Showing posts with label Technology. Show all posts
Showing posts with label Technology. Show all posts

Sunday, February 9, 2014

Micro-windmills to power your phone?

Fancy a portable windmill to power your phone? You may get your hands on one real soon.

Researchers in the US have invented tiny turbines that harvest energy from the wind. Hundreds of them could be embedded in the sleeve of your mobile phone, allowing you to recharge it simply by waving the phone in the air or holding it out of a window on a windy day.

Micro-wind turbine
"Pretty small!" One of the micro-windmills is placed here on a US penny (credit: University of Texas at Arlington)


How small?

The micro-windmills, a collaboration between The University of Texas at Arlington and a technology company in Taiwan, measure 1.8mm across at their widest point - so small that 10 of them could fit on a single grain of rice.

The tiny devices are assembled by stacking up layers of durable nickel alloy. They can be made on a single wafer using batch processes, meaning that thousands of windmills can be created for relatively low costs.


Other applications

As well as powering your mobile phone, the researchers also envisage placing windmills inside flat panels which would then be mounted onto the walls of your house.

The little windmills could then generate energy for heating, lighting, security, or even that electric barbecue you've always had your eye on. Of course, this has to be put to test yet before you could start celebrating.


Source: sciencefocus

Thursday, February 6, 2014

Paper solar cells: The future for PV?

Another milestone for solar photovoltaic industry? Potentially yes.

Reseachers from the South China University of Technology, alongside their counterparts from the University of Nebraska-Lincoln, have published a report on a new type of paper they claim can be used as material for next generation solar cells.

It said the new wood-based paper product outperforms all other materials in both optical transparency and optical haze, delivering low-cost, high-efficiency and environmentally friendly performance.


Wood fibre close-up. Tests show that a wood-based paper product could be used in solar cell production. Image: pv-magazine


Material for next-gen solar cells

The paper is made of TEMPO-oxidized wood fibers that eliminate micropores and instead produce nanopores, which allow for ultrahigh transparency values of 96%, and optical haze values of 60% - the highest optical haze value reported among transparent substrates.

Typically, materials that boast a high optical transparency (allowing for good light transmission) of over 90% generally have low optical haze values (the scattering and, therefore, the absorption of transmitted light within the material) of less than 20%.


How it is produced

The TEMPO treatment weakens the hydrogen bond between the microfibers that make up typical wood fibers, causing them to swell and collapse into a tightly packed structure that eliminates micropores.

The wood fibers in normal paper have a low optical transparency because the microcavities that exist within the porous structure cause light scaterring. But with the micropores removed and replaced by nanopores, optical transparency is improved.


I'm  sceptical, but...

Mooted low-cost, eco-friendly adaptations of traditional technology are regularly met with a fair amount of skepticism, but the promised efficiencies this paper could bring to the solar PV industry certainly warrant further investigation.


Further readings at: PV-magazine

Thursday, January 30, 2014

Japanese bra only unhooks for true love?

For those thinking this is nothing more than a goofy marketing gimmick, there is also a bit of science to it. So, with technology and innovation added in, you'd want to find out more.

Ravijour, a Japanese lingerie manufacturer has designed a bra, called the True Love Tester, that apparently knows "how women truly feel." Our Japanese friends never seem to run out of idea.


Unhooks only for true love. Watch the video here



The heart's changing pattern and the duration of the change, which the makers say will allow it to distinguish between activities as diverse as jogging and flirting.


Makers say it only unhooks for true love

In a long-awaited fusion between hot-blooded hormones and cold-headed engineering, a Japanese lingerie company has produced a bra they claim will only unlock when the wearer is really in love.

The "True Love Tester" uses sensors and a special gadget linked to a mobile device to analyse the pattern and speed of the user's heart beat in the heat of the moment.

If the app determines the woman's feelings are for real, the clasp at the front pops open to allow matters between lovers to take their course.

The bra is a gimmick by lingerie brand Ravijour, which says it is not for sale, but forms part of a publicity campaign for the marque's 10th anniversary.

"We wanted to do something that wouldn't just appeal to people who wear our products, but also to lift the romantic mood between men and women," spokeswoman Yuka Tamura said.

In a promotional video, viewers are shown how the glittering gold lame bra conceals sensors placed inside the cup, which send wireless signals to a smartphone.

