of Padmadurg fort and the moment these ramparts are falling these cannons are going down to the inter tidal zone of the sea.
The Archaeological Survey says it has a plan in place but needs time to implement it.
Superintending Archaeologist, ASI Mumbai Circle P S Narasimhan says, “We need the manpower and time even if we conceive a proposal to actually realise it. We will take 2 to 3 years.”
Underi is another fort, which is also in controversy since it was to be sold out to a private party.
The local villagers who owned the land sold off the 300-year-old piece of history to a private developer.
Thal Underi village sarpanch Sheshnath Koli says, “kisi ne bhi socha nahin ki kyon paryatak nahi aate, sarkaar ne bhi sacha nahi ki quila paryatak ke layak hai. to humne socha ki quile ka kuch achcha ho. (The government never even thought about making the fort a tourist attraction.) "
The government stalled the sale of this heritage structure. But the neglect of existing forts, including many from Shivaji's era, continues. Ironically, the government now says it wants to build a modern fort for Sivaji at a cost of Rs 100 crore.
Maharashtra Deputy Chief Minister R R Patil says, “Chatrapati ki history puri duniya ko maloom honi chahiye isiliye smarak banane ki koshish kar rahein hain (We are building a memorial for Shivaji because we feel the whole world should know about him).”
In their election manifesto the ruling parties in Maharashtra has promised for a Rs 100 crore memorial of Chatrapati Shivaji Mahaaraj but looking at the remains of this Capital fort of Shivajis Kingdom it seems those promised money can be of much help to restore and develop the facilities over here.
Maharashtra is home to the largest number of military forts in India – many of them over 300 years old. But most of them are falling apart.
The forts in Raigarh, Maharashtra could be an ideal location film producers or hotel chains.
But the indifference of the Maharashtra government and the Archaeological Survey of India, which is in charge of the forts, has ensured these forts are crumbling.
The Padmadurg fort is yet another a serene location on the west coast of Maharashtra. Here one can clearly see the western part of ramparts are totally fallen and are in dilapidated condition.
Speaking about the forts’ situation, writer and journalist Kiran Batham says, “Yeh quila hai. Log aate hain, dekhte hain aur aason baha ke chale jaate hain. Aise haal mein quial hai (People visit the fort and go away feeling sad because of the state it's in)."
The cannons at the Padmadurg fort are the vital evidence of history. There are hundreds of such cannons in the fort.
This is the western bastion of Padmadurg fort and the moment these ramparts are falling these cannons are going down to the inter tidal zone of the sea.
The Archaeological Survey says it has a plan in place but needs time to implement it.
Superintending Archaeologist, ASI Mumbai Circle P S Narasimhan says, “We need the manpower and time even if we conceive a proposal to actually realise it. We will take 2 to 3 years.”
Underi is another fort, which is also in controversy since it was to be sold out to a private party.
The local villagers who owned the land sold off the 300-year-old piece of history to a private developer.
Thal Underi village sarpanch Sheshnath Koli says, “kisi ne bhi socha nahin ki kyon paryatak nahi aate, sarkaar ne bhi sacha nahi ki quila paryatak ke layak hai. to humne socha ki quile ka kuch achcha ho. (The government never even thought about making the fort a tourist attraction.) "
The government stalled the sale of this heritage structure. But the neglect of existing forts, including many from Shivaji's era, continues. Ironically, the government now says it wants to build a modern fort for Sivaji at a cost of Rs 100 crore.
Maharashtra Deputy Chief Minister R R Patil says, “Chatrapati ki history puri duniya ko maloom honi chahiye isiliye smarak banane ki koshish kar rahein hain (We are building a memorial for Shivaji because we feel the whole world should know about him).”
In their election manifesto the ruling parties in Maharashtra has promised for a Rs 100 crore memorial of Chatrapati Shivaji Mahaaraj but looking at the remains of this Capital fort of Shivajis Kingdom it seems those promised money can be of much help to restore and develop the facilities over here.
Friday, November 24, 2006
Chip to Convert Hit to Electricity
Speaking in a hotel conference room near Tower Bridge late last week Dr Lew Brown, president and CEO of Eneco, is trying to convince a roomful of sceptical investors that its new chip technology will revolutionise the way we generate electricity. It has to be said that he is doing a pretty good job.
"This chip compares with the invention of the transistor, or the TV, or the first aircraft," he says. "It is a genuinely disruptive technology." Now if a claim like that won’t get investors' attention I'm not sure what will.
As reported last week, Eneco is a development stage company that claims to have invented and patented a "solid state energy conversion/generation chip" that will convert heat directly into electricity or alternatively refrigerate down to -200 degrees celsius when electricity is applied.
