Imagine a darker age
when students had to use the archaic pen and the Sony Camcorder Battery — a tool some may remember as the descendant of the scroll before it was made obsolete — and had to use “cassettes” in a “tape player” to listen to music they actually paid for. While these times have passed, it was a difficult era in which to be a student.
While things haven’t really changed to the point where pen and paper are considered obsolete tools (heck, I have an entire cardboard box devoted to notepads), things definitely have changed. If you look around a lecture hall now, you’re likely to see at least half the students tapping away on laptops (Sony CCD-TR3 battery) or fiddling with a phone or PDA. Technology has become an integral part of getting the most out of education. To that end, here are ten gadgets we here at Lifehack thought were pretty cool and practical for students.
1. Acer Aspire One
The Acer Aspire One is the functional netbook that recently demantled the EeePC as the top seller in its market. This laptop has a 1.6Ghz processor and can fit a maximum of 1.5Gb RAM. It’s certainly no video editor or gaming machine, but it is small and has a lasting Sony CCD-TR2 battery. Since the thing has to sit on those tiny, all-too-knockable lecture hall desks and last for several classes at a time, this machine — and many like it — are excellent choices for students.
2. Macbook Pro
It would be silly to mention a netbook and leave out a more powerful laptop, especially when many students are working areas that require some considerable grunt — multimedia and graphics, video, and audio might demand something like the Macbook Pro. This is a variable depending on your university or college, but from what I’ve seen most institutions dealing with these areas are running OS X and that makes the Macbook Pro a great choice. It’s got the grunt, it’s portable enough without making big sacrifices, and most importantly, it will be Sony CCD-SC9 battery compatible with anything a Mac-based department throws at you. Also, solid aluminum enclosures look awesome.
3. Fujifilm FinePix S1000
Cameras are inherently useful. Take images of whiteboards and anything else you might want to remember later. For instance, in an audio engineering class, I took 30 or 40 pictures of various recommended microphone setups as they were demonstrated, and still have them for reference should I ever forget how an upright piano or trombone is done. The Sony NP-FS10 battery is a good choice because it’s a fairly affordable device, and can still capture the quality you’ll want for solid reference later on at 10 megapixels and 12x optical zoom.
4. iPhone
I had to grapple with this one a little. It might seem like trend-following, and I didn’t want to be too biased to Apple — but after almost ten years using Windows Mobile, I couldn’t recommend it to anyone and still feel good in the morning. The iPhone is an excellent phone and PDA and comes in handy when you’d least expect it, especially once it’s fitted with the right apps. I’ve got task lists, notes from conversations, a library’s worth of good sci-fi books, even a piano, Sony NP-FS20 battery and a guitar tuner on the thing. Excellent for capturing the many bits of information you’ll need to capture throughout each day without lugging out a laptop. Oh, and it has Facebook too, if you’re so inclined.
5. Alarm Clock
You will sleep through an exam one day, or at least sleep through the bus that takes you there. It won’t be a fun day. Make sure you’ve got an alarm clock before you learn your lesson the hard way. Since bacon is so great, I recommend this alarm clock, but as it’s not on the market you might just want to go shopping and see which one at Kmart is the loudest.
6. C-Pen
The C-Pen book scanner is a great investment, both of money and time. It’s a great investment of your time because, since you’ll be reading your course books anyway, it takes no extra effort to use the pen scanner at the same time. Then when you need to get a quote from the book twenty minutes before the paper is due, you can search the text on your Camcorder Battery instead of wasting time looking manually, and simply copy and paste the quote. You’ll also have digital copies of your texts for years to come.
7. MP3 Player with Voice Recorder
If you get a bad cramp trying to take notes as fast as your instructors speak, stop grimacing and get one of these devices. An MP3 player with a built-in voice recorder will allow you to sit back, record the lecture and focus on listening instead of keeping up, with the added bonus of providing musical entertainment when you’re not in a lecture. The Creative Zen Mosaic is an affordable option. laptop battery details
Tuesday, April 20, 2010
We live in interesting times
We live in interesting times
. In the last decade, there have been phenomenal advances in computer Camcorder Battery technology. Tiny computers — netbooks and even smartphones — let us carry power to rival the best desktops of a decade ago, allowing us to work just about anywhere. Web 2.0 applications ranging from simple to-do lists to full-featured word processors, spreadsheets, and even graphics editors let us create, store, access, and share data, documents, and other Sony Camcorder Battery material easily, and often for free. Easy-to-use software keeps track of our task lists, our project plans, even our passing thoughts — and we can use text, touch, even our voices to enter data.
Unless, of course, your battery dies. Which, with all the computing power we’re squeezing out of it, it does pretty quickly. And, of course, our PCs, laptops,netbooks, and smartphones are pretty fragile — a drop on the sidewalk or into the toilet, a power surge or spilled coffee, and the teething of puppies (ask me what happened to my old cell phone…) can take us offline and out of Sony NP-QM51 battery service pretty quick, leaving us… HELPLESS!
Getting Things Done, Old School
Of course, we didn’t always have all these amazing gadgets at our disposal, and yet somehow things got done. The Hoover Dam, Golden Gate Bridge, Mt. Rushmore, Eiffel Tower, Pyramids of Egypt, Great Wall of China, and Washington Monument were all “got done” with nary a microprocessor. Ford Motor Co., Edison Electric, US Steel, and Union Pacific Railroad were built without using a single Web 2.0 app. And the Sony NP-FM71 battery empires of Britain, Rome, Persia, China, and the Soviet Union were conquered without a single Twitter, text message, email, or push-to-talk phone.
Amazing, isn’t it?
With Earth Day coming up this month (and Earth Hour a few days behind us), we thought it would be worthwhile this month to look at how we can stay productive without the bells and whistles of modern technology. Using paper instead of a spreadsheet, pencils instead ofthumb-boards , ink instead of e-ink may not ultimately be any Sony NP-QM90 battery better for the environment — the production of paper does a pretty big job on the environment, between the trees cut down and the chemicals used in processing it — but at least thinking about these issues should make us stop a moment and consider what we’re really doing when we throw a power switch just to enter a to-do list item.
On a more practical note, learning to be productive without Sony NP-QM91 battery power gives us options. Not only that, non-electronic productivity tools help make us bulletproof, allowing us to stay targeted and productive even when our technological systems fail us.
So I’ve asked all our contributors to share their favorite tips about productivity beyond the computer this month. We’ll talk about Moleskine hacks, paper lists, mind-mapping, sketching ideas with pen and paper, and much more. And we’ll be asking for your input — what are your favorite no-batteries-needed productivity tricks?