The app studies the heart's changing pattern and the duration of the change, which the makers say will allow it to distinguish between activities as diverse as jogging and flirting, where a woman's requirements of her bra are quite distinct.

In a promotional video clip, a toned model stands in a dimly lit studio wearing only her underwear, which keeps the insistent alpha male at bay because he cannot unhook the clasp.



Sunday, January 26, 2014

What is black box recorder made of?

The 'black box' of an aircraft is built to be virtually indestructible. But let's start by dispelling one myth about black boxes. Flight data recorders (FDR) as they are officially called, are not black, but coloured bright orange so that they an be found easily after an aviation accident.

Just like life buoys and life jackets.


The indestructible orange-painted box. Photo: Curtiss-Wright Controls


Aircrafts carry two black boxes. The flight data recorder continuously logs details like the plane's speed, altitude, time of day and engine parameters. The other unit records the pilots' voices in the cockpit.

The units are built to:-

  • be resistant to fire and water
  • be able to cope with the force of a major impact
  • withstand low air pressures at altitude should the aircraft plunge into the ocean.

Because of this, black boxes require very strong casings. Earlier models were simply made from stainless steel, but now housings also incorporate titanium, as well as an inner layer of heat-resistant material.

Have a good weekend!


Source: Backpage of the SUNLife, January 26, 2014

Saturday, January 18, 2014

Google's new smart sugar-sensing contact lens for diabetics

You've heard and probably worn the miniature internet-connected Google Glass. The spectacle enables wearers to see, take picture of, and live-stream subjects in front of them.

Miniaturisation doesn't seem to stop there. Google is now crafting a contact lens that contains tiny wireless chip that could help diabetics manage blood sugar levels. This is good news for the contact lens fans out there.


Prototype lenses being tested at Google X can generate glucose readings about once a second. Credit: Google


Google making sugar-sensing contact lens for diabetics

According to Google the lens works using a tiny wireless chip and miniaturized glucose sensor that are embedded between two layers of soft contact lens material.

"We're now testing a smart contact lens that's built to measure glucose levels in tears," project co-founders Brian Otis and Babak Parviz said Thursday in a blog post.

They said prototypes have undergone clinical tests and talks were underway with the US Food and Drug Administration. The project was described as being in its early days, and partners were being sought to make the lenses marketplace reality.

"As you can imagine, tears are hard to collect and study," the Google X lab team members said.

"We wondered if miniaturized electronics -- think chips and sensors so small they look like bits of glitter, and an antenna thinner than a human hair -- might be the way to crack the mystery of tear glucose and measure it with greater accuracy."

Prototype lenses being tested at Google X can generate glucose readings about once a second. Researchers are looking into integrating tiny lights that would warn when blood sugar levels go above or below threshold levels.

Source: AFP


TheGreenMechanics: With diabetes affecting one in every 19 people* on average, this would definitely help in many ways should it become reality. For good or bad, people at Google have came out with many creative innovations in the past.


* - figure cited by Google.

Thursday, January 2, 2014

Samsung announced industry-leading 8-Gigabit LPDDR4 mobile RAM chip

With this announcement, future Samsung mobile devices could be fitted with bigger 4GB RAM and it could be realised as early as this month during the International CES trade show in Las Vegas.

Thinking of Galaxy S5 and Galaxy Note 4 already?


Another industry's first. Image credit Samsung Tomorrow


What this means is that, Samsung will be able to offer a breakthrough 4GB dynamic RAM chips which would be 50% faster than the current fastest LPDDR3 RAM.

In simple terms, you have more performance in your hand (literally). More importantly it uses 40% less energy compared to the latest chip - your battery should last longer!


Samsung Develops Industry’s First 8Gb LPDDR4 Mobile DRAM

Samsung has developed the industry's first 8 Gigabit LPDDR4 (low power double data rate) mobile DRAM. By combining four of them, the electronics giant claimed a high-end smartphone or tablet can get 4GB of RAM.

Today many expensive smartphones have 2GB of RAM, while Samsung's own Galaxy Note 3 has 3GB.

The memory increase and performance improvement offered by Samsung's chip will result in faster, more responsive applications and will open the door for more advanced features as well as higher resolution displays, according to the company.