As one potential investor who has flown all the way from Scotland for the two hour presentation confides: "I had to come, it just sounded too good to be true."
He is not alone, interested parties have also traveled from Italy, Switzerland, Ireland and all over the UK to see if the miracle chip might deliver on its promises.
So is it too good to be true? Will it work?
Well, on first impressions it just might. And it could have a massive impact on how IT equipment, and in particular laptops and other mobile devices, are designed and powered.
The chip is based on the principles of thermionic energy conversion whereby the energy of a hot metal over comes the electrostatic forces holding electrons to its surface. These free electrons then pass across a vacuum to a cold metal and in the process create an electronic charge that can be harnessed.
The main difficulty with exploiting this process at a commercial level has been in creating the vacuum between the two metals. But Eneco has overcome the problem by replacing the vacuum with, what the brochure describes as, "a properly selected semiconductor thermoelectric that is thick enough to support a significant temperature differential between the emitter and the collector in order to achieve efficiencies of practical interest".
The result is a solid state energy conversion chip that can operate at temperatures of up to 600 degrees celcius and deliver absolute efficiencies in terms of how much heat energy is converted to electricity of between 20 and 30 percent.
If the energy conversion rate is impressive the potential list of practical applications proves equally exciting.
Initially Eneco plans to target the "low-hanging fruits" found in the existing thermoelectric market. The company says the technology would suit off-grid energy generation environments, such as pipeline monitoring stations and space craft, where its promises to outperform existing thermoelectric products. The company also expects to have its first order in this area from the US military soon.
The next potential market for Eneco lies in portable power, where it hopes the chips will ultimately replace high end lithium ion and polymer batteries used in laptops and other handheld devices.
The company says it is already in talks with both Dell and Apple about how the chips could be used in their devices. Initial talks have focused on integrating the heat conversion chips into the device so it can harness the heat generated by processors and turn it into electricity to power fans or other cooling technologies. By harnessing this power the devices, be they initially laptops and handhelds, or later even servers and PCs, should see improved energy efficiency, extended battery life and enhanced performance.
Brown also sees the chips ultimately replacing batteries altogether. He argues that by linking the modules to a microburner - a catalytic burner that produces between 275 and 600 degrees centigrade – you can heat the chips and generate enough power to run the device.
In theory this approach would be far cleaner as the burners that Eneco is planning to employ use Ethanol – a biofuel that is carbon neutral as the CO2 emitted when it burns is consumed as the original plant grows.
It is also more convenient than current battery systems, according to Brown, as it would prove lighter, less bulky, quieter and would not need recharging as "when the burner runs out you can instantly replace it by putting in a new fuel cassette".
The handheld device market represents a $5bn opportunity according to Eneco, but the real cash cow for the company appears will come from harnessing waste heat and turning it into power.
Currently we spend around $1,500bn a year globally on fossil fuels, but when they are burned around 50 percent of the energy is wasted. Eneco envisages a situation where integrating its chips onto the side of a furnace for example would help capture much of that wasted heat and turn it into useful energy.
This situation could be mirrored in any number of industrial environments where heat is created while on a smaller scale the chips could also replace alternators in cars.
Eneco claims all these scenarios are plausible even before you consider the chip's ability to act as a cheap and efficient cooling technology potentially deployed in air conditioning, refrigeration units, and, of course, IT equipment.
These theoretical deployments are all well and good but the big issue for investors is whether the technology works and how close Eneco is to realising these many applications. And, in fairness to Brown he has an answer to almost every question from the floor.
In response to questions about their durability he claims that current thermoelectric technologies used on NASA's spacecraft have a life of over twenty years with no degradation in performance and that the chips are expected to enjoy a similar lifespan. Meanwhile, the fact that there are no moving parts means there is no wear and therefore no maintenance requirements.
Questions about how easy it is to manufacture the chips are also batted away with Brown claiming it can be built using established microprocessor design practices, while he is equally adamant that 48 patents or patents pending mean there is no danger of the technology "being stolen from under us".
The main technical concern from the floor is around how you keep a temperature differential between two sides of a chip no thicker than a coin. But speaking to GBN after the presentation Brown explains that the design of modules incorporating multiple chips will resolve this issue.
"Within the module you have a top ceramic plate which makes heat distribution uniform, then you have the chips in between and another ceramic plate on the bottom that takes the heat away," he says. "These ceramic plates effectively act as insulation so the hot side will be significantly hotter than the cold side."
In theory this means you can stick the module on the side of a boiler, for example, and the external or cold side will still be very hot, but it'll be sufficiently cold compared to the side actually in contact with the boiler that there is a differential capable of generating a significant amount of electricity.
