mikejuk writes The constant war to jailbreak and patch iOS has taken another step in favor of the jailbreakers. Georgia Tech researchers have found a way to jailbreak the current version of iOS. What the Georgia Tech team has discovered is a way to break in by a multi-step attack. After analysing the patches put in place to stop previous attacks, the team worked out a sequence that would jailbreak any modern iPhone. The team stresses the importance of patching all of the threats, and not just closing one vulnerability and assuming that it renders others unusable as an attack method. It is claimed that the hack works with any iOS 7.1.2 using device including the iPhone 5s.It is worth noting that the The Device Freedom Prize for an open source jailbreak of iOS7 is still unclaimed and stands at just over $30, 000. The details are to be revealed at the forthcoming Black Hat USA (August 6 & 7 Las Vegas) in a session titled Exploiting Unpatched iOS Vulnerabilities for Fun and Profit: Read more of this story at Slashdot.
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Georgia Tech Researchers Jailbreak iOS 7.1.2
In the days of the Soviet Union, western antibiotics couldn’t make it past the Iron Curtain. So Eastern Bloc doctors figured out how to use viruses to kill the bacteria infecting their patients. Now, with antibiotic-resistant bacteria vexing modern medicine, that eerie yet effective method might come our way. In post-antibiotic world, infection is cure! Read more… 
Read a magazine, book or website and you’ll see the product of Matthew Carter’s labors all over it—because he’s the guy who designed hundreds of fonts, including Verdana and Georgia. In this video, he describes the interaction between technology and design in the creation of typefaces. Read more… 
ananyo writes “Physicists have produced nanoribbons of graphene — the single-atom-thick carbon — that conduct electrons better than theory predicted even for the most idealized form of the material (abstract). The finding could help graphene realize its promise in high-end electronics, where researchers have long hoped it could outperform traditional materials such as silicon. In graphene, electrons can move faster than in any other material at room temperature. But techniques that cut sheets of graphene into the narrow ribbons needed to form wires of a nano-scale circuit leave ragged edges, which disrupt the electron flow. Now a team led by physicist Walt de Heer at the Georgia Institute of Technology in Atlanta has made ribbons that conduct electric charges for more than 10 micrometres without meeting resistance — 1, 000 times farther than in typical graphene nanoribbons. The ribbons made by de Heer’s team in fact conduct electrons ten times better than standard theories of electron transport they should, say the authors.” Read more of this story at Slashdot. 
Researchers say their experimental arrays sense pressure in the same range as the human fingertip, which could result in better bots and prosthetics. [Read more] 