And around the middle of the month, we’ll be announcing a unique opportunity for Lifehack readers. I’m not entirely at liberty to spell out any details, but let’s just say it has something to do witheveryone’s favorite notebook. Oh, I’m sure I’ve said far too much already — just keep reading and keep your eyes open Sony NP-F550 battery come mid-April.
And hey, feel free to ask questions, too — I’ve got a crew of great writers here, and all of us want to know how we can best help the community of Lifehack readers. If there’s something you’d like to know, especially if it has to do with staying productive without relying on technology, leave a comment on a post or visit our contact page and send us an email.laptop battery details
. In the last decade, there have been phenomenal advances in computer Camcorder Battery technology. Tiny computers — netbooks and even smartphones — let us carry power to rival the best desktops of a decade ago, allowing us to work just about anywhere. Web 2.0 applications ranging from simple to-do lists to full-featured word processors, spreadsheets, and even graphics editors let us create, store, access, and share data, documents, and other Sony Camcorder Battery material easily, and often for free. Easy-to-use software keeps track of our task lists, our project plans, even our passing thoughts — and we can use text, touch, even our voices to enter data.
Unless, of course, your battery dies. Which, with all the computing power we’re squeezing out of it, it does pretty quickly. And, of course, our PCs, laptops,netbooks, and smartphones are pretty fragile — a drop on the sidewalk or into the toilet, a power surge or spilled coffee, and the teething of puppies (ask me what happened to my old cell phone…) can take us offline and out of Sony NP-QM51 battery service pretty quick, leaving us… HELPLESS!
Getting Things Done, Old School
Of course, we didn’t always have all these amazing gadgets at our disposal, and yet somehow things got done. The Hoover Dam, Golden Gate Bridge, Mt. Rushmore, Eiffel Tower, Pyramids of Egypt, Great Wall of China, and Washington Monument were all “got done” with nary a microprocessor. Ford Motor Co., Edison Electric, US Steel, and Union Pacific Railroad were built without using a single Web 2.0 app. And the Sony NP-FM71 battery empires of Britain, Rome, Persia, China, and the Soviet Union were conquered without a single Twitter, text message, email, or push-to-talk phone.
Amazing, isn’t it?
With Earth Day coming up this month (and Earth Hour a few days behind us), we thought it would be worthwhile this month to look at how we can stay productive without the bells and whistles of modern technology. Using paper instead of a spreadsheet, pencils instead ofthumb-boards , ink instead of e-ink may not ultimately be any Sony NP-QM90 battery better for the environment — the production of paper does a pretty big job on the environment, between the trees cut down and the chemicals used in processing it — but at least thinking about these issues should make us stop a moment and consider what we’re really doing when we throw a power switch just to enter a to-do list item.
On a more practical note, learning to be productive without Sony NP-QM91 battery power gives us options. Not only that, non-electronic productivity tools help make us bulletproof, allowing us to stay targeted and productive even when our technological systems fail us.
So I’ve asked all our contributors to share their favorite tips about productivity beyond the computer this month. We’ll talk about Moleskine hacks, paper lists, mind-mapping, sketching ideas with pen and paper, and much more. And we’ll be asking for your input — what are your favorite no-batteries-needed productivity tricks?
And around the middle of the month, we’ll be announcing a unique opportunity for Lifehack readers. I’m not entirely at liberty to spell out any details, but let’s just say it has something to do witheveryone’s favorite notebook. Oh, I’m sure I’ve said far too much already — just keep reading and keep your eyes open Sony NP-F550 battery come mid-April.
And hey, feel free to ask questions, too — I’ve got a crew of great writers here, and all of us want to know how we can best help the community of Lifehack readers. If there’s something you’d like to know, especially if it has to do with staying productive without relying on technology, leave a comment on a post or visit our contact page and send us an email.laptop battery details
Wednesday, April 14, 2010
There are cameras
There are cameras
, and then there are Ferraris. No one questions the distinction between those two groups. The same is true for ultra-portables and the Acer Ferrari One. The former are Digital Camera Battery, and the latter is, well, Ferrari. The distinctive design of the Ferrari One is what first grabs the attention, but with a little more investigation it becomes apparent how much laptop is crammed into the thin, small case. Sometimes you have to settle for form over function, but in the case of the Acer Ferrari One you get both in one small package.
The Ferrari One is an ultra-portable Camcorder Battery with an 11.6-inch display that clocks in at an impressive 1366×768. It is a bright display that is customized with Ferrari wallpaper that displays a calendar. The race car noise heard when the notebook fires up is impressive the first time, not so much on subsequent boots. The sleek red lid is rounded with distinct edges, and other touches include the power button that lights in red, and the touchpad that is integrated into the palm rest.
The evaluation unit supplied by AMD is configured as follows:
CPU: AMD Athlon X2 L310, 1.2 GHz
Memory: 3 GB
Storage: 250 GB
Display: 11.6-inch, 1366×768 resolution
Camera: Acer Crystal Eye, Acer PrimaLite technology
Graphics: ATI Radeon HD3200 integrated, 2 GB Video Memory
Sony Camcorder Battery: 6-cell
Communications: 802.11 b/g/n Wi-Fi; Ethernet
Ports: 3-USB 2.0 (one powered), VGA out, LAN, Multi-format card reader slot, audio in, audio out, ATI XGP video
OS: Microsoft Windows 7 Home Premium 64-bit
Dimensions: 11.2 x 8.0 x 1.2 inch; 3.2 lbs.
The AMD processor gives decent performance for such a small laptop. These processors usually have a dual hit — Sony NP-FM50 battery life and heat. I am seeing about 4.5 hours on the 6-cell battery, and while the bottom of the Ferrari One does get warm it’s not alarmingly so.
The graphics performance of the ATI Radeon is as good as I have seen on an ultra-portable. It is possible to watch high quality Hulu videos in full-screen; it is not quite fluid but easily tolerable. Video playback on YouTube is equally acceptable.
I am a keyboard snob when it comes to notebooks, and find the Ferrari One keyboard to be quite good. It provides a comfortable typing experience that lets me type as fast as I can. The key layout is standard and while the key Sony NP-QM70 battery tops are fairly flat, the feel is good and key travel is decent.