This makes sense but it does strike that the key issue for the chip when used practically will be in ensuring the insulation is good enough to make this differential sufficiently large so that enough energy is produced to make the deployment worthwhile.
So where is the fly in the ointment? Well, Brown does admit there are "issues" with the packaging. The chips are so small that packaging them together in a module is tricky and the focus of the development effort is currently in this area.
Eneco insists it is making good progress and its first products will be available by the end of next year or early 2008, but while this may be perfectly feasible in the thermoelectric market where the applications will be relatively simple getting the chips into other environments may prove trickier.
Talks with potential customers about how exactly the technology should be used are only at an early stage and even though firms such as Apple, Dell, Ford, BMW and Boeing are all interested there appear to be plenty of issues to iron out.
"We are talking to partners about what they need to do and what we need to do to get the first demonstration products built," admits Brown. "For example, we're not there yet [with Dell and Apple] on where [the chip will] sit on the motherboard. Though it is so small it could also be incorporated as part of the processor."
The lack of clarity on such fundamental design issues suggests it is likely to be some time before Eneco powered devices emerge. But if these issues can be overcome - and anyone with any experience of energy conversion technologies will tell you it remains a big if - the company does appear to have a truly disruptive technology that could deliver clean, cheap and efficient power to a raft of different industries.
Speaking in a hotel conference room near Tower Bridge late last week Dr Lew Brown, president and CEO of Eneco, is trying to convince a roomful of sceptical investors that its new chip technology will revolutionise the way we generate electricity. It has to be said that he is doing a pretty good job.
"This chip compares with the invention of the transistor, or the TV, or the first aircraft," he says. "It is a genuinely disruptive technology." Now if a claim like that won’t get investors' attention I'm not sure what will.
As reported last week, Eneco is a development stage company that claims to have invented and patented a "solid state energy conversion/generation chip" that will convert heat directly into electricity or alternatively refrigerate down to -200 degrees celsius when electricity is applied.
As one potential investor who has flown all the way from Scotland for the two hour presentation confides: "I had to come, it just sounded too good to be true."
He is not alone, interested parties have also traveled from Italy, Switzerland, Ireland and all over the UK to see if the miracle chip might deliver on its promises.
So is it too good to be true? Will it work?
Well, on first impressions it just might. And it could have a massive impact on how IT equipment, and in particular laptops and other mobile devices, are designed and powered.
The chip is based on the principles of thermionic energy conversion whereby the energy of a hot metal over comes the electrostatic forces holding electrons to its surface. These free electrons then pass across a vacuum to a cold metal and in the process create an electronic charge that can be harnessed.
The main difficulty with exploiting this process at a commercial level has been in creating the vacuum between the two metals. But Eneco has overcome the problem by replacing the vacuum with, what the brochure describes as, "a properly selected semiconductor thermoelectric that is thick enough to support a significant temperature differential between the emitter and the collector in order to achieve efficiencies of practical interest".
The result is a solid state energy conversion chip that can operate at temperatures of up to 600 degrees celcius and deliver absolute efficiencies in terms of how much heat energy is converted to electricity of between 20 and 30 percent.
If the energy conversion rate is impressive the potential list of practical applications proves equally exciting.
Initially Eneco plans to target the "low-hanging fruits" found in the existing thermoelectric market. The company says the technology would suit off-grid energy generation environments, such as pipeline monitoring stations and space craft, where its promises to outperform existing thermoelectric products. The company also expects to have its first order in this area from the US military soon.
The next potential market for Eneco lies in portable power, where it hopes the chips will ultimately replace high end lithium ion and polymer batteries used in laptops and other handheld devices.
The company says it is already in talks with both Dell and Apple about how the chips could be used in their devices. Initial talks have focused on integrating the heat conversion chips into the device so it can harness the heat generated by processors and turn it into electricity to power fans or other cooling technologies. By harnessing this power the devices, be they initially laptops and handhelds, or later even servers and PCs, should see improved energy efficiency, extended battery life and enhanced performance.
Brown also sees the chips ultimately replacing batteries altogether. He argues that by linking the modules to a microburner - a catalytic burner that produces between 275 and 600 degrees centigrade – you can heat the chips and generate enough power to run the device.
In theory this approach would be far cleaner as the burners that Eneco is planning to employ use Ethanol – a biofuel that is carbon neutral as the CO2 emitted when it burns is consumed as the original plant grows.
It is also more convenient than current battery systems, according to Brown, as it would prove lighter, less bulky, quieter and would not need recharging as "when the burner runs out you can instantly replace it by putting in a new fuel cassette".