The product also consumes less power than current memory chipsets, it said. Other expected smartphone trends for 2014 are faster LTE network connections and faster processors.


TheGreenMechanics: The latest Apple flagship, the iPhone 5S uses only 1GB of RAM compared to Samsung's 2GB and 3GB  on its high-end mobile devices. But the 5S feels pretty fast and perform just as good. Maybe it's how the operating system is written/programmed that matters.

I'm happy with what I have, save for the battery performance. I really need my smartphone to last longer than a day on continuous usage.


Source: Samsung

Monday, December 23, 2013

Turning carbon dioxide into electricity


Could carbon dioxide be turned into electricity? Factory smokestacks photo by Curt Carnemark/ Worldbank


This is a great idea, and it quickly reminds you of the geothermal plant currently under construction in the East Coast of Sabah.

Researchers are developing a new kind of geothermal power plant that will lock away unwanted carbon dioxide (CO2) underground—and use it as a tool to boost electric power generation by at least 10 times compared to existing geothermal energy approaches.

The technology to implement this design already exists in different industries, so the researchers are optimistic that their new approach could expand the use of geothermal energy in the U.S. far beyond the handful of states that can take advantage of it now.

The new power plant design resembles a cross between a typical geothermal power plant and the Large Hadron Collider: It features a series of concentric rings of horizontal wells deep underground.

Inside those rings, CO2, nitrogen and water circulate separately to draw heat from below ground up to the surface, where the heat can be used to turn turbines and generate electricity.

The design contrasts with conventional geothermal plants, explained study co-author Jeffrey Bielicki, assistant professor of energy policy in the Department of Civil, Environmental and Geodetic Engineering and the John Glenn School of Public Affairs at The Ohio State University.

"Typical geothermal power plants tap into hot water that is deep under ground, pull the heat off the hot water, use that heat to generate electricity, and then return the cooler water back to the deep subsurface. Here the water is partly replaced with CO2 or another fluid—or a combination of fluids," he said.

CO2 extracts heat more efficiently than water, he added.

This approach—using concentric rings that circulate multiple fluids—builds upon the idea to use CO2originally developed by Martin Saar and others at the University of Minnesota, and can be at least twice as efficient as conventional geothermal approaches, according to computer simulations.

"When we began to develop the idea to use CO2 to produce geothermal energy, we wanted to find a way to make CO2 storage cost-effective while expanding the use of geothermal energy," said Jimmy Randolph, postdoctoral researcher in the Department of Earth Sciences at the University of Minnesota.

"We hope that we can expand the reach of geothermal energy in the United States to include most states west of the Mississippi River," Bielicki said.

The current research team includes Ohio State, the University of Minnesota and Lawrence Livermore National Laboratory, where geoscientist Tom Buscheck came up with the idea to add nitrogen to the mix.

"What makes this concept transformational is that we can deliver renewable energy to customers when it is needed, rather than when the wind happens to be blowing, or when spring thaw causes the greatest runoff," Buscheck said.


Source: PHYS.ORG

Saturday, November 23, 2013

You knew it! Bigger phones mean bigger bills

On average I use 4.5GB to 5GB of mobile data every month and I'm using a 4-inch iPhone smartphone.

For the guys who own phones with screen size of 4.5-inch and above, you are one of those using more data than I do - 7.2GB in average according to study. What this means is that you pay more bills as your phone screen goes up.


Research has shown that users of phones with bigger displays tend to consume more data. - AFPRelaxnews photo via The Star


Study by NPD Group in the US market and shows that owners of smartphones with screens that measure 4.5" upwards consume 44% more WiFi and cellular data each month - some 7.2GB in total - compared with the 5GB that owners of smaller smartphones average.

Bigger sized phones are getting more popular - in November 2012, only 11% of phones on the market boasted a 4.5" or greater display, but now 28% of current devices on sale fall into that category.

And who else's been driving this trend if not the Android fraternity!

The Samsung Galaxy S3, which was the flagship phone of 2012 was notable for its 4.5" screen and its popularity opened the doors to other manufacturers, such as Sony and LG. As a result, a 5" high resolution display has quickly become the standard for any handset that wants to claim flagship status.

