Oxford University say humans and aliens could have much in common than we first thought

Oxford University state human beings and aliens could have much in common than we initially believed

We use cookies to give you the best experience on our website and bring you more relevant marketing. ALIENS might be much closer to humans than we care to think, inning accordance with brand-new research from Oxford University. A team of scientists applying evolutionary theory to support theories about alien life – showing that foreign life types might go through …

See all stories on this subject A Very Uncommon Salamander Species Was Just Found

COUNCIL CHRONICLE– A group of scientists reported that they have identified and uncovered an incredibly unusual types of salamander, one which hasn’t been seen in more than 4 years. The species is called the Bolitoglossa Jacksoni or Jackson’s Climbing Salamander and was very first discovered back in 1975, in Guatemala. Paul Elias, the first …

See all stories on this topic NASA examines usage of medical-like tools to study samples of the planetary system A diagnostic tool, comparable in theory to those used by the medical profession to non-invasively image internal organs, bones, soft tissue, and capillary, might be equally efficient at “triaging” extraterrestrial rocks and other samples prior to they are shipped to Earth for further analysis. In an effort designed to find innovative usages of innovation for future robotic and human objectives to the Moon, Mars, and asteroids, NASA engineer Justin Jones used an industrial X-ray Computed Tomography, or CT, scanner at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, to evaluate volcanic rocks from a freshly formed island in the South Pacific and other specimens ensconced inside thick glass and metal enclosures. “Picture taking something this big and scaling it down to breadbox size, then preparing the equipment to be spaceflight worthwhile,” Jones stated, describing the scanner that occupies a small room inside Goddard’s Non-Destructive Assessment, or NDE, Lab. “Such instruments could be tested on the International Spaceport Station then transitioned to a future deep area entrance where crew members might evaluate new samples from the Moon or asteroids or even Mars before shipping them back to Earth for more analysis.” “We’re delighted with our results,” continued Jones, who performed his technology-demonstration task with support from Goddard’s Fellows Innovation Challenge, a research study and development program designed to advance high-reward innovations and examinations in brand-new, cross-disciplinary ways. “The demonstrations provided a couple of brand-new insights into the 3-D structure of the samples we tested and underscored the value of possibly creating a CT ability specifically for usage in space, particularly for triage functions.” Jones, who helped his management acquire the CT scanner 6 years earlier, doesn’t usually spend his days analyzing rocks. “When something stops working, when a part stops working, engineers desire us to detect exactly what took place, and we will use a suite of tools like those in the medical market to help identify the flaw,” he stated. The appeal of an X-ray CT scanner, which operates like a medical CAT scanner, is that it enables high-resolution, 3-D views inside materials that otherwise would require hard, often-times destructive sample preparation, consisting of cutting and use of chemicals, simply to examine the sample’s composition. With Goddard’s CT system, which is non-destructive, users can see information as little as a couple microns in size, which is numerous times smaller than a human hair. “Our technology-driven examination gave us a broader understanding of exactly what our CT system can do,” Jones said. Hunga Tonga Hunga Ha’apai Volcanic Island Examined With the scanner, Jones and his group from Goddard’s Products Branch, including Ryan Kent and Olivia Landgrover, assessed samples from a newly formed volcanic island, Hunga Tonga-Hunga Ha’apai, in the Kingdom of Tonga in the southwest Pacific Ocean. This brand-new island formed in January of 2015 after the volcano’s explosive eruption – a potential analogue to some volcanic activity on Mars, stated Goddard Chief Researcher James Garvin, who, together with his university partners, are utilizing innovative remote-sensing approaches to explore the island in a pilot research study for NASA’s Earth Sciences Department. “CT strategies are allowing quick evaluation for understanding the prospective life time of the fragile brand-new volcanic landscapes in the area,” Garvin said. “Currently, Justin and his team have recognized the possibility of minerals called zeolites,” minerals commonly used in adsorbents that purify water, among other applications, and drivers that speed up chemical reactions. “These findings have a direct bearing on how similar procedures might have operated on Mars,” Garvin said. Space-Relevant Rocks Studied The technology-demonstration project didn’t end there. Garvin, who is interested in researching and advancing brand-new technological approaches for studying extraterrestrial rocks and minerals, asked the group to examine rocks produced in big impact cratering occasions here in the world, along with meteorites. Even with samples encased in protective glass and metal cases filled with nitrogen, Goddard’s CT scanner revealed formerly undiscovered minerals and 3-D arrangements,” Garvin said. “The future of in-situ and sample-based planetary exploration will focus on new measurement methods that reveal details at brand-new scales and in ways that do not damage the samples or pollute them,” Garvin continued. “Based upon Justin’s work, I believe that someday, astronauts on Mars or the Moon will have the ability to use off-planet CT laboratory strategies to do the reconnaissance of remarkable materials on other worlds simply as we do in the laboratories here on Earth today.” Tweet Advanced artificial limbs mapped in the brain Lausanne, Switzerland (SPX) Oct 30, 2017 Targeted motor and sensory reinnervation (TMSR) is a surgical procedure on patients with amputations that reroutes residual limb nerves towards undamaged muscles and skin in order to fit them with a limb prosthesis enabling unmatched control. By its nature, TMSR changes the way the brain processes motor control and somatosensory input; however the comprehensive brain mechanisms have never been … read more Related Links Goddard Space Flight Center Space Medicine Innovation and Systems Thanks for being here; We require your assistance. The SpaceDaily news network continues to grow however incomes have actually never been more difficult to maintain. With the increase of Advertisement Blockers, and Facebook – our conventional revenue sources by means of quality network marketing continues to decline. And unlike a lot of other news sites, we don’t have a paywall – with those bothersome usernames and passwords. Our news coverage requires time and effort to release 365 days a year. If you discover our news sites informative and useful then please consider becoming a routine supporter or for now make a one off contribution. 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