The handheld device market represents a $5bn opportunity according to Eneco, but the real cash cow for the company appears will come from harnessing waste heat and turning it into power.
Currently we spend around $1,500bn a year globally on fossil fuels, but when they are burned around 50 percent of the energy is wasted. Eneco envisages a situation where integrating its chips onto the side of a furnace for example would help capture much of that wasted heat and turn it into useful energy.
This situation could be mirrored in any number of industrial environments where heat is created while on a smaller scale the chips could also replace alternators in cars.
Eneco claims all these scenarios are plausible even before you consider the chip's ability to act as a cheap and efficient cooling technology potentially deployed in air conditioning, refrigeration units, and, of course, IT equipment.
These theoretical deployments are all well and good but the big issue for investors is whether the technology works and how close Eneco is to realising these many applications. And, in fairness to Brown he has an answer to almost every question from the floor.
In response to questions about their durability he claims that current thermoelectric technologies used on NASA's spacecraft have a life of over twenty years with no degradation in performance and that the chips are expected to enjoy a similar lifespan. Meanwhile, the fact that there are no moving parts means there is no wear and therefore no maintenance requirements.
Questions about how easy it is to manufacture the chips are also batted away with Brown claiming it can be built using established microprocessor design practices, while he is equally adamant that 48 patents or patents pending mean there is no danger of the technology "being stolen from under us".
The main technical concern from the floor is around how you keep a temperature differential between two sides of a chip no thicker than a coin. But speaking to GBN after the presentation Brown explains that the design of modules incorporating multiple chips will resolve this issue.
"Within the module you have a top ceramic plate which makes heat distribution uniform, then you have the chips in between and another ceramic plate on the bottom that takes the heat away," he says. "These ceramic plates effectively act as insulation so the hot side will be significantly hotter than the cold side."
In theory this means you can stick the module on the side of a boiler, for example, and the external or cold side will still be very hot, but it'll be sufficiently cold compared to the side actually in contact with the boiler that there is a differential capable of generating a significant amount of electricity.
This makes sense but it does strike that the key issue for the chip when used practically will be in ensuring the insulation is good enough to make this differential sufficiently large so that enough energy is produced to make the deployment worthwhile.
So where is the fly in the ointment? Well, Brown does admit there are "issues" with the packaging. The chips are so small that packaging them together in a module is tricky and the focus of the development effort is currently in this area.
Eneco insists it is making good progress and its first products will be available by the end of next year or early 2008, but while this may be perfectly feasible in the thermoelectric market where the applications will be relatively simple getting the chips into other environments may prove trickier.
Talks with potential customers about how exactly the technology should be used are only at an early stage and even though firms such as Apple, Dell, Ford, BMW and Boeing are all interested there appear to be plenty of issues to iron out.
"We are talking to partners about what they need to do and what we need to do to get the first demonstration products built," admits Brown. "For example, we're not there yet [with Dell and Apple] on where [the chip will] sit on the motherboard. Though it is so small it could also be incorporated as part of the processor."
The lack of clarity on such fundamental design issues suggests it is likely to be some time before Eneco powered devices emerge. But if these issues can be overcome - and anyone with any experience of energy conversion technologies will tell you it remains a big if - the company does appear to have a truly disruptive technology that could deliver clean, cheap and efficient power to a raft of different industries.
Thursday, November 23, 2006
Is Indian democracy flawed?
India is one of the fifty-four countries that have flawed democracies, according to a new democracy index devised by the Economist Intelligence Unit, a division of the leading news magazine The Economist.
In a detailed analysis of the 'World in 2007', the magazine has devised the index that examines 60 indicators across five broad categories: free elections, civil liberties, functioning of government, political participation and political culture.
As per the index, India is listed among the 54 'flawed democracies' that include countries such as Brazil, Israel, Poland, Romania and Estonia. The list of 'authoritarian regimes' includes Pakistan.
Twenty-eight countries including the US, Britain, Norway, Denmark and Portugal are listed as 'full democracies'. Sweden is described as a 'near-perfect' democracy.
According to the index methodology, India scored 9.58 out of ten for its electoral process and pluralism and 8.21 out of ten for functioning of government. Its score for political participation was 5.56 out of 10 and 5.63 out of 10 for political culture. It got 9.41 out of ten for civil liberties.
India is one of the fifty-four countries that have flawed democracies, according to a new democracy index devised by the Economist Intelligence Unit, a division of the leading news magazine The Economist.
In a detailed analysis of the 'World in 2007', the magazine has devised the index that examines 60 indicators across five broad categories: free elections, civil liberties, functioning of government, political participation and political culture.