It is not surprising then that the 2013 Samsung Galaxy S4 has a 5" HD display and the flagship phablet, the Galaxy Note 3 is 5.5" in screen size.


What are these bigger phones being used for?

NPD Group says they are predominantly for:
  • social media
  • navigation, such asGoogle Maps
  • music and video
  • use of the Pandora Radio app


TheGreenMechanics: I'm a bit disappointed that my current iPhone 5S is only 4" in screen size but as a consolation, I now have 2 reasons to be elated - I can hold and use the phone with a single hand, and I'd unlikely be consuming more data (and higher bills) than my mates with Galaxy S4 or Note 3 in their hands!

The study was conducted in the US, but it can just be as indicative and as relevant here in Malaysia.


Source: The Star Tech-News

Thursday, September 26, 2013

Revolutionary conferencing system launched in Malaysia

Not too sure if this can be termed 'revolutionary' but one thing is for sure - it's a first in Malaysia.

A couple of weeks ago, Bosch launched a new conference system called DCN Multimedia, which uses Internet Protocol-based OMNEO media networking architecture with touch screen conference devices based on the Android operating system.

In a nutshell, what it does is that it enables superior multimedia/remote conferencing experience - that includes audio, video, meeting content and touch-screen technology in "elegant and ergonomically" designed conference devices.


Photo shows Live-testing of the new Bosch DCN multimedia conference system. Photo by Computerworld Malaysia.



DCN Multimedia uses IP-based OMNEO media networking architecture. Photo by Computerworld Malaysia.


Bosch upped the ante on multimedia conferencing

Technology systems provider Bosch has launched a new conference system called DCN Multimedia, which uses IP-based OMNEO media networking architecture with touch screen conference devices based on the Android operating system.

DCN Multimedia is the company's latest range of conference systems that once again shows its innovative edge in developing holistic solutions for digital technology in the conference room. It claimed that the system's sound quality, interactive platforms and diverse practicality offers superior technical proficiency to allow effective communication.

The company now offered a range of meeting and conferencing applications and the new DCN system "combined audio, video, meeting content and touch-screen technology in elegant and ergonomically designed conference devices."

The high-resolution, capacitive touch-screens provide users with the information they need literally at their fingertips, allowing participants to share documents, retrieve and display presentations, as well as access the internet.


How about security standards?

Audio and control data transmitted through the system is encrypted in accordance with internationally recognised standards. This means that it is securely protected against tampering and unauthorized access.

The system allows easy expansion with OMNEO audio devices and a wide range of audio products supporting Dante technology. Enhanced functionalities can also be added to the multimedia conference devices via software and integrating third-party or custom-made apps.

Standard and open technologies can be combined with multimedia capabilities for an enhanced meeting experience.


Reference: Computerworld Malaysia

Friday, September 20, 2013

Invisible skyscraper? Yes, it's possible and South Korea is building one!

If you once thought constructing an invisible skyscraper was impossible, think again. You may not see something like the Invisible Man, but, yeah that's the idea.

Infinity tower
GDS Architects aims to provide the world's first invisible tower, representing the Power of Absence and the Strength of "Nothingness". Image: GDS Architects


According to a recent press release, US-based GDS Archictects will be building an invisible 450m tower in Seoul, South Korea, a first of its kind to be ever built. To give you an idea, the skyscraper, called Infinity Tower, is slightly taller than our own Kuala Lumpur Tower which stands at 421m high.

Infinity tower invisible technology
How it works. This concept image shows how the LEDs will work to make the tower seem invisible. Image: GDS Architects


Michael Collins, Director at GDS, says the tower will boast the third highest observation deck in the world and will use a sophisticated LED façade system with optical cameras to create the illusion of invisibility.

The building will feature a significant amount of clear glass with open floor plans, allowing visitors to look down multiple levels. There are plans to make the skyscraper a mega billboard where advertisements and special screenings are expected to be broadcasted across its surface.

The tower is also set to include a water park, movie theaters and restaurants, making it a truly unique multipurpose building.

No completion date has been set yet, but when completed, it's expected to come in 6th on the list of the world's highest towers, behind Tokyo SkyTree, Guangzhou's CantonTower, Toronto's CN Tower, Moscow's Ostankino Tower and Shanghai's Oriental Pearl.

