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Blog – Page 11560

Theoretical physicists have confirmed that it’s not just the information coded into our DNA that shapes who we are — it’s also the way DNA folds itself that controls which genes are expressed inside our bodies.

That’s something biologists have known for years, and they’ve even been able to figure out some of the proteins responsible for folding up DNA. But now a group of physicists have been able to demonstrate for the first time through simulations how this hidden information controls our evolution.

Let’s back up for a second here, because although it’s not necessarily news to many scientists, this second level of DNA information might not be something you’re familiar with.

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Ric Edelman is one the top financial advisors in the US. His firm, Edelman Financial Services, has 41 offices across the country. And he thinks, all things constant, most financial advisors as we’ve known them won’t be around much longer.

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At Exponential Finance, Edelman said, “I firmly believe that in the next ten years, half of all the financial advisors in this country will be gone.”

Edelman spoke on a panel with fellow advisor, Bill Bachrach, chairman and CEO of Bachrach & Associates.

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Facebook launched a feature that allows users to upload photos with 360-degree views on Thursday.

Apart from photos taken from 360-degree cameras, panoramic photos taken on a mobile phone can be converted to a 360-degree view on the newsfeed, the company said on Thursday.

The photos can also be seen in virtual reality compatible devices, Facebook said.

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Exponential Finance celebrates the incredible opportunity at the intersection of technology and finance. Watch live as hundreds of the world’s leading investors, entrepreneurs and innovators gather in New York to define the future of the way we do business.

In Bitcoin’s early years computer scientists and early adopters were running the show. Now, a new community of academics, entrepreneurs, and economists, are working with cryptocurrencies and blockchain to bring the technology to a new set of diverse applications.

From building peer-to-peer networks for secure data computation and storage to decentralized content management systems that give patients access to health-care records across hospital databases, blockchain and digital currencies are starting to rewrite the rules of the 21st century transaction.

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Low-cost, low-dimensional nanoarchitectures provide optimal structures for charge collection in large-scale solar energy harvesting and conversion applications.

Photoelectrochemical water splitting, where irradiation of a photoelectrode in water produces hydrogen and oxygen, can be used for solar energy harvesting and conversion.1 The process potentially offers a clean, sustainable, and large-scale energy resource. Photoanodes used in the photoelectrochemical process are generally made from Earth-abundant oxide semiconductors, such as titanium dioxide, tungsten trioxide, and iron (III) oxide.2 Among these metal oxide semiconductors, tungsten trioxide is regarded as one of the best candidates because of its visible light-driven photocatalytic activity, its good charge transport properties, and its relative stability in aqueous electrolytes. However, the light absorption and charge collection efficiency of tungsten trioxide—especially within a bulk structure—still needs to be improved to realize practical photoelectrochemical applications.

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