As per the index, India is listed among the 54 'flawed democracies' that include countries such as Brazil, Israel, Poland, Romania and Estonia. The list of 'authoritarian regimes' includes Pakistan.
Twenty-eight countries including the US, Britain, Norway, Denmark and Portugal are listed as 'full democracies'. Sweden is described as a 'near-perfect' democracy.
According to the index methodology, India scored 9.58 out of ten for its electoral process and pluralism and 8.21 out of ten for functioning of government. Its score for political participation was 5.56 out of 10 and 5.63 out of 10 for political culture. It got 9.41 out of ten for civil liberties.
What is the Best Medical Insurance at the moment?
Medical insurance and Mediclaim is synonymous. But that is what we have in far from reality. It is always true about Indian consumer mindset. Branding is so omnipresent here, so that products are associated with brands and they are deep in to the minds and companies making huge profits on the brand equity.
Leading a happy life, involves good planning for your health. Accidents happen and you need to be prepared for such situations. In times of high health cost , you need to get covered for health risks. A good insurance should cover Doctor visits, Lab tests, Hospital stays and Diagnostic tests. There are quite a few companies covering health risks with good Insurance policies. Let us talk about a few of them.
- Bajaj Allianz Health Guard
- Royal Sundaram Health Shield Gold
- New India Assurance Bhavishya Arogya
- Mediclaim insurance
- Life Insurance Corporation of India's Ashadeep
Medical insurance and Mediclaim is synonymous. But that is what we have in far from reality. It is always true about Indian consumer mindset. Branding is so omnipresent here, so that products are associated with brands and they are deep in to the minds and companies making huge profits on the brand equity.
Leading a happy life, involves good planning for your health. Accidents happen and you need to be prepared for such situations. In times of high health cost , you need to get covered for health risks. A good insurance should cover Doctor visits, Lab tests, Hospital stays and Diagnostic tests. There are quite a few companies covering health risks with good Insurance policies. Let us talk about a few of them.
- Bajaj Allianz Health Guard
- Royal Sundaram Health Shield Gold
- New India Assurance Bhavishya Arogya
- Mediclaim insurance
- Life Insurance Corporation of India's Ashadeep
Thursday, November 16, 2006
Navi Mumbai Development Plan
The City Development Plan (CDP) unveiled by Navi Mumbai Municiple Corporation (NMMC) under the centers Jawaharlal Nehru (Another mission in Nehru's name) urban renewal mission embarks on Rs. 2600 Crores project to develop city and neighboring areas infrastructure.
Plan has been formulated to meet the growth of city from current population of 1 million to 2.5 million in coming years. It is developed in focusing the transportation, infrastructure and land use of the so called 21st century city of Navi Mumbai
Funding will be done by center (50%), state (20%) and remaining through financial instruments.
Connectivity between the two cities Mumbai and Navi Mumbai will be in focus.
The City Development Plan (CDP) unveiled by Navi Mumbai Municiple Corporation (NMMC) under the centers Jawaharlal Nehru (Another mission in Nehru's name) urban renewal mission embarks on Rs. 2600 Crores project to develop city and neighboring areas infrastructure.
Plan has been formulated to meet the growth of city from current population of 1 million to 2.5 million in coming years. It is developed in focusing the transportation, infrastructure and land use of the so called 21st century city of Navi Mumbai
Funding will be done by center (50%), state (20%) and remaining through financial instruments.
Connectivity between the two cities Mumbai and Navi Mumbai will be in focus.
Wednesday, November 15, 2006
Wireless Power
The tangle of cables and plugs needed to recharge today's electronic gadgets could soon be a thing of the past.
US researchers have outlined a relatively simple system that could deliver power to devices such as laptop computers or MP3 players wirelessly.
The concept exploits century-old physics and could work over distances of many metres, the researchers said.
Although the team has not built and tested a system, computer models and mathematics suggest it will work.
"There are so many autonomous devices such as cell phones and laptops that have emerged in the last few years," said Assistant Professor Marin Soljacic from the Massachusetts Institute of Technology and one of the researchers behind the work.
"We started thinking, 'it would be really convenient if you didn't have to recharge these things'.
"And because we're physicists we asked, 'what kind of physical phenomenon can we use to do this wireless energy transfer?'."
Energy trap
The answer the team came up with was "resonance", a phenomenon that causes an object to vibrate when energy of a certain frequency is applied.
MIT Assistant Professor of Physics Marin Soljacic (credit: Donna Coveney/MIT)
This would work in a room let's say but you could adapt it to work in a factory
Marin Soljacic
"When you have two resonant objects of the same frequency they tend to couple very strongly," Professor Soljacic told the BBC News website.
Resonance can be seen in musical instruments for example.