The trackpad is integrated into the palm rest, not usually one of my favorite features. This one is clearly delineated so it is easy to see where the trackpad ends and the palm rest begins. I am finding it easy to use, and suspect in a short time I will find it fine for constant use. Acer went with one button on the trackpad, a rocker switch that serves as both the left and right click. I don’t like these at all, although this one has a distinct feel to the click and not the worst one I’ve tried. Two buttons would have been much better.
I will be giving the Ferrari One a good look for a while, and I have to admit the sexiness of it has impressed me so far. The size is as small as can be, yet it has good performance. laptop battery details
, and then there are Ferraris. No one questions the distinction between those two groups. The same is true for ultra-portables and the Acer Ferrari One. The former are Digital Camera Battery, and the latter is, well, Ferrari. The distinctive design of the Ferrari One is what first grabs the attention, but with a little more investigation it becomes apparent how much laptop is crammed into the thin, small case. Sometimes you have to settle for form over function, but in the case of the Acer Ferrari One you get both in one small package.
The Ferrari One is an ultra-portable Camcorder Battery with an 11.6-inch display that clocks in at an impressive 1366×768. It is a bright display that is customized with Ferrari wallpaper that displays a calendar. The race car noise heard when the notebook fires up is impressive the first time, not so much on subsequent boots. The sleek red lid is rounded with distinct edges, and other touches include the power button that lights in red, and the touchpad that is integrated into the palm rest.
The evaluation unit supplied by AMD is configured as follows:
CPU: AMD Athlon X2 L310, 1.2 GHz
Memory: 3 GB
Storage: 250 GB
Display: 11.6-inch, 1366×768 resolution
Camera: Acer Crystal Eye, Acer PrimaLite technology
Graphics: ATI Radeon HD3200 integrated, 2 GB Video Memory
Sony Camcorder Battery: 6-cell
Communications: 802.11 b/g/n Wi-Fi; Ethernet
Ports: 3-USB 2.0 (one powered), VGA out, LAN, Multi-format card reader slot, audio in, audio out, ATI XGP video
OS: Microsoft Windows 7 Home Premium 64-bit
Dimensions: 11.2 x 8.0 x 1.2 inch; 3.2 lbs.
The AMD processor gives decent performance for such a small laptop. These processors usually have a dual hit — Sony NP-FM50 battery life and heat. I am seeing about 4.5 hours on the 6-cell battery, and while the bottom of the Ferrari One does get warm it’s not alarmingly so.
The graphics performance of the ATI Radeon is as good as I have seen on an ultra-portable. It is possible to watch high quality Hulu videos in full-screen; it is not quite fluid but easily tolerable. Video playback on YouTube is equally acceptable.
I am a keyboard snob when it comes to notebooks, and find the Ferrari One keyboard to be quite good. It provides a comfortable typing experience that lets me type as fast as I can. The key layout is standard and while the key Sony NP-QM70 battery tops are fairly flat, the feel is good and key travel is decent.
The trackpad is integrated into the palm rest, not usually one of my favorite features. This one is clearly delineated so it is easy to see where the trackpad ends and the palm rest begins. I am finding it easy to use, and suspect in a short time I will find it fine for constant use. Acer went with one button on the trackpad, a rocker switch that serves as both the left and right click. I don’t like these at all, although this one has a distinct feel to the click and not the worst one I’ve tried. Two buttons would have been much better.
I will be giving the Ferrari One a good look for a while, and I have to admit the sexiness of it has impressed me so far. The size is as small as can be, yet it has good performance. laptop battery details
Laptops are the top selling computers
Laptops are the top selling computers
, and have been for a while. They have gotten easier to carry and cheaper Panasonic Digital Camera Battery, both factors making them the PC of choice for many. A lot of people leave the laptop plugged into the wall all the time, as they seldom venture out into the wild. Others are highly mobile by nature, and those folks know that sometimes squeezing the most out of the laptop battery is extremely important. Business travelers are often confronted with long trips where power outlets are few and far between. Keeping the laptop running on battery power is the top order of the day at such times. Here are 5 ways to squeeze the most out of laptop batteries( Panasonic CGA-S003 battery). This article is focused on Microsoft Windows 7, but the concepts are applicable to any laptop.
Dim the screen and keyboard. It may be obvious that the laptop screen is a power-sucking component, but I often see travelers using laptops with the screen at full brightness. Nothing will drain the battery faster than a fully lit display. Turn the screen brightness all the way down, and then gradually bump it up until it is just barely viewable. This will extend your battery life tremendously, in some cases, for hours. If your laptop has a backlit keyboard, turn that off entirely. It’s not a big battery(Panasonic CGA-S006 battery) drain but all of the little things together add up to mean less time at the keyboard.
Kill the Wi-Fi and Bluetooth. If you don’t need to get connected to a hotspot, kill the Wi-Fi. Many laptops have switches to do so easily, but for those that don’t there is usually a utility to turn the radios off. Even if you need the Wi-Fi you should definitely turn the Bluetooth off. This uses a radio and that means it needs power to function. You shouldn’t need Bluetooth at all while mobile. If you use a Bluetooth mouse, consider leaving it turned off so you can kill the radio. It may keep you running for a few more minutes before the laptop(Panasonic CGR-S006 battery) dies.
Put movies on a USB flash drive. If you normally watch DVDs on trips, consider ripping them to a USB flash drive. Spinning optical drives drain the battery rapidly, where USB drives take tiny sips. This can make a big difference when watching a movie on the plane. The same can be said for any content that is usually accessed through the optical drive. There are many utilities on the web that can get content from optical drives to a USB flash drive.
Turn off extraneous hardware. Every component on the laptop requires power, even when it is not being used. Most things on today’s systems don’t use a lot of power, but in critical situations where maximum runtime is vital it may be worthwhile to turn unused components off. These include Ethernet ports, fingerprint readers, optical drives, modems and various ports. Many laptops(Panasonic SDR-S100 battery) have utilities pre-installed to help turn these off, but even if yours doesn’t it can be done in the Device Manager. On Windows 7 laptops, this can be accessed by right-clicking on the Computer icon and then selecting the Device Manager link. Select the port or device you want to turn off and on the Driver tab click the Disable button. Don’t forget to turn it back on before needing it again.
Background/ unneeded programs. This one is only for those who must squeeze as much runtime out of the laptop battery as possible. Every system has a lot of programs running in the background, and these programs hit the CPU for processing power Panasonic CGA-S303 battery. This results in a power hit, and while it is very small everything has an impact. If it’s vital to get maximum runtime, turn off any background apps that are not actively needed for the work session. If there are programs you have installed that run in the background, such as desktop widgets, turn them off manually for the session. You should be able to do this safely for anything on a temporary basis, and save power by doing so.