Without a doubt it will become one of the great attractions in Seoul.


Complete article and more pictures at NDTV

Thursday, September 19, 2013

HTC One Max to come with fingerprint scanner to rival iPhone 5S

Apple is not the only one that will rush into use the fingerprint recognition technology in its mobile devices. The upcoming HTS One Max is one that will rival the iPhone 5S as soon as it becomes available soon.

It's good that your phone will finally be able to 'recognise' just yourself, the rightful owner, with a touch of your finger.


HTC One Max with fingerprint scanner. Image: Computerworld Malaysia


The first 5.9-inch phablet with fingerprint recognition coming your way?

Computerworld Malaysia showed a leaked photo of HTC's One Max phablet that has a fingerprint scanner on board. The leak via Android Community gives us the best glimpse of the One Max yet and it's complete with a fingerprint scanner to rival the iPhone 5S.

The HTC One Max, codenamed the T6, has been talked-about for a while with an alleged 5.9-inch screen. That would put it in competition with other phablet sized smartphones including the Samsung Galaxy Note 3 (5.7-inch) and Sony Xperia Z Ultra.

Word has it that the HTC One Max would be powered by a 2.3 GHz Qualcomm Snapdragon 800 processor and 2 GB of RAM but the generally accurate evleaks says otherwise. Other specifications include 16 GB of internal storage, an Ultrapixel rear camera, a 2.1 Mp front camera and unlike other HTC One phones, a microSD card slot.

HTC has plenty of competition from rivals including LG with its G2 and Apple with its iPhone 5S, but competition should be good from the perspective of the consumers. We shall see.


Source

Wednesday, September 4, 2013

Nissan to make self-driving cars available by 2020

We have no idea yet how much it will cost, but Nissan is positive it is capable of making such vehicle ready in 7 years' time.


Tired of driving? Go for autonomous drive cars. Photo by Crain News Service via TireBusiness.


The Japanese automaker plans to offer commercially viable vehicles that are capable of autonomous operation without driver input.

The self-driving vehicles will be sold “at realistic prices for consumers,” the company said at a media event in Irvine, California.

Nissan said its goal is to offer autonomous cars across the model range within two vehicle generations - about 10-12 years after the projected 2020 launch.

The company said it has been researching and developing autonomous vehicles for years with such top universities as Massachusetts Institute of Technology, Stanford, Oxford, Carnegie Mellon and the University of Tokyo.

It is building a dedicated test track in Japan for autonomous vehicles that will be completed by next spring.

Google, the internet search leader, launched an autonomous car program in 2010 and has built and is testing several different versions, including one based on Toyota's Prius.


Hurdles?

Yes, the technology itself, but the bigger ones are legislative and regulatory. Safety regulators in various countries will have to sign off on new rules of the road before the first autonomous car can be sold.

The company expect that the first models to go on sale will probably be confined to special highway lanes in selected areas. And getting to that point probably will require highway officials to invest in advanced road improvements, with new road-to-car communications capabilities and emergency provisions.

TheGreenMechanics: If we live to see year 2020, we maybe able to sit in such a 'driver-less' car and travel from one place to another doing all kind of stuff but driving. Talking about productivity and efficiency.


Note: I scooped this interesting piece here. You can read the complete story there.

Monday, September 2, 2013

iPhone 5S (iPhone 6) to be announced on Sept 10, together with cheaper iPhone 5C


Same specs, same performance. Only difference is form factor?


In about eight days from today, we'll get to see the most anticipated release of the latest iteration of the iPhone - the iPhone 5S or, if you like, iPhone 6. They a planning to do that at a special media event on Sept. 10, 2013 although no confirmation from Apple as of today.



Cheaper version with plastic cover?


Most analysts believe the concept of the iPhone 6 is to offer a cheaper iPhone for people in lower income brackets and emerging markets, including China and India, two largely untapped markets for Apple, who can't readily afford the newest high-end iPhone.


Five features of the iphone 5S (iPhone 6) you should expect to see: 

1. Plastic but less scratchy form factor. The iPhone 6 is expected to release with many of the same features of the iPhone 5, but the key difference will be the form factor. The anodized aluminum body of the iPhone 5 will be replaced by a cheaper, but sturdier and more scratch-proof, polycarbonate shell.