"When you play a tune on one, then another instrument with the same acoustic resonance will pick up that tune, it will visibly vibrate," he said.
Instead of using acoustic vibrations, the team's system exploits the resonance of electromagnetic waves. Electromagnetic radiation includes radio waves, infrared and X-rays.
Typically, systems that use electromagnetic radiation, such as radio antennas, are not suitable for the efficient transfer of energy because they scatter energy in all directions, wasting large amounts of it into free space.
To overcome this problem, the team investigated a special class of "non-radiative" objects with so-called "long-lived resonances".
When energy is applied to these objects it remains bound to them, rather than escaping to space. "Tails" of energy, which can be many metres long, flicker over the surface.
"If you bring another resonant object with the same frequency close enough to these tails then it turns out that the energy can tunnel from one object to another," said Professor Soljacic.
Plugs and cables
Wireless energy transfer has been thought about for centuries
Hence, a simple copper antenna designed to have long-lived resonance could transfer energy to a laptop with its own antenna resonating at the same frequency. The computer would be truly wireless.
Any energy not diverted into a gadget or appliance is simply reabsorbed.
The systems that the team have described would be able to transfer energy over three to five metres.
"This would work in a room let's say but you could adapt it to work in a factory," he said.
"You could also scale it down to the microscopic or nanoscopic world."
Old technology
The team from MIT is not the first group to suggest wireless energy transfer.
Nineteenth-century physicist and engineer Nikola Tesla experimented with long-range wireless energy transfer, but his most ambitious attempt - the 29m high aerial known as Wardenclyffe Tower, in New York - failed when he ran out of money.
SplashPower pad
Wireless power for gadgets
Others have worked on highly directional mechanisms of energy transfer such as lasers.
However, these require an uninterrupted line of sight, and are therefore not good for powering objects around the home.
A UK company called Splashpower has also designed wireless recharging pads onto which gadget lovers can directly place their phones and MP3 players to recharge them.
The pads use electromagnetic induction to charge devices, the same process used to charge electric toothbrushes.
One of the co-founders of Splashpower, James Hay, said the MIT work was "clearly at an early stage" but "interesting for the future".
"Consumers desire a simple universal solution that frees them from the hassles of plug-in chargers and adaptors," he said.
"Wireless power technology has the potential to deliver on all of these needs."
However, Mr Hay said that transferring the power was only part of the solution.
"There are a number of other aspects that need to be addressed to ensure efficient conversion of power to a form useful to input to devices."
Professor Soljacic will present the work at the American Institute of Physics Industrial Physics Forum in San Francisco on 14 November.
The work was done in collaboration with his colleagues Aristeidis Karalis and John Joannopoulos.
The tangle of cables and plugs needed to recharge today's electronic gadgets could soon be a thing of the past.
US researchers have outlined a relatively simple system that could deliver power to devices such as laptop computers or MP3 players wirelessly.
The concept exploits century-old physics and could work over distances of many metres, the researchers said.
Although the team has not built and tested a system, computer models and mathematics suggest it will work.
"There are so many autonomous devices such as cell phones and laptops that have emerged in the last few years," said Assistant Professor Marin Soljacic from the Massachusetts Institute of Technology and one of the researchers behind the work.
"We started thinking, 'it would be really convenient if you didn't have to recharge these things'.
"And because we're physicists we asked, 'what kind of physical phenomenon can we use to do this wireless energy transfer?'."
Energy trap
The answer the team came up with was "resonance", a phenomenon that causes an object to vibrate when energy of a certain frequency is applied.
MIT Assistant Professor of Physics Marin Soljacic (credit: Donna Coveney/MIT)
This would work in a room let's say but you could adapt it to work in a factory
Marin Soljacic
"When you have two resonant objects of the same frequency they tend to couple very strongly," Professor Soljacic told the BBC News website.
Resonance can be seen in musical instruments for example.
"When you play a tune on one, then another instrument with the same acoustic resonance will pick up that tune, it will visibly vibrate," he said.
Instead of using acoustic vibrations, the team's system exploits the resonance of electromagnetic waves. Electromagnetic radiation includes radio waves, infrared and X-rays.
Typically, systems that use electromagnetic radiation, such as radio antennas, are not suitable for the efficient transfer of energy because they scatter energy in all directions, wasting large amounts of it into free space.
To overcome this problem, the team investigated a special class of "non-radiative" objects with so-called "long-lived resonances".
When energy is applied to these objects it remains bound to them, rather than escaping to space. "Tails" of energy, which can be many metres long, flicker over the surface.
"If you bring another resonant object with the same frequency close enough to these tails then it turns out that the energy can tunnel from one object to another," said Professor Soljacic.
