Friday, May 16, 2014

drag2share: Google Play starts accepting PayPal for digital goods, but not for physical ones

Source: http://www.engadget.com/2014/05/15/google-play-paypal/

Well, here's a surprise: Mountain View now accepts PayPal payments for apps, games, books and other digital goods on Google Play. If you're not exactly fond of paying through credit cards cards or carriers, you can activate the option by clicking Add Paypal and typing in your log-in details. The option has a huge limitation, though: you can't exactly use it to buy devices and accessories. So, if you want to buy a new Android phone or a Nest thermostat, you need to bust out that plastic. That said, Play has also expanded carrier billing and gift card availability to more countries, and anyone waiting for either may want to check Google Support for the full lists.

[Image credit: Steve Ganz/Flickr]

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Via: Droid Life

Source: Android Developers Blog

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drag2share: Full-frame and 4K-ready: The Sony Alpha A7s can be yours in July for $2,500

Source: http://www.engadget.com/2014/05/16/sony-alpha-a7s/

It's hard to believe that the Alpha A7 is about to have its successor hit the market, especially since a full-frame mirrorless camera from Sony was just a rumor not that long ago. Today, Sony announced that its Alpha A7s, which was revealed at NAB in Las Vegas last month, will be going on sale in July for a cool $2,500 (body-only). Sure, it is a pretty heavy price tag, but the A7s packs enough features inside to make it one of the most exciting shooters to date. Along with the 35mm full-frame, 12.2-megapixel Exmor CMOS sensor, Sony's newly minted ILC can also take 4K video (though you'll need an external drive to do so) and has an ISO range of 50 to 409,600. But there's a lot more where that came from, too -- things like built-in WiFi, NFC, a 25-point autofocus system and 4K movie output.

We asked Sony whether the A7s would have a body-plus-lens kit available at the time the camera goes on sale, but the company said it didn't have any details to share on that at the moment. Still, chances are there will be one -- after all, that's sort of standard with camera sales nowadays. The availability announcement of the Alpha A7s comes alongside the introduction of the Cyber-shot RX100 III, as Sony continues to expand its camera lineup with a little something for everyone. Of course, the A7s is set to face a little more competition than its cousin the RX100, with existing options like Panasonic's Lumix GH4 and others looking to also get a piece of the 4K pie.

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drag2share: Meet Sony's RX100 III, a refined edition of its excellent point-and-shoot

Source: http://www.engadget.com/2014/05/16/sony-cyber-shot-rx100-iii/

Even though Sony has been suffering from financial woes of late, the Japanese company did find some form of success recently thanks to new Xperia smartphones and the PlayStation 4. And let's not forget another meaningful part of its electronics business: cameras. With the introduction of the Cyber-shot RX100 back in 2012, Sony made a point-and-shoot that most any photography buff could proudly carry around, to use not only as a backup to, say, a DSLR, but even as a main camera. Now, looking to build on the success of the first and second generations, Sony is announcing the RX100 III, bringing with it more bells and whistles than you could ever hope for out of a compact shooter.

On the outside, the new RX100 is quite similar to its predecessors, sporting a sleek, slightly glossy black finish and that 180-degree tilting LCD on the back. It is the inside where most changes have taken place, however. For instance, it now features Sony's Bionz X image processor (also found on the recently unveiled Alpha A77 II), which is paired alongside the same 20.1-megapixel Exmor R CMOS sensor that's found on the previous version of the RX100. But while Sony didn't make any upgrades to the sensor here, the RX100 III does welcome brand new Zeiss glass in the Vario-Sonnar T*, a 24-70mm, f/1.8-f/2.8 lens -- Sony says this is perfect for keeping a wide-angle view and should help you take some solid, bokeh-filled pictures.

One of the many things the RX100 does well is video, and Sony wanted that trend to continue with its third-gen model. The pocket-sized shooter now processes video in XAVC S format, which, according to Sony, lets you record 1080p videos at a much faster data rate and with very little compression -- in other words, this will make your movies look a lot better and crisper. To go with that, Sony also added a built-in, retractable OLED electronic viewfinder (which wasn't present on either of the older editions), WiFi/NFC for wireless sharing and the ability to capture 4K still images, making the newest RX100 an even more powerful little camera.

So just how much will you have to pay for all these features? Well, Sony's pricing the Cyber-shot RX100 III at a reasonable $800 when it arrives next month, which is only $50 more than the RX100 II was when it became available last year.

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Thursday, May 15, 2014

drag2share: 13 Emerging Nanotechnologies And Materials That Will Change The World

Source: http://www.businessinsider.com/13-emerging-nanotechnologies-and-next-generation-materials-2014-4

Policy Horizons Canada worked with futurist and data visualizer Michell Zappa of Envisioning to produce a report called MetaScan 3: Emerging Technologies and accompanying infographics. We are reproducing the summary for emerging nano technologies and materials science.Quantum Hydrogen on GrapheneNext-generation materials include super-light materials and active materials that react to changes in their environment and ultimately smart materials that explain how they are doing. Functional materials follow by borrowing ideas from biology to improve performance and add new behaviours. Self-assembling materials are about making large-scale products that are more precise, enabling better properties (strength, tear resistance, conductivity, etc.).