2. Same iPhone 5 specs, same iPhone 5 performance. If this one materialise, it will be disappointing but it is believed Apple will release the iPhone 6 with most of the same specs as the iPhone 5, including a 4-inch Retina display at 326 ppi, an A6 chip, a FaceTime HD camera and an 8-megapixel rear side camera.

3. Five candy colors. The major difference between last year's iPhone 5 release and this year's budget iPhone 6, besides the new polycarbonate enclosure, will likely be its availability in five colors.

4. Pre-loaded with iOS 7. Phone hardware tends to get more attention than its software, but the operating system running on the iPhone 6 is just as vital to the iPhone experience as the phone itself.

5. It will be cheaper by a mile. Many people predicted the iPhone 6 would release at a price between $450 and $550 without contract. That would be around RM 1,500 to RM1,900 so, for a phone with similar performance with the iPhone 5, that price would be attractive.



Fancy multiple colour choices? Not me!


TheGreenMechanics: Eagerly waiting for September 10 announcement.


Sunday, August 25, 2013

How do wireless charging mats work

By now, most of us would be familiar with wireless charging.

When Samsung announced its latest flagship smartphone, the Galaxy S4, it came supported by wireless charging, although not out of the box; meaning you have to buy the charging mat separately.


Charging pad for the Galaxy S4. It works on induction concept. Remember AC induction motors?


Wireless charging mats allow you to power-up multiple gadgets all at once by simply resting them on the surface, eliminating the need for tangled wires and device-specific adaptors.


How do they work?

They work via a process known as magnetic induction, the same method used to charge electrical toothbrushes, which employs an electromagnetic field to transfer energy between two objects.

According to Faraday’s law of induction, a current is produced when a conductive substance passes through a magnetic field. So the electromagnetic force created in the mat induces a current in the device you’re charging.

In future, manufacturers plan to integrate the technology into the gadgets, as well as domestic surfaces and furniture, so you can just drop your gadgets on the kitchen table and leave them to charge. For now, though, your gadgets have to be slipped into special cases that will enable wireless charging.

Wednesday, July 31, 2013

Most popular Accidental Discoveries - 10 of them

It's been 75 years since a scientist accidentally discovered a new wonder material: Teflon. To celebrate, Focus looks at nine other fortunate discoveries, from text messaging to viagra to superglue.

Here are the top 10:

1) Teflon

Teflon was first created by a scientist named Roy Plunkett who was toying with CFC gases to create a new refrigerant. Plunkett stored cylinders of a gas known as tetrafluoroethylene (TFE) in dry ice so they wouldn’t explode in the lab, but when he came to use the gas, he discovered waxy, white flakes in its place.


This new substance was incredibly slippery and stable, resistant to heat, water, acid and pretty much everything else he could throw at it. It wasn’t until French engineer Marc Gregoire worked out how to bond it to aluminium that the first non-stick pan was produced and the brand Teflon soon followed.


2) Microwave oven

During World War II, Percy Spencer was a senior engineer for Raytheon, a defence contractor supplying radar equipment to the US military. In 1946, he was working at MIT's Radiation Laboratory to develop a more powerful magnetron – the vacuum tube at the heart of radar devices – when, standing in front of one of his test models, he noticed that a chocolate bar in his pocket had melted.

Intrigued, he tried holding a bag of unpopped popcorn up to the device – and so the microwave oven was born, with Raytheon’s industrial-sized 'Radarange' going on sale the following year. It’s now the saviour of many a tired 9-5 worker looking for a quick evening meal.


3) Viagra

At first, Sildenafil seemed to be a promising new drug for heart disease, including angina. But when it was trialled at a Swansea hospital, male test patients reported an odd side effect: unexpected erections. Marketed as Viagra in the late 1990s, the drug became a massive hit for Pfizer.

Image credit: SElefant


4) Synthetic dye

At the age of 18, William Perkin was working as a lab assistant in London. He’d been tasked with coming up with a new way of producing quinine, an expensive antimalarial drug. In 1864, after a failed attempt, he noticed a potent purple sludge at the bottom of one of his beakers.

Rather than throwing it away, Perkin tested it, soon realising he’d created an artificial dye that was more vibrant than anything from nature.