These methods will go a long way to extending the amount of time that can be spent working on battery power. Hours of runtime can be added by aggressive power management obtained by these 5 steps. Some laptops, ThinkPads in particular, have a Battery Stretch setting which should also be used. This monitors the system aggressively when running on the battery, and when the battery starts getting low the system starts shutting down components to “stretch” more runtime. This utility is user configurable and should certainly be used for those extended times away from an outlet.
I also advocate getting a second battery for laptops, especially those who travel a lot. The cost can be significant, with some laptop battery details costing up to $200, but it is an instant doubling of run time.
, and have been for a while. They have gotten easier to carry and cheaper Panasonic Digital Camera Battery, both factors making them the PC of choice for many. A lot of people leave the laptop plugged into the wall all the time, as they seldom venture out into the wild. Others are highly mobile by nature, and those folks know that sometimes squeezing the most out of the laptop battery is extremely important. Business travelers are often confronted with long trips where power outlets are few and far between. Keeping the laptop running on battery power is the top order of the day at such times. Here are 5 ways to squeeze the most out of laptop batteries( Panasonic CGA-S003 battery). This article is focused on Microsoft Windows 7, but the concepts are applicable to any laptop.
Dim the screen and keyboard. It may be obvious that the laptop screen is a power-sucking component, but I often see travelers using laptops with the screen at full brightness. Nothing will drain the battery faster than a fully lit display. Turn the screen brightness all the way down, and then gradually bump it up until it is just barely viewable. This will extend your battery life tremendously, in some cases, for hours. If your laptop has a backlit keyboard, turn that off entirely. It’s not a big battery(Panasonic CGA-S006 battery) drain but all of the little things together add up to mean less time at the keyboard.
Kill the Wi-Fi and Bluetooth. If you don’t need to get connected to a hotspot, kill the Wi-Fi. Many laptops have switches to do so easily, but for those that don’t there is usually a utility to turn the radios off. Even if you need the Wi-Fi you should definitely turn the Bluetooth off. This uses a radio and that means it needs power to function. You shouldn’t need Bluetooth at all while mobile. If you use a Bluetooth mouse, consider leaving it turned off so you can kill the radio. It may keep you running for a few more minutes before the laptop(Panasonic CGR-S006 battery) dies.
Put movies on a USB flash drive. If you normally watch DVDs on trips, consider ripping them to a USB flash drive. Spinning optical drives drain the battery rapidly, where USB drives take tiny sips. This can make a big difference when watching a movie on the plane. The same can be said for any content that is usually accessed through the optical drive. There are many utilities on the web that can get content from optical drives to a USB flash drive.
Turn off extraneous hardware. Every component on the laptop requires power, even when it is not being used. Most things on today’s systems don’t use a lot of power, but in critical situations where maximum runtime is vital it may be worthwhile to turn unused components off. These include Ethernet ports, fingerprint readers, optical drives, modems and various ports. Many laptops(Panasonic SDR-S100 battery) have utilities pre-installed to help turn these off, but even if yours doesn’t it can be done in the Device Manager. On Windows 7 laptops, this can be accessed by right-clicking on the Computer icon and then selecting the Device Manager link. Select the port or device you want to turn off and on the Driver tab click the Disable button. Don’t forget to turn it back on before needing it again.
Background/ unneeded programs. This one is only for those who must squeeze as much runtime out of the laptop battery as possible. Every system has a lot of programs running in the background, and these programs hit the CPU for processing power Panasonic CGA-S303 battery. This results in a power hit, and while it is very small everything has an impact. If it’s vital to get maximum runtime, turn off any background apps that are not actively needed for the work session. If there are programs you have installed that run in the background, such as desktop widgets, turn them off manually for the session. You should be able to do this safely for anything on a temporary basis, and save power by doing so.
These methods will go a long way to extending the amount of time that can be spent working on battery power. Hours of runtime can be added by aggressive power management obtained by these 5 steps. Some laptops, ThinkPads in particular, have a Battery Stretch setting which should also be used. This monitors the system aggressively when running on the battery, and when the battery starts getting low the system starts shutting down components to “stretch” more runtime. This utility is user configurable and should certainly be used for those extended times away from an outlet.
I also advocate getting a second battery for laptops, especially those who travel a lot. The cost can be significant, with some laptop battery details costing up to $200, but it is an instant doubling of run time.
Wednesday, April 7, 2010
These mineral riches
These mineral riches
and increasing demand have already set off confrontations between Western corporations that want to mine the precious mineral, and Bolivia's Socialist president, Evo Morales, who prefers nationalized Digital Camera Battery companies. However, that's just the beginning of the problems. The Foreign Policy article also warns that while lithium replacing oil as the main fuel source will help the environment, there's no evidence that changing the place and resource will reduce the conflict between those who have the power, and those who want it.
This might be great news for the Bolivians, but let's remember that lithium is a non-renewable natural resource - the Saudi Arabia analogy is very apt. Some scientists are estimating that there are around 13.5 million tons of it on earth, but with our current Casio Digital Camera Battery technology, only about half of that can actually be extracted and used (according to William Tahil and the Meridian International Research - check out. I know it's not the most impartial research group out there, but )
The Chevy Volt's battery setup weighs about 375 lbs., and there were more than 70 million motor vehicles produced in 2008 (I'm not sure how that figure has changed since, given all the economic ups and downs we've been having).
If hybrids like the Volt get anywhere near as popular as internal-combustion cars - and if our culture gets as dependent on them, and on lithium as a power source for them - then those reserves are going to start running out eventually, and we'll be right back where we started: searching anxiously for some new energy source/storage medium, as he world's lithium reserves slowly run dry - starting with those of the USA, whose reserves are only an estimated 38,000 tons.
If you google St. Andrews nikon EN-EL4 battery (abbreviated STAIR), and browse other air battery technologies, you'll see there is good reason to believe we may soon be able to make batteries that have far greater energy density, meaning we'll need far less of anything such as lithium to make a battery with much greater range, and that is much less expensive.
The concept of air batteries has been around for several years now. The idea is to replace the cathode of the battery with atmospheric air, which is practically limitless. If we can do this, we may be able to have nikon EN-EL2 battery with 10 times the storage capacity of those we have today.
Tesla EVs average about 244 miles between charges; recently, an Aussie drove one a distance of 313 miles on a single charge, a world record for EVs. Using that as a yardstick, we can assume that using air battery technology and a battery of the same weight, it would be possible to drive from coast to coast in the USA without recharging. Impressive.