Plugs and cables
Wireless energy transfer has been thought about for centuries
Hence, a simple copper antenna designed to have long-lived resonance could transfer energy to a laptop with its own antenna resonating at the same frequency. The computer would be truly wireless.
Any energy not diverted into a gadget or appliance is simply reabsorbed.
The systems that the team have described would be able to transfer energy over three to five metres.
"This would work in a room let's say but you could adapt it to work in a factory," he said.
"You could also scale it down to the microscopic or nanoscopic world."
Old technology
The team from MIT is not the first group to suggest wireless energy transfer.
Nineteenth-century physicist and engineer Nikola Tesla experimented with long-range wireless energy transfer, but his most ambitious attempt - the 29m high aerial known as Wardenclyffe Tower, in New York - failed when he ran out of money.
SplashPower pad
Wireless power for gadgets
Others have worked on highly directional mechanisms of energy transfer such as lasers.
However, these require an uninterrupted line of sight, and are therefore not good for powering objects around the home.
A UK company called Splashpower has also designed wireless recharging pads onto which gadget lovers can directly place their phones and MP3 players to recharge them.
The pads use electromagnetic induction to charge devices, the same process used to charge electric toothbrushes.
One of the co-founders of Splashpower, James Hay, said the MIT work was "clearly at an early stage" but "interesting for the future".
"Consumers desire a simple universal solution that frees them from the hassles of plug-in chargers and adaptors," he said.
"Wireless power technology has the potential to deliver on all of these needs."
However, Mr Hay said that transferring the power was only part of the solution.
"There are a number of other aspects that need to be addressed to ensure efficient conversion of power to a form useful to input to devices."
Professor Soljacic will present the work at the American Institute of Physics Industrial Physics Forum in San Francisco on 14 November.
The work was done in collaboration with his colleagues Aristeidis Karalis and John Joannopoulos.
Little Johny Jokes
TEACHER: Why are you late?
Johnny Martin: Because of the sign.
TEACHER: What sign?
Johnny Martin: The one that says, "School Ahead, Go
Slow."
TEACHER: Johnny, why are you doing your maths sums on
the floor?
JOHNNY: You told me to do it without using tables!
TEACHER: What is the chemical formula for water?
JOHNNY: "HIJKLMNO"!!
TEACHER: What are you talking about?
JOHNNY: Yesterday you said it's H to O!
TEACHER: Johnny, go to the map and find North America.
JOHNNY: Here it is!
TEACHER: Correct. Now, class, who discovered America?
CLASS: Johnny!
TEACHER: Johnny, name one important thing we have
today that we
didn't have ten years ago.
JOHNNY: Me!
TEACHER: Johnny, why do you always get so dirty?
JOHNNY: Well, I'm a lot closer to the ground than you
are.
JOHNNY: Dad, can you write in the dark?
FATHER: I think so. What do you want me to write?
JOHNNY: Your name on this report card.
TEACHER: How can you prevent diseases caused by biting
insects?
JOHNNY: Don't bite any.
TEACHER: Johnny, give me a sentence starting with "I".
JOHNNY: I is...
TEACHER: No, Johnny. Alwayss
TEACHER: Why are you late?
Johnny Martin: Because of the sign.
TEACHER: What sign?
Johnny Martin: The one that says, "School Ahead, Go
Slow."
TEACHER: Johnny, why are you doing your maths sums on
the floor?
JOHNNY: You told me to do it without using tables!
TEACHER: What is the chemical formula for water?
JOHNNY: "HIJKLMNO"!!
TEACHER: What are you talking about?
JOHNNY: Yesterday you said it's H to O!
TEACHER: Johnny, go to the map and find North America.
JOHNNY: Here it is!
TEACHER: Correct. Now, class, who discovered America?
CLASS: Johnny!
TEACHER: Johnny, name one important thing we have
today that we
didn't have ten years ago.
JOHNNY: Me!
TEACHER: Johnny, why do you always get so dirty?
JOHNNY: Well, I'm a lot closer to the ground than you
are.
JOHNNY: Dad, can you write in the dark?
FATHER: I think so. What do you want me to write?
JOHNNY: Your name on this report card.
TEACHER: How can you prevent diseases caused by biting
insects?
JOHNNY: Don't bite any.
TEACHER: Johnny, give me a sentence starting with "I".
JOHNNY: I is...
TEACHER: No, Johnny. Alwayss
Monday, November 13, 2006
Speeding car kills six in mumbai.
Alistair Parreira son of a mumbai based industrialist and five of his friends all around 20 years in age returning from late night party and drunk in a speeding car driven by Alistair himself run over people sleeping on footpath. Killing six and injuring many more. Alistair has shown no remorse in front of journalists.