5) Pacemaker

We've all done it: reached into the toolbox and pulled out the wrong instrument. In Wilson Greatbatch’s case this simple mistake resulted in the invention of the first practical implantable pacemaker.


Greatbatch was actually trying to make a circuit that could record fast heartbeats, but when he inadvertently pulled out a 1-megaohm resistor instead of the 10,000-megaohm resistor he’d intended to use, the finished product pulsed for 1.8 milliseconds, stopped for one second and then repeated.

It was the unmistakable rhythm of a heartbeat at rest. The first successful pacemaker was implanted in a 77-year-old in 1960, who lived for 18 months after the device was inserted.


6) Radio astronomy

Both the origins of, and greatest discovery by, radio astronomy were accidental. Karl Jansky was an engineer investigating interference in telephone lines. The errant signals were found to come from celestial objects, and radio astronomy was born.

Three decades later, radio engineers Arno Penzias and Robert Wilson were also investigating a stubborn hiss. What they’d found was the last fading echo of the Big Bang, now known as Cosmic Microwave Background radiation.


7) Text messaging

In 1987, European bureaucrats set about drawing up a new technical standard for mobile phones. Fully digital cellular phones were being designed, and the officials wanted a system that would work across the whole of Europe, all in the spirit of European co-operation and harmony.


Written into the script was a tiny detail that enabled telecoms engineers testing the system to send short messages back and forth between themselves, to help manage the mobile network. But consumers soon discovered this ‘Short Message Service’ (SMS), and, to the immense surprise of the phone operators, loved it. We’ve been texting ever since.


8) X-rays

In 1895, physicist Wilhelm Röntgen was busy in his University of Würzberg lab investigating the properties of cathode rays. Suddenly he noticed a flicker on a barium platinocyanide screen. Surprise turned to shock when he saw a skeletal hand.

Some mysterious emanation was passing through the air – and through his flesh, allowing his bones to cast shadows on the dimly glimmering screen. X-rays – the 'X' stood for their unknown nature – were soon replicated in laboratories around the world. Within two decades, X-rays found extraordinary medical applications.


9) Saccharin

Surely one of the most important rules in chemistry is to always wash your hands. Luckily for the sweet-toothed among us, Constantin Fahlberge didn’t adhere to strict hygiene codes back in 1878.


After trying to create new derivatives of coal tar in his laboratory at Johns Hopkins University in Baltimore, USA, he went home to eat his dinner, which he found to be unusually sweet.

In an interview with American Analyst, a leading scientific journal of the time, Fahlberge told a reporter that he immediately ran back to his lab and tasted the contents of every evaporating dish and beaker till he found the sweetener now known as saccharin.


10) Superglue

During World War II, Harry Coover, a chemist at Eastman Kodak, was head of a team that was trying to concoct a clear plastic that could be used to create transparent gun sights.

One unsuccessful attempt created a gloop that simply stuck to everything it touched – an experience that’ll be familiar to anyone who's ever spilt superglue on their hands. They had created what’s known as a cyanoacrylate.



Produced by John Agar, a Senior Lecturer in Science and Technology Studies at University College London. Original post here. Images, too, were sourced from the same page.

Tuesday, July 30, 2013

Is there a height limit that skyscrapers can be built to?

With the shrinking space to build more buildings, the logical thing to do is build taller. But is there a limit to how tall can you build one?

Twin Towers
At 452 metres high, Petronas Twin-Towers in Kuala Lumpur stand among of tallest buildings in the world. Photo by: de engineur


Yes, there are many limits. The heavier a building, the stronger its foundations need to be. In turn, that’s limited by how deep it’s possible to excavate and the land available to accommodate the building’s footprint.

Even the slenderest designs need larger bases as they get taller. Another factor is the speed of the lifts. People on the top floor don’t want to take all day to get up there.

But in cities with limited amount of space, people will find ways to try to set the limit higher and higher.


Ref: Sciencefocus

Tuesday, May 28, 2013

Recharge your cellphone in 30 seconds

If you've been wishing you don't need to wait for your smartphone to recharge, you a in for a good news. Very soon you will be able co recharge your gadget in less than 30 seconds, thanks to bright idea from a teenager - Eesha Khare.