If we did have such a great increase in storage capacity, of course, what would be far more practical would be to make cars with much smaller nikon EN-EL1 battery -- say, 100 lbs. or so-- that would have a much smaller range, but they would be much cheaper, much lighter and nimbler, much quicker in acceleration, and would conserve resources much better.
Other technologies are also capable of increasing a Panasonic Digital Camera Battery's energy density dramatically, and if used in conjunction with air battery technology we could conceivably have batteries weighing only 20 lbs. or so, and still giving us a very satisfying range between charges. Coating the anode with carbon nanotubes, for instance, has been claimed to also give a potential tenfold increase in energy storage-- imagine a Tesla with a battery using both technologies-- air battery and carbon nanotubes on the cathode-- that theoretically could increase range by a factor of 100, possibly giving a Tesla a theoretical driving range of 31,300 miles! The earth's circumference is about 24,800 miles, meaning that we could theoretically drive completely around the equator of the earth on a single charge!
What would be much more practical, of course, is to make the Panasonic CGA-S002 battery only as big as we really need it to drive a comfortable distance... say, 200 miles or so... meaning the car could be extremely light with great acceleration. If the battery could be reduced in weight that much, so could all the rest of the drive train-- the electric motor, the electronic controller, drive shaft, axles, etc. A very powerful, inexpensive, lightweight, practical EV could still have a very good range.
Realistically, Panasonic CGA-S001E battery may never achieve such spectacular performance, but without doubt they'll get better, cheaper and smaller, and EVs will be able to fully replace ICE-powered cars even if lithium becomes a strategic material. Before we do, though, we need to install an aggressive material recycling program to recover as much as possible of the lithium and other rare elements we'll be using, so it is not squandered. laptop battery details
and increasing demand have already set off confrontations between Western corporations that want to mine the precious mineral, and Bolivia's Socialist president, Evo Morales, who prefers nationalized Digital Camera Battery companies. However, that's just the beginning of the problems. The Foreign Policy article also warns that while lithium replacing oil as the main fuel source will help the environment, there's no evidence that changing the place and resource will reduce the conflict between those who have the power, and those who want it.
This might be great news for the Bolivians, but let's remember that lithium is a non-renewable natural resource - the Saudi Arabia analogy is very apt. Some scientists are estimating that there are around 13.5 million tons of it on earth, but with our current Casio Digital Camera Battery technology, only about half of that can actually be extracted and used (according to William Tahil and the Meridian International Research - check out. I know it's not the most impartial research group out there, but )
The Chevy Volt's battery setup weighs about 375 lbs., and there were more than 70 million motor vehicles produced in 2008 (I'm not sure how that figure has changed since, given all the economic ups and downs we've been having).
If hybrids like the Volt get anywhere near as popular as internal-combustion cars - and if our culture gets as dependent on them, and on lithium as a power source for them - then those reserves are going to start running out eventually, and we'll be right back where we started: searching anxiously for some new energy source/storage medium, as he world's lithium reserves slowly run dry - starting with those of the USA, whose reserves are only an estimated 38,000 tons.
If you google St. Andrews nikon EN-EL4 battery (abbreviated STAIR), and browse other air battery technologies, you'll see there is good reason to believe we may soon be able to make batteries that have far greater energy density, meaning we'll need far less of anything such as lithium to make a battery with much greater range, and that is much less expensive.
The concept of air batteries has been around for several years now. The idea is to replace the cathode of the battery with atmospheric air, which is practically limitless. If we can do this, we may be able to have nikon EN-EL2 battery with 10 times the storage capacity of those we have today.
Tesla EVs average about 244 miles between charges; recently, an Aussie drove one a distance of 313 miles on a single charge, a world record for EVs. Using that as a yardstick, we can assume that using air battery technology and a battery of the same weight, it would be possible to drive from coast to coast in the USA without recharging. Impressive.
If we did have such a great increase in storage capacity, of course, what would be far more practical would be to make cars with much smaller nikon EN-EL1 battery -- say, 100 lbs. or so-- that would have a much smaller range, but they would be much cheaper, much lighter and nimbler, much quicker in acceleration, and would conserve resources much better.
Other technologies are also capable of increasing a Panasonic Digital Camera Battery's energy density dramatically, and if used in conjunction with air battery technology we could conceivably have batteries weighing only 20 lbs. or so, and still giving us a very satisfying range between charges. Coating the anode with carbon nanotubes, for instance, has been claimed to also give a potential tenfold increase in energy storage-- imagine a Tesla with a battery using both technologies-- air battery and carbon nanotubes on the cathode-- that theoretically could increase range by a factor of 100, possibly giving a Tesla a theoretical driving range of 31,300 miles! The earth's circumference is about 24,800 miles, meaning that we could theoretically drive completely around the equator of the earth on a single charge!
What would be much more practical, of course, is to make the Panasonic CGA-S002 battery only as big as we really need it to drive a comfortable distance... say, 200 miles or so... meaning the car could be extremely light with great acceleration. If the battery could be reduced in weight that much, so could all the rest of the drive train-- the electric motor, the electronic controller, drive shaft, axles, etc. A very powerful, inexpensive, lightweight, practical EV could still have a very good range.
Realistically, Panasonic CGA-S001E battery may never achieve such spectacular performance, but without doubt they'll get better, cheaper and smaller, and EVs will be able to fully replace ICE-powered cars even if lithium becomes a strategic material. Before we do, though, we need to install an aggressive material recycling program to recover as much as possible of the lithium and other rare elements we'll be using, so it is not squandered. laptop battery details
Fundamentally a battery
Fundamentally a battery
is two different metals immersed in a corrosive fluid. Since elements tend toward their natural state these two FUJIFILM NP-60 battery metals exchange electrons through the fluid causing corrosion and the exchange of electrons is where we get electricity.
I am not certain but I think the reason we have trouble making a more efficient battery is because we haven't discovered or created any new metals to try to implement into a battery system. I think the next step in creating a more efficient battery would be the use of superdense metals because in order for a normal Casio Digital Camera Battery to last longer it needs to be larger.
Mind you I am no chemist, but I have toyed around with a few different ideas about how to configure a battery that would be longer lasting and more efficient simply out of curiosity, an Idea I had come up with is using series metals where at the top you have a metal that doesn't corrode well which is followed by a metal that has limited corrosion potential on through to a metal that is easily corroded.