We have included predictions based on consultation with experts of when each technology will be scientifically viable (the kind of stuff that Google, governments, and universities develop), mainstream (when VCs and startups widely invest in it), and financially viable (when the technology is generally available on Kickstarter).

Next-Generation

Superomniphobic materials: Inspired by water bugs that float on liquid surfaces, these materials repel both oily and watery fluids.

Scientifically viable today; mainstream and financiall! y viable in 2015.

Auxetic materials: When stretched, auxetic materials become thicker perpendicular to the applied force. This occurs due to their hinge-like structures, which flex when stretched. Auxetics may be useful in applications such as body armor, packing material, knee and elbow pads, robust shock absorbing material, and sponge mops.

Scientifically viable in 2016; mainstream and financially viable in 2017.

AerographiteAerogel: A synthetic porous ultralight material derived from a gel, in which the liquid component of the gel has been replaced with a gas. The result is a solid with extremely low density and thermal conductivity which feels like polystyrene (styrofoam) to the touch. Potential applications include improved thermal insulation, chemical absorber for cleaning up spills, electrochemical supercapacitors and shock absorption.

Scientifically viable in 2015; mainstream in 2019; and financially viable in 2021.

Thermo-bimetals: Thermally activated bimetals would allow for panes of glass capable of becoming shades when exposed to the sun, self-regulating energy consumption throughout the day.

Scientifically viable in 2019; mainstream in 2021; and financially viable in 2022.

Smart materials: Designed materials that have one or more properties that can be significantly changed in a controlled fashion by external stimuli, such as stress, temperature, moisture, pH, electric or magnetic fields.

Scientifically viable in 2021; mainstream in 2025; and financially viable in 2027.

Functional

Biomaterials: Derived either from nature or synthesized in the laboratory, biomaterials can be used to enhance or replace natural functions in the body. Already used to a small degree, future biomaterials have the potential of improving drug deli! very (by permitting extended drug release) or to improve grafting in transplants.

Scientifically viable in 2014; mainstream in 2016; and financially viable in 2017.

Meta-materials: Materials with a precise shape, geometry and arrangement which can affect light and sound in unconventional manners. Potential applications are diverse, including remote aerospace applications, infrastructure monitoring, smart solar power management, public safety, improving ultrasonic sensors, and even shielding structures from earthquakes.

Scientifically viable in 2018; mainstream in 2019; and financially viable in 2021.

grapheneGraphene: A substance composed of pure carbon with atoms arranged in a regular hexagonal pattern similar to graphite, but in a one-atom thick sheet. With a 1-square-meter sheet weighing only 0.77 mg, the material is incredibly light yet strong. Potential applications are incredibly diverse, and include: Components with higher strength to weight ratios, lower cost solar cells, lower cost display screens in mobile devices, storing hydrogen for fuel cell powered cars, medical sensors, faster charging batteries, ultracapacitors, chemical sensors and many others.

Scientifically viable in 2016; mainstream in 2022; and financially viable in 2025.

Nanoelectricmechanical systems (NEMS): Devices integrating electrical and mechanical functionality on the nanoscale. NEMS typically integrate transistor-like nanoelectronics with mechanical actuators, pumps, or motors, and may thereby form physical, biological, and chemical sensors.

Scientifically viable in 2023; mainstream in 2025; and financially viable in 2027.

Self-Assembling


!Self-healing materials:
A class of smart materials that have the structurally incorporated ability to repair damage caused by mechanical usage over time. The inspiration comes from biological systems, which have the ability to heal after being wounded. A material (polymers, ceramics, etc.) that can intrinsically correct damage caused by normal usage could lower production costs of a number of different industrial processes through longer part lifetime, reduction of inefficiency over time caused by degradation, as well as prevent costs incurred by material failure.

Scientifically viable in 2016; mainstream in 2018; and financially viable in 2019.

Controlled self-assembly: Machines that manipulate individual atoms with organism-like self-replicating abilities. These bottom-up, atomically precise 3D printers would be able to carefully create sequences of DNA, RNA or protein.

Scientifically viable in 2013; mainstream and financially viable in 2022.

Large-scale self-assembling materials: A process in which a disordered system of pre-existing components forms an organized structure or pattern as a consequence of specific, local interactions among the components themselves, without external direction. Such materials could potentially heal themselves and grow/contract on cue.

Scientifically viable in 2023; mainstream in 2024; and financially viable in 2025.

nanofiberNanofactories: A proposed system in which nanomachines would combine reactive molecules via mechanosynthesis to build larger, atomically precise parts. These, in turn, would be assembled by positioning mechanisms of increasing size to build macroscopic (human-scale) products that remain atomically precise.

Scientifically viable and mainstream in 2026; financially viable in 2027.

SEE ALSO: These beautiful charts show the emerging technologies that will change the world

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drag2share: How to get started with home automation through Z-Wave

Source: http://www.engadget.com/2014/05/14/home-automation-z-wave-how-to/

For many of us, smart homes seem like a far off concept from a science fiction novel set hundreds of years in the future. Imagine things like appliances that learn our schedules, lights that turn off after we leave a room, locks that can be remotely triggered to let yourself (or others) into your house and more. You know what though? The future is here. Engadget reader Dignan17 shows us what it takes to get started with home automation using Z-Wave compatible devices.

Have questions? Head over to the forums and ask away or share your own experiences with home automation.

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