For my hobby in photography, I'd love to have this 'supercapacitor' to recharge my Speedlight in two minutes. Right now my Nikon flashlight batteries recharge in about an hour.

30 second charger
Watch this clip and CNN's report here.


Teenager outsmarts Silicon Valley!

A tiny device that can recharge cell phone batteries in as little as 30 seconds won 18-year-old Eesha Khare a major science award that will help fund her college education at Harvard University.

Khare traveled from her California home to Phoenix for the Intel International Science and Engineering Fair, where her invention was honored as one of two winners of Young Scientist Awards.

"I'm in a daze. I can't believe this happened," Khare, a senior at Lynbrook High School in Saratoga, told CNN affiliate, KPIX 5.

Khare's device, a black, rectangular type of supercapacitor just over an inch long, can charge a cell phone battery in 20 to 30 seconds, she said.

"I developed a new supercapacitor, which is basically an energy storage device which can hold a lot of energy in a small amount of volume," she told KPIX 5. The technology may also be able to speed up charging of automobile batteries, she said.

The award includes a $50,000 prize that will come in handy when Khare heads to Harvard in the fall, she told KPIX 5. With a laugh, she predicted that "I will be setting the world on fire."

In announcing the winners of what it billed as the "world's largest high school research competition," Intel cited Khare for recognizing "the crucial need for energy-efficient storage devices" as the world rapidly adopts portable electronics.

More than 1,500 young scientists from around the world were chosen to compete in last week's fair.


Source: CNN

Wednesday, May 22, 2013

Solar-powered drone that would violate your privacy 24/7

You've heard of the Flying Car which people say is now 'pretty' close to reality.

Now your privacy will be further violated by this unmanned solar-powered drone because it can fly all day without the need for refueling and its surveillance cameras will allow the owner to see things like the hawks do.

Welcome Silent FalconTM - now you can "Fly Silent, Fly Longer, See More"

The Silent Falcon, launched last year, is a 6-foot-long unmanned aircraft that can be launched by hand and can fly for up to 14 hours.

  • Price                   : $250,000 to $300,000 (up to RM900,000)
  • Origin                  : New Mexico, US
  • Size                    : 6-foot long (just about the size of an average human)
  • Power source     : Light weight solar panels
  • Length of flight   : up to 14 hours in full daylight

Targeted markets are the likes of private military contractors and militaries including those in Brazil, India, and Thailand.

Any interest from Malaysia? Ten units of Silent Falcon for $3 million should be a peanut compared to the $500 mil Scorpene submarine we purchased sometime ago.


The Silent Falcon in action, to watch over you!


At 6-foot long, it is light enough to be launched by hand.


This small plane can beam back HD video and is silent from a distance of 30 m


Sources: Forbes, Silent Falcon UAS Technologies
Images: Credit to Silent Falcon website (link given above)

Sunday, April 28, 2013

How 'Google Glass' works

Remember Google Glass? I wrote about Google giving away this wonder Glass sometime in February.

So far this piece of equipment have received not just praise but also opposition.

google glass
Google Glass: The probing cam and prism display is paired with sunglasses.


The info-graphic here describes how it works.


Courtesy - BGR.com

Every development in the IT and technology advancement in general has a downside to it. It is inevitable, so, it is down to every individual to accept or go against it.


Friday, April 12, 2013

Do you think gesture control will replace touchscreen?

Not too long ago, people relied on mouse, keyboard, and touchpad to communicate with their computers. Then portable devices emerged and touchscreens quickly became one of the more popular means of control and interface.

Touch-enabled smartphones and tablets have been very successful and as we progress further, people are now talking about gesture control.

The MYO works by using of muscle movement to control a wide range of devices



A magic armband that looks pretty simple



The MYO armband measures electrical activity in your muscles and translate that into signals before amplifying and relaying them to gadgets using Bluetooth wireless technology.



"A few years from now, it isn't hard to imagine people wearing Google Glass or a related headset, using a MYO armband to control the headset and other computers in the area, and having a Leap Motion to use a computer at their workstations"
- Technology blog Singularity Hub


I took part in an online poll by ScienceFocus and as of today, this is the result. During the first few days the ratio was 60:40 in favour of gesture control:

Sciencefocus poll result after 8 days




Reference: Pictures from MYO