This way once the first metal has surrendered electrons to the second, the second metal begins shedding electrons to the third and so on down the chain. Sort of a built in reserve for the Digital Camera Battery, but without a mechanism to efficiently test my suspicion, it is unknown what the result might be.
The question in this case implies a false fact.
There have been many innovations to batteries. The problem is, these innovations cost $$$. They use many exotic materials that in many cases can only be found in specific areas of the world (that is if we are talking about the typical mobile phone or flashlight battery). Just 10 years ago, my Nokia mobile phone had a 1 hour talk time and was the size of a water bottle. We have moved away from the NiCad batteries, through the NiMH, and now use Lithium ion. The FUJIFILM NP-80 battery is smaller than the palm of my hand and it powers what is essentially a portable computer that plays music, sends and receives email, plays games, browses the internet, takes pictures, oh and makes phone calls.
To make batteries cheaper, there needs to be "innovations" in nickel mining, or lithium, or any of the other exotic materials used (which of course is nearly impossible considering the price is derived from its scarcity).
I think its because Chemists cant keep up with Physicists! Physics has produced revolution after revolution in energy.
The real question this article should ask is: "where have Biologists been in this energy arena?" They have the most efficient example of FUJIFILM NP-30 battery energy transfer on earth to use as an model (the body's digestion of organic food) and yet they have not ever produced anything that can imitate or replicate that process!
A real breakthrough would be a car that runs on Grass by imitating the stomach of a grasshopper or a cow!
Talk about renewable energy!
But on this topic, I think the MIT discovery advancing the usefulness of fuelcells will be a much more efficient way of storing energy for our future. I think our cellphones will have fuelcells in the future.
Making and selling batteries is a business. Current batteries are probably making casio NP-30 battery producers top dollar right now so why keep upgrading and spending money on little improvements when demand is so high for what is available.
Even worse for manufacturers is what will they do if they develop batteries that are 10 times more efficient and use solar energy to recharge or maybe they sap energy from our movement? What happens is they make less money.
So I think we have the science to backup new and improved batteries.. I don't think we have manufacturers thinking the same untill they come up with a way to maximize money in their pockets.laptop battery details
is two different metals immersed in a corrosive fluid. Since elements tend toward their natural state these two FUJIFILM NP-60 battery metals exchange electrons through the fluid causing corrosion and the exchange of electrons is where we get electricity.
I am not certain but I think the reason we have trouble making a more efficient battery is because we haven't discovered or created any new metals to try to implement into a battery system. I think the next step in creating a more efficient battery would be the use of superdense metals because in order for a normal Casio Digital Camera Battery to last longer it needs to be larger.
Mind you I am no chemist, but I have toyed around with a few different ideas about how to configure a battery that would be longer lasting and more efficient simply out of curiosity, an Idea I had come up with is using series metals where at the top you have a metal that doesn't corrode well which is followed by a metal that has limited corrosion potential on through to a metal that is easily corroded.
This way once the first metal has surrendered electrons to the second, the second metal begins shedding electrons to the third and so on down the chain. Sort of a built in reserve for the Digital Camera Battery, but without a mechanism to efficiently test my suspicion, it is unknown what the result might be.
The question in this case implies a false fact.
There have been many innovations to batteries. The problem is, these innovations cost $$$. They use many exotic materials that in many cases can only be found in specific areas of the world (that is if we are talking about the typical mobile phone or flashlight battery). Just 10 years ago, my Nokia mobile phone had a 1 hour talk time and was the size of a water bottle. We have moved away from the NiCad batteries, through the NiMH, and now use Lithium ion. The FUJIFILM NP-80 battery is smaller than the palm of my hand and it powers what is essentially a portable computer that plays music, sends and receives email, plays games, browses the internet, takes pictures, oh and makes phone calls.
To make batteries cheaper, there needs to be "innovations" in nickel mining, or lithium, or any of the other exotic materials used (which of course is nearly impossible considering the price is derived from its scarcity).
I think its because Chemists cant keep up with Physicists! Physics has produced revolution after revolution in energy.
The real question this article should ask is: "where have Biologists been in this energy arena?" They have the most efficient example of FUJIFILM NP-30 battery energy transfer on earth to use as an model (the body's digestion of organic food) and yet they have not ever produced anything that can imitate or replicate that process!
A real breakthrough would be a car that runs on Grass by imitating the stomach of a grasshopper or a cow!
Talk about renewable energy!
But on this topic, I think the MIT discovery advancing the usefulness of fuelcells will be a much more efficient way of storing energy for our future. I think our cellphones will have fuelcells in the future.
Making and selling batteries is a business. Current batteries are probably making casio NP-30 battery producers top dollar right now so why keep upgrading and spending money on little improvements when demand is so high for what is available.
Even worse for manufacturers is what will they do if they develop batteries that are 10 times more efficient and use solar energy to recharge or maybe they sap energy from our movement? What happens is they make less money.
So I think we have the science to backup new and improved batteries.. I don't think we have manufacturers thinking the same untill they come up with a way to maximize money in their pockets.laptop battery details
Thursday, April 1, 2010
Energy-saving emission
Energy-saving emission
reduction Digital Camera Battery industry, is expecting the government itself behind the explosive growth
Last year, in late November, the Chinese government announced that 2020 will be carbon emissions per unit of GDP compared to 2005 levels by 40% reduced to 50%, while in December the same year in the Danish capital Copenhagen climate summit failed to achieve effective binding forces agreement, but due to global Casio Digital Camera Battery warming caused by emissions reduction requirements of the common aspirations of mankind’s future is being undermined efforts to reduce emissions that are not frustrated by this climate change conference. For the international obligations of the Chinese government always stands by his word, must comply fruit in 2010, the horn sounded in the era of the first year to give the low-carbon economy, new energy is a vital component of low-carbon economy can be expected over the next decade, the new energy(nikon CR-V3 battery) in the explosive growth occurring in China, the industry in the economic structure in China will occupy an important strategic position.
Essential to the development of new energy technologies, vehicles, lithium-battery
The current new energy industry encompasses many areas, we recommend investors to focus on lithium battery industry. Lithium batteries are new materials is an important basis for electric vehicle battery materials and new energy vehicles is the state of strategic industrial and emerging countries to strongly support the development of national strategic casio CRV3 battery industry. According to the State Council promulgated the “planning revitalize the automobile industry to adjust,” By 2011, China will form a new energy Qijuchanneng 500,000. New Energy Unit sales of approximately 5% of the total sales volume. Planning, preparation Experts predict that by the year 2012 hybrid cars in China reached 50 million vehicles to maintain pure electric vehicles will reach 10 million piece band. In 2020, hybrid cars in China reached 18 million, pure electric vehicles will reach 4 million to businesses. Therefore, we can imagine the future of new energy vehicles will be in what kind of spectacular growth, bringing the new energy automotive casio LB01 battery take infinite space for development.
