A Black Hole of Global Warming Stupidity has been formed. Beware of the event horizon.
Meteorologist and founder of most-read climate website in the world named senior fellow.
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Bitnation is growing up.
đ„ đ„ đ„ NEW RELEASE: #BITNATION JURISDICTION v. 1.4.0 for Android and iOS đ€© đ„ł đ„°
The 1.4.0 release has been a crazy road! After the 1.3.4 release, we thought âthis app somehow does not say: âIâm a virtual nationâ or âIâm a blockchain jurisdictionâ, but rather we thought it looked more like a confused web3 app which didnât really know its purpose.
Hence we went back to the drawing board, to put the governance functions in the very center of the user experience. The result is 3 bottom menu main categories, including TOWNHALL, NATIONS and the brand new GOVMARKET. All other functions moved to a new side menu.
One of the vast untapped potentials of medicine is the access to imaging equipment. A billion people have difficulty getting access to an x-ray, and that says nothing about access to MRIs or CAT scans. Over the past few years, [Jean Rintoul] has been working on a low-cost way to image the inside of a human body using nothing more than a few electrodes. It can be done cheaply and easily, and itâs one of the most innovative ways of bringing medical imaging to the masses. Now, this is a crowdfunding project, aiming to provide safe, accessible medical imaging to everyone.
Itâs called Spectra, and uses electrical impedance tomography to image the inside of a chest cavity, the dielectric spectrum of a bone, or the interior of a strawberry. Spectra does this by wrapping an electrode around a part of the body and sending out small AC currents. These small currents are reconstructed using tomographic techniques, imaging a cross-section of a body.
[Jean] gave a talk about Spectra at last yearâs Hackaday Superconference, and if you want to look at the forefront of affordable medical technology, you neednât look any further. Simply by sending an AC wave of around 10kHz through a body, software can reconstruct the internals. Everything from lung volume to muscle and fat mass to cancers can be detected with this equipment. You still need a tech or MD to interpret the data, but this is a great way to bring medical imaging technology to the people who need it.
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Three years ago, we heard how scientists from Swedenâs KTH Royal Institute of Technology had created transparent wood â it could serve as a cheaper alternative to the silica-based glass currently used in windows and solar cells. Now, the material is additionally able to store heat and later release it.
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We already recover power from the wheels of some cars when slowing. Kinetic energy recovery systems (KERS) have been used in Formula One racing to store energy in a flywheel when braking, and then push it back to the wheels later for a boost in speed. Electric cars often use regenerative braking, which converts the speed of the wheels into electrical power to recharge the battery. These systems are a great way to increase efficiency, but like everything in the Universe, they are not 100 per cent efficient. Sadly, the laws of physics prohibit the existence of true perpetual motion, so itâs the best we can do.
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In a new interview, MIT researcher Rizwan Virk told Digital Trends that, in his estimation, weâre probably living in a simulation.
âI would say itâs somewhere between 50 and 100 percent,â he told the site. âI think itâs more likely that weâre in simulation than not.â
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Electrochemical energy systemsâprocesses by which electrical energy is converted to chemical energyâare at the heart of establishing more efficient generation and storage of intermittent energy from renewable sources in fuel cells and batteries.
The powerhouse substances known as catalysts, which are used to accelerate chemical reactions, are key players in these systems. The size and efficiency of fuel cells, for example, could greatly benefit from using high-performance catalysts.
Producing better catalysts is easier said than done, however. A catalystâs usefulness is partially based on the amount and quality of its active sites, due to the sitesâ specific geometry and electronic properties. Engineering these sites can be an arduous, inefficient process.
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A common species of freshwater green algae is capable of removing certain endocrine disrupting chemicals (EDCs) from wastewater, according to new research from the Desert Research Institute (DRI) in Las Vegas.
EDCs are natural hormones and can also be found in many plastics and pharmaceuticals. They are known to be harmful to wildlife, and to humans in large concentrations, resulting in negative health effects such as lowered fertility and increased incidence of certain cancers. They have been found in trace amounts (parts per trillion to parts per billion) in treated wastewater, and also have been detected in water samples collected from Lake Mead.
In a new study published in the journal Environmental Pollution, DRI researchers Xuelian Bai, Ph.D., and Kumud Acharya, Ph.D., explore the potential for use of a species of freshwater green algae called Nannochloris to remove EDCs from treated wastewater.
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Circa 2017
The Matrix, the first episode, was a fun movie. But as a description for reality? Please.
Yet some of our most prominent scientific and tech thinkers seriously propose we are living in a computer program. From the BBC story:
