Elevate your selfie game with this pocket-sized drone: engt.co/2cqxRRu
Read more
Dobby Selfie-Drone: Hands-On
Posted in drones, entertainment
In an attempt to bring the next generation of computers to life, teams around the globe have been working with carbon nanotubes — one of the most conductive materials ever discovered. Now, for the first time ever, scientists made a transistor using carbon nanotubes that beats silicon.
For the first time, scientists have built a transistor out of carbon nanotubes that can run almost twice as fast as its silicon counterparts.
This is big, because for decades, scientists have been trying to figure out how to build the next generation of computers using carbon nanotube components, because their unique properties could form the basis of faster devices that consume way less power.
Read more
A Spanish publishing house has finally been given permission to make exact copies of the Voynich Manuscript — a 15th century book written in a mysterious coded language that no one has cracked.
For centuries, scientists have been trying to decipher the text. Some of the world’s best cryptographers have dedicated their lives to solving the puzzle — but no one’s even gotten close. Now, with almost 900 copies about to go into circulation, we might finally get some answers.
“The Voynich Manuscript has led some of the smartest people down rabbit holes for centuries,” Bill Sherman from the Folger Shakespeare Library told The Washington Post in 2014, when he was about to open an exhibit on the text.
Read more
Researchers design aqueous battery that stores solar energy better than current lithium technology.
Batteries based on water that can store the electricity that we generate from solar technology? It can now be done.
Researchers at Ohio State University have designed a device with an aqueous flow battery that is based on water as opposed to the standard lithium design of your average rechargeable batteries. It is the first aqueous flow battery to work with a solar cell and it is 20 percent more efficient than the lithium design.
Read more
There are many theoretical models to explain such aspects of high energy physics as dark matter, theory of inflation, bariosynthesis, the Higgs mechanism, etc. The discovery of universal expansion is accelerating, precise measurements of characteristics of the cosmic microwave background, and indirect confirmations of the existence of dark matter have significantly advanced observational and theoretical cosmology. The connection between cosmological processes in the early universe and physics of elementary particles is getting clearer. Theories with additional compact measurements (multidimensional gravity) have contributed to the explanation of a series of phenomena in cosmology and the physics of elementary particles including inflation, baryon asymmetry, black holes and dark matter. Multidimensional gravity may become one of the basics of fundamental theoretical physics.
The development of colliders led to the discovery of a number of new particles, which was a great confirmation of the Standard Model ℠ of particle physics. The real SM triumph was the discovery of the Higgs boson in LHC experiments in CERN. However, despite the success of SM in high-energy physics, there is a series of questions and problems that can’t be explained by it—for example, baryon asymmetry, the origin of the Higgs field, the production of the early quasars, etc.
A theoretical direction, which is based on the idea of multidimensional gravity, is being developed at the MEPhI Department № 40 under the supervision of Professor S.G. Rubin. For the past several years, interesting results have been obtained on the basis of this research. In a thesis by Alexey Grobov titled “Effects of extra spaces in particle physics and cosmology,” multidimensional gravitational models contribute to better understanding of connections between astrophysics and microphysics phenomena.
Read more
No shock to me.
Diamandis claimed that we are gearing towards a future possible of “interface mind-machine, where in human brain’s consciousness could be uploaded to computer and then transferred to a new body—probably a cultured in the lab. He estimates that it will just take 20–30 years to be realized.
The reality of extended life longevity to almost immortality is actually not too hard to believe these days. After all science and technology never failed to amuse us to make the once impossible possible.
TagsHealth, alternative health, life longevity, Nanotechnology, Medical Science, medical nanotechnology.
http://www.unz.com/akarlin/sinotriumph/
Nothing illustrates China’s meteoric rise as some well chosen numbers.
By the end of the 1990s, China had come to dominate the mainstays of geopolitical power in the 20th century – coal and steel production. As a consequence, it leapt to the top of the Compositive Index of National Capability, which uses military expenditure, military personnel, energy consumption, iron and steel production, urban population, and total population as a proxy of national power. Still, one could legitimately argue that all of these factors are hardly relevant today. While Germany’s fourfold preponderance in steel production over Russia may have been a critical number in 1914, China’s eightfold advantage in steel production over the US by 2014 is all but meaningless in any relevant comparison of national power. The world has moved on.
Read more
The future frontier for hackers is synthetic biology.
Landmark scientific projects such as the Human Genome Project can encourage international cooperation and bring nations together. However, when security interests and defence research align with the prestige of a landmark project—international competition is all but assured. Synthetic biology is a scientific discipline less than a decade old, and the potential defence and security applications may create a new space race, this time between the USA and China.
The larger concern is not that this race may happen, but that if it does it will politicise and militarise an ethically sensitive area of the life sciences at a time when this frontier technology is critical to maintaining a sustainable world.
The Human Genome Project (HGP) cost about US$300 million (A$394 million), involved 20 international institutions and sequenced the human genome in just over a decade. The draft sequence was published in February 2001 and has driven economic, health and social benefits the world over for the last 15 years. To a very large extent this research project underpins the modern life sciences and is the equivalent of landing on the moon.