Li-ion battery unit formerly known short-to medium-ready-term
It is noteworthy that, according to relevant experts say Smart Grid is planning to include the new energy vehicle charging station issues of planning. It can therefore be expected to be years, new energy vehicles will have a number of political dividends. View from the disk, lithium battery-related stocks in mid-January started a wave of major Shenglang market, although in a break period, shares of these companies, some adjustments have arisen, but later in the week the stock has become active again. Taking into account the shorter trading hours in February to March, low-carbon casio NP-40 battery economy will certainly get more attention, the very impetus for the stock up, and the associated measures are expected to be introduced, so there are a few of the shares of this company Price the next wave of major Shenglang market, investors can pay due attention to intervene and to choose the right time ushers in the new Master’s courses Shenglang
Yesterday afternoon, this reporter interviewed the owner of the number of scooters, the other party have indicated their own scooters battery reached the end of life, it is generally so Xiuju Pu “bought back” or “trade-in.”
In the market, journalists to sell their own scooters battery(FUJIFILM NP-40 battery) scrap the grounds, visited a number of Xiuju Pu results without exception, such a headache for many owners of spent batteries in the market has become a “meat and potatoes” . 1 Xiuju Pu operator has told reporters that the acquisition of used batteries do not look old, only by type, capacity to pricing, common 48-volt battery, can fetch a maximum of around 50 yuan.
Chitchat in the name of the owner admitted that he was only the first hurdle battery recycling, almost every week, there will be trucks coming to the market, away mountains of old batteries, but these trucks are not the original manufacturer to produce scooters sent . “Split, renovation, not that these tricks.” Owner said that as the old batteries back to manufacturers cost is too high, and the lack of convenient means, such a “sale” almost no one to do.
laptop battery details
reduction Digital Camera Battery industry, is expecting the government itself behind the explosive growth
Last year, in late November, the Chinese government announced that 2020 will be carbon emissions per unit of GDP compared to 2005 levels by 40% reduced to 50%, while in December the same year in the Danish capital Copenhagen climate summit failed to achieve effective binding forces agreement, but due to global Casio Digital Camera Battery warming caused by emissions reduction requirements of the common aspirations of mankind’s future is being undermined efforts to reduce emissions that are not frustrated by this climate change conference. For the international obligations of the Chinese government always stands by his word, must comply fruit in 2010, the horn sounded in the era of the first year to give the low-carbon economy, new energy is a vital component of low-carbon economy can be expected over the next decade, the new energy(nikon CR-V3 battery) in the explosive growth occurring in China, the industry in the economic structure in China will occupy an important strategic position.
Essential to the development of new energy technologies, vehicles, lithium-battery
The current new energy industry encompasses many areas, we recommend investors to focus on lithium battery industry. Lithium batteries are new materials is an important basis for electric vehicle battery materials and new energy vehicles is the state of strategic industrial and emerging countries to strongly support the development of national strategic casio CRV3 battery industry. According to the State Council promulgated the “planning revitalize the automobile industry to adjust,” By 2011, China will form a new energy Qijuchanneng 500,000. New Energy Unit sales of approximately 5% of the total sales volume. Planning, preparation Experts predict that by the year 2012 hybrid cars in China reached 50 million vehicles to maintain pure electric vehicles will reach 10 million piece band. In 2020, hybrid cars in China reached 18 million, pure electric vehicles will reach 4 million to businesses. Therefore, we can imagine the future of new energy vehicles will be in what kind of spectacular growth, bringing the new energy automotive casio LB01 battery take infinite space for development.
Li-ion battery unit formerly known short-to medium-ready-term
It is noteworthy that, according to relevant experts say Smart Grid is planning to include the new energy vehicle charging station issues of planning. It can therefore be expected to be years, new energy vehicles will have a number of political dividends. View from the disk, lithium battery-related stocks in mid-January started a wave of major Shenglang market, although in a break period, shares of these companies, some adjustments have arisen, but later in the week the stock has become active again. Taking into account the shorter trading hours in February to March, low-carbon casio NP-40 battery economy will certainly get more attention, the very impetus for the stock up, and the associated measures are expected to be introduced, so there are a few of the shares of this company Price the next wave of major Shenglang market, investors can pay due attention to intervene and to choose the right time ushers in the new Master’s courses Shenglang
Yesterday afternoon, this reporter interviewed the owner of the number of scooters, the other party have indicated their own scooters battery reached the end of life, it is generally so Xiuju Pu “bought back” or “trade-in.”
In the market, journalists to sell their own scooters battery(FUJIFILM NP-40 battery) scrap the grounds, visited a number of Xiuju Pu results without exception, such a headache for many owners of spent batteries in the market has become a “meat and potatoes” . 1 Xiuju Pu operator has told reporters that the acquisition of used batteries do not look old, only by type, capacity to pricing, common 48-volt battery, can fetch a maximum of around 50 yuan.
Chitchat in the name of the owner admitted that he was only the first hurdle battery recycling, almost every week, there will be trucks coming to the market, away mountains of old batteries, but these trucks are not the original manufacturer to produce scooters sent . “Split, renovation, not that these tricks.” Owner said that as the old batteries back to manufacturers cost is too high, and the lack of convenient means, such a “sale” almost no one to do.
laptop battery details
Sony is powerful
Sony is powerful
, is still the world’s largest manufacturers of lithium batteries, then stood by the error channel and product strategy, a loss in 2004, the losses to a record ¥ 171,500,000,000. To create Sony took the U.S. Goldman Sachs, Sumitomo Mitsui Banking Corporation, Daiwa Securities three sony NP-FR1 battery financial institutions a total of ¥ 300,000,000,000 of financing assistance. In return, the three major institutional investors have is access to 430 million Sony preferred stock (convertible preferred shares for every 10 ordinary shares) owns 70%. Create IUE Sony family denied the right, the Sony President SatoshiIue meeting was ousted worked, barely holding their “Director” of the place.
