Probably for as long as humans have contemplated their navels, they have sought to understand consciousness. Now, neuroscientists are making strides in developing theories to explain the phenomenon.
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Welcome to our imaginary existential nightmare…
Stephen Hawking recently discussed black holes and the often contradictory properties associated with them during a lecture at Harvard. The Harvard Gazette said recently that Hawking specifically explained that, if information is really lost in black holes, then we will have been misunderstanding not only black holes, but the science of determinism, for the last 200 years.
Hawking said that particles that fall into a black hole “can’t just emerge when the black hole disappears.” Instead, “the particles that come out of a black hole seem to be completely random and bear no relation to what fell in. It appears that the information about what fell in is lost, apart from the total amount of mass and the amount of rotation.”
To put that more simply, it’s like someone shooting a basketball into a hoop and, instead of the ball coming out of the basket, something totally different comes out. But that’s not what Hawking is concerned about – he’s more concerned with the fact that the basketball – or information – seems to vanish altogether.
I suppose that us being in a simulation would answer Fermi’s Paradox very (disturbingly) neatly…
(Business Insider)
We trust the scientists around us to have the best grasp on how the world actually works.
“NASA is soliciting ideas from U.S. industry for designs of a Mars orbiter for potential launch in the 2020s. The satellite would provide advanced communications and imaging, as well as robotic science exploration, in support of NASA’s Journey to Mars.”
Ever notice how maps of the large structures of the Universe look like maps of the brain or a Pollock painting?
On the grandest scale, our universe is a network of galaxies tied together by the force of gravity. Cosmic Web, a new effort led by cosmologists and designers at Northeastern’s Center for Complex Network Research, offers a roadmap toward understanding how all of those tremendous clusters of stars connect—and the visualizations are stunning.
The images below show us several hypothetical architectures for our universe, built from data on 24,000 galaxies. By varying the construction algorithm, the researchers have designed cosmic webs that link up in a number of different ways; based on the size, proximity, and relative velocities of individual galaxies. I call it God View.
American woman gets biologically younger after gene therapies.
Elizabeth Parrish, CEO of Bioviva USA Inc. has become the first human being to be successfully rejuvenated by gene therapy, after her own company’s experimental therapies reversed 20 years of normal telomere shortening.
Telomere score is calculated according to telomere length of white blood cells (T-lymphocytes). This result is based on the average T-lymphocyte telomere length compared to the American population at the same age range. The higher the telomere score, the “younger” the cells.
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Over the past few days, Wired has published some articles that give us the closest look yet at the ambitious, enigmatic augmented reality company called Magic Leap. They’ve left us with both a lot of fascinating possibilities and a lot of questions, because most of Magic Leap’s technological explanations are couched in the language of either science fiction or, well, magic. As poetic as “[talking] to the GPU of the brain” and “dreaming with your eyes open” sounds, this is probably the clearest and most interesting description of Magic Leap’s work in the piece:
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Nice
A group of physicists recently built the smallest engine ever created from just a single atom. Like any other engine it converts heat energy into movement — but it does so on a smaller scale than ever seen before. The atom is trapped in a cone of electromagnetic energy and lasers are used to heat it up and cool it down, which causes the atom to move back and forth in the cone like an engine piston.
The scientists from the University of Mainz in Germany who are behind the invention don’t have a particular use in mind for the engine. But it’s a good illustration of how we are increasingly able to replicate the everyday machines we rely on at a tiny scale. This is opening the way for some exciting possibilities in the future, particularly in the use of nanorobots in medicine, that could be sent into the body to release targeted drugs or even fight diseases such as cancer.
Nanotechnology deals with ultra-small objects equivalent to one billionth of a meter in size, which sounds an impossibly tiny scale at which to build machines. But size is relative to how close you are to an object. We can’t see things at the nanoscale with the naked eye, just as we can’t see the outer planets of the solar system. Yet if we zoom in — with a telescope for the planets or a powerful electron microscope for nano-objects — then we change the frame of reference and things look very different.
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Tech capital is first major US city to require all new buildings of 10 storeys or under to have solar panels, reports BusinessGreen.
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