Accident occurred on Carter Road in the early hours of sunday. Victims were construction workers from Tamil Nadu, were sleeping on the pavement when a Toyota Corolla mowed them down
A case has been registered against Aliston Pareira, (21) who was driving the car, Calvin (18) and one Jacob, all residents of Bandra at Khar police station.
A five-year-old boy and a seven-year-old girl, three women and a man were among the dead while six men and two women were injured.
Angelina Jolie & Brad Pitt in Mumbai
Angelina Jolie and hubby Brad Pitt along with their adopted children son Maddox and daughter Zahara, strolling at Gateway of India on Sunday 12th November 2006. They are in India and residing in Pune for the shoot of their film 'The Mighty Hearth' based on the life of slain journalist Daniel Pearl, Jolie plays Pearls widow and film is produced by Brad Pitt himself.
Now they have got into a controversy, fliming in a school of Mumbai, their bodygaurds racially abused the parents and school children and landed themselves in police custody.
Angelina Jolie and hubby Brad Pitt along with their adopted children son Maddox and daughter Zahara, strolling at Gateway of India on Sunday 12th November 2006. They are in India and residing in Pune for the shoot of their film 'The Mighty Hearth' based on the life of slain journalist Daniel Pearl, Jolie plays Pearls widow and film is produced by Brad Pitt himself.
Now they have got into a controversy, fliming in a school of Mumbai, their bodygaurds racially abused the parents and school children and landed themselves in police custody.
Friday, November 10, 2006
Now Urmila sings
Seems like Urmila is planning to change her profession. The actress will
now be singing for a private music album.
Recently, veteran singer Asha Bhonsle asked Urmila to sing a duet with her for Bhonsle’s next music album. Urmila says that when she met Asha Bhonsle recently, Bhonsle was telling someone that she had sung for Urmila in Rangeela but then Urmila went and reminded her that she had also sung for her in Chamatkar, which was much before Rangeela.
The very next day, Urmila got a call from Asha Bhonsle asking Urmila to sing with her for her next music album.
Last month Asha Bhonsle had recorded a song with Sanjay Dutt for her album ‘Asha and Friends’, for which she plans to sing with her Bollywood friends. Probably, even this song with Urmila will be the part of the same album.
Seems like Urmila is planning to change her profession. The actress will
now be singing for a private music album.
Recently, veteran singer Asha Bhonsle asked Urmila to sing a duet with her for Bhonsle’s next music album. Urmila says that when she met Asha Bhonsle recently, Bhonsle was telling someone that she had sung for Urmila in Rangeela but then Urmila went and reminded her that she had also sung for her in Chamatkar, which was much before Rangeela.
The very next day, Urmila got a call from Asha Bhonsle asking Urmila to sing with her for her next music album.
Last month Asha Bhonsle had recorded a song with Sanjay Dutt for her album ‘Asha and Friends’, for which she plans to sing with her Bollywood friends. Probably, even this song with Urmila will be the part of the same album.
Tuesday, November 07, 2006
India's less corrupt now!...
The latest Transparency International (TI), the Berlin-based anti-corruption watchdog, ranks India at number 70 on its Corruption Perception Index in a list of 163 countries. India's ranking last year was number 88. Hope they have not got bribed by Indians while preparing this index.
The report says that Iraq, Myanmar and Haiti are the most corrupt nations in the world, while Finland, Iceland and New Zealand are seen least corrupt.
The 2006 Corruption Perceptions Index is a composite index that draws on multiple expert opinion surveys that poll perceptions of public sector corruption in 163 countries around the world, the greatest scope of any CPI to date. It scores countries on a scale from zero to ten, with zero indicating high levels of perceived corruption and ten indicating low levels of perceived corruption.
see the Corruption Perception Index here .
Source : A report on rediff.com
The latest Transparency International (TI), the Berlin-based anti-corruption watchdog, ranks India at number 70 on its Corruption Perception Index in a list of 163 countries. India's ranking last year was number 88. Hope they have not got bribed by Indians while preparing this index.
The report says that Iraq, Myanmar and Haiti are the most corrupt nations in the world, while Finland, Iceland and New Zealand are seen least corrupt.
The 2006 Corruption Perceptions Index is a composite index that draws on multiple expert opinion surveys that poll perceptions of public sector corruption in 163 countries around the world, the greatest scope of any CPI to date. It scores countries on a scale from zero to ten, with zero indicating high levels of perceived corruption and ten indicating low levels of perceived corruption.
see the Corruption Perception Index here .
Source : A report on rediff.com
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