The monitoring of the sony NP-FM50 battery set the rights to operate the U.S. Goldman Sachs and other large shareholders to a number of business experts to form a new business team, but they do not want to save Sony, simply want the cake bigger cuts after the sale make is more conducive to the exercise of the highest investments in interests. Between the operators and investors are in a conflict of interest, Sony blocked the path of development have white goods and semiconductor operations into a new type of solar battery and charger sold-based “new energy development company.
Investment Sony is proud of Goldman Sachs. But after the outbreak of the financial tsunami crashed Sony has one third of market capitalization, shares of Goldman Sachs want to sell Sony shrunk. Sumitomo Mitsui Banking Corporation and the sony NP-FM51 battery is the issuer’s always been the firm Transaction Banking, which handles many of the collateralized debt obligations, shares. Thus, from April 2008 they began to search for the next home, Sony.
Many companies in Japan and abroad Sony butt showed great interest, but Matsushita to the final winner. Matsushita in fiscal 2008 net loss of ¥ 380,000,000,000 (about 3.85 billion U.S. dollars), hopes that its acquisition of Sony battery boost business. After the merger, Matsushita, not only in the field of solar cells less a formidable competitor, but also new energy R & D in Japan and the world leader.
November 7, 2008 in the afternoon, Sony announced that acquire Sony’s board of directors agreed to sony NP-F10 battery by TOB (open shares acquired) to Sony.
Goldman Sachs to sell the search for a high price to offer negotiations with Matsushita intentionally twice rejected others, and let it be known their own priorities, to be exercised options to acquire shares of other shareholders Sony. At the end of Matsushita raised the price to ¥ 131 per share. It is reported that three major shareholders, Goldman Sachs, the purchase price just 70 yen per share.
For the same roots
Among the many Japanese companies Sony selection of Sony, Sony(sony NP-FE1 battery) also be appropriate to the cost “, which is one important reason why the world is not known -” fingers “.
Sony Founder IUE-year-old man is also one of the founders of Matsushita, a former Matsushita Electric Industrial Co., Senior Managing Director (equivalent to Vice President). In addition, the founder of Matsushita, the Japanese company Matsushita God is his brother. In 1946, Japan defeated the period of post-war ruins, well-sik-year-old male leave the Sony, self-starter. Matsushita him his factory, the factory is today the Sony Corporation.
It is interesting that the Sony(sony DSC-T7 battery) headquarters and headquarters of the linear distance of only 2000 meters. For a long time to live, the two employees of the company a dwelling. Many families, the husband works in Matsushita, Sony working women who are Sony Sony workers in kindergartens and children.
Many Japanese media that it precisely this stratum of origin so that the two sides together. One day in late October 2008, discussions took Matsushita President Fumio Ohtsubo and Sony President Seiichiro Sano, secret. According to sources at the talks, said Matsushita’s President said that he will respect the independence of the company Sony retain the name of the company and the brand Sony promised that “the employment Sony all employees.” Sony Digital Camera Battery President will express our gratitude, “President Daping you really are the feelings of our people to understand.”
, is still the world’s largest manufacturers of lithium batteries, then stood by the error channel and product strategy, a loss in 2004, the losses to a record ¥ 171,500,000,000. To create Sony took the U.S. Goldman Sachs, Sumitomo Mitsui Banking Corporation, Daiwa Securities three sony NP-FR1 battery financial institutions a total of ¥ 300,000,000,000 of financing assistance. In return, the three major institutional investors have is access to 430 million Sony preferred stock (convertible preferred shares for every 10 ordinary shares) owns 70%. Create IUE Sony family denied the right, the Sony President SatoshiIue meeting was ousted worked, barely holding their “Director” of the place.
The monitoring of the sony NP-FM50 battery set the rights to operate the U.S. Goldman Sachs and other large shareholders to a number of business experts to form a new business team, but they do not want to save Sony, simply want the cake bigger cuts after the sale make is more conducive to the exercise of the highest investments in interests. Between the operators and investors are in a conflict of interest, Sony blocked the path of development have white goods and semiconductor operations into a new type of solar battery and charger sold-based “new energy development company.
Investment Sony is proud of Goldman Sachs. But after the outbreak of the financial tsunami crashed Sony has one third of market capitalization, shares of Goldman Sachs want to sell Sony shrunk. Sumitomo Mitsui Banking Corporation and the sony NP-FM51 battery is the issuer’s always been the firm Transaction Banking, which handles many of the collateralized debt obligations, shares. Thus, from April 2008 they began to search for the next home, Sony.
Many companies in Japan and abroad Sony butt showed great interest, but Matsushita to the final winner. Matsushita in fiscal 2008 net loss of ¥ 380,000,000,000 (about 3.85 billion U.S. dollars), hopes that its acquisition of Sony battery boost business. After the merger, Matsushita, not only in the field of solar cells less a formidable competitor, but also new energy R & D in Japan and the world leader.
November 7, 2008 in the afternoon, Sony announced that acquire Sony’s board of directors agreed to sony NP-F10 battery by TOB (open shares acquired) to Sony.
Goldman Sachs to sell the search for a high price to offer negotiations with Matsushita intentionally twice rejected others, and let it be known their own priorities, to be exercised options to acquire shares of other shareholders Sony. At the end of Matsushita raised the price to ¥ 131 per share. It is reported that three major shareholders, Goldman Sachs, the purchase price just 70 yen per share.
For the same roots
Among the many Japanese companies Sony selection of Sony, Sony(sony NP-FE1 battery) also be appropriate to the cost “, which is one important reason why the world is not known -” fingers “.
Sony Founder IUE-year-old man is also one of the founders of Matsushita, a former Matsushita Electric Industrial Co., Senior Managing Director (equivalent to Vice President). In addition, the founder of Matsushita, the Japanese company Matsushita God is his brother. In 1946, Japan defeated the period of post-war ruins, well-sik-year-old male leave the Sony, self-starter. Matsushita him his factory, the factory is today the Sony Corporation.
It is interesting that the Sony(sony DSC-T7 battery) headquarters and headquarters of the linear distance of only 2000 meters. For a long time to live, the two employees of the company a dwelling. Many families, the husband works in Matsushita, Sony working women who are Sony Sony workers in kindergartens and children.
Many Japanese media that it precisely this stratum of origin so that the two sides together. One day in late October 2008, discussions took Matsushita President Fumio Ohtsubo and Sony President Seiichiro Sano, secret. According to sources at the talks, said Matsushita’s President said that he will respect the independence of the company Sony retain the name of the company and the brand Sony promised that “the employment Sony all employees.” Sony Digital Camera Battery President will express our gratitude, “President Daping you really are the feelings of our people to understand.”
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