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9 tips and tricks to improve your google search efficiency
comparegadgets.net
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Undulatus Asperatus sitings are strikingly visual reminders that the atmosphere is an ocean of gas, complete with cloud waves crashing high above. They occur when enough atmospheric instability, or rising air, is available to create widespread cloud cover, as well as wind shear and turbulence, which creates the wavy, rough sea-like visual effect.
Undulatus Asperatus is a cloud formation, proposed in 2009 as a separate cloud classification by the founder of the Cloud Appreciation Society. If successful it will be the first cloud formation added since cirrus intortus in 1951 to the International Cloud Atlas of the World Meteorological Organization. The name translates approximately as "roughened or agitated waves".....
Undulatus Asperatus is a cloud formation, proposed in 2009 as a separate cloud classification by the founder of the Cloud Appreciation Society. If successful it will be the first cloud formation added since cirrus intortus in 1951 to the International Cloud Atlas of the World Meteorological Organization. The name translates approximately as "roughened or agitated waves".....
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When the lava meets the sea, it cools quickly while boiling the ocean into steam. This results in a distinctive texture: the quenching produces a glassy outer surface from the lava cooling too quickly for crystal structure to grow. This insulates the inside of the globs, trapping any dissolved gas as bubbles and allowing internal microcrystal growth from the slightly slower cooling rate......
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Astronomers Catch Red Dwarf Star in a Superflare Outburst
New observations by two Arizona State University astronomers using the Hubble Space Telescope have caught a red dwarf star in a violent outburst, or superflare. The blast of radiation was more powerful than any such outburst ever detected from the Sun, and would likely affect the habiltability of any planets orbitiing it.
Moreover, the astronomers say, such superflares appear more common in younger red dwarfs, which erupt 100 to 1000 times more powerfully than they will when they age.
Arizona State University
Read more here: https://asunow.asu.edu/20181018-discoveries-asu-astronomers-catch-red-dwarf-star-superflare-outburst
http://hubblesite.org/news_release/news/2018-46
http://imgsrc.hubblesite.org/hvi/uploads/science_paper/file_attachment/359/1810.03277.pdf
Clips, images credit: NASA, ESA, and D. Player (STScI)
Music credit: YouTube Audio Library
New observations by two Arizona State University astronomers using the Hubble Space Telescope have caught a red dwarf star in a violent outburst, or superflare. The blast of radiation was more powerful than any such outburst ever detected from the Sun, and would likely affect the habiltability of any planets orbitiing it.
Moreover, the astronomers say, such superflares appear more common in younger red dwarfs, which erupt 100 to 1000 times more powerfully than they will when they age.
Arizona State University
Read more here: https://asunow.asu.edu/20181018-discoveries-asu-astronomers-catch-red-dwarf-star-superflare-outburst
http://hubblesite.org/news_release/news/2018-46
http://imgsrc.hubblesite.org/hvi/uploads/science_paper/file_attachment/359/1810.03277.pdf
Clips, images credit: NASA, ESA, and D. Player (STScI)
Music credit: YouTube Audio Library
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Can We Use #Telescopes To See If The #Moon Landings Were Real? : http://sciabc.us/UR89U #science #space
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A NASA satellite has begun showing spectacular new images of the sun, which could give scientists new insight into solar processes. These spectacular pics show the surface of the sun in incredible detail..........
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If we ever decide to colonize our nearest celestial companion, these quakes could prove to be quite a problem, so understanding them is crucial.
https://todaysintech.com/how-long-moonquakes-last-and-why-it-happens/
https://todaysintech.com/how-long-moonquakes-last-and-why-it-happens/
How Long Moonquakes Last and Why It Happens?
todaysintech.com
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Winter is coming...
What NOAA's Winter Outlook Means for Chicago
nbcchicago.com
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In this episode of #EarthfromSpace, the Copernicus Sentinel-2 satellite takes us over Lake Disappointment, Australia, from the ESA Web TV studios.
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Yankees fans only can watch as their greatest rival dominates again https://nyp.st/2CSisqa
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Dogs may have 'a neural representation for the meaning of words they have been taught,' finds a new study, which placed dogs inside a brain scanner. #NeurologyNeuroscience
How do dogs process words? Brain study investigates
medicalnewstoday.com
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"In his 2001 memoir (written with Ron Power), Colonel Robert K. Morgan told the story of how his life intersected with the plane Memphis Belle over decades. But what I found most interesting in Morgan’s account was not the story of the 25 missions he and the Belle flew together—although that was deeply interesting—but the elements in the story that were outside his relationship with the plane and its crew."
The Words of War | The National WWII Museum | New Orleans
nationalww2museum.org
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Red Sox heading to World Series after dispatching defending champs https://nyp.st/2yLh3NR
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What We Say Matters: https://www.psychologytoday.com/us/blog/social-empathy/201810/what-we-say-matters (Hypnotherapy can help)
What We Say Matters
psychologytoday.com
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The Mate 20 Pros face unlock can't be tricked by a flat image. Two people with similar facial hair have caused it some trouble, however. #News #Huawei #HuaweiMate20Pro
Huawei Mate 20 Pro face unlock fooled by similar looking people
androidauthority.com
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An ax murderer is attacking you. You find yourself in bed with a coworker. You’re walking down a road and suddenly your feet leave the ground and you’re flying.
Our dreams are the Wild West of our minds where rules and order don’t exist.
Or do they?
The scientists who study dreaming say it isn’t really as strange a phenomenon as it might otherwise seem, and even the really weird dreams probably don’t come out of the blue.
A BETTER WAY
The brain thinks, makes memories, and solves problems. It observes new information. It processes that information by determining what’s important, what’s not, and what’s connected to something you already know. And then the brain either stores that information or dumps what’s not useful, explains Robert Stickgold PhD, Associate Professor of Psychiatry at Harvard Medical School’s Center for Sleep and Cognition, who studies the role of cognition in sleep.
And you can’t do all of that at the same time, he tells NBC News. You can’t both think about something and listen to people at the same time.
Our brains need offline time for processing and learning new things, and they do this during sleep. And there’s a whole lot of evidence to support the idea that sleep makes learning and memory storing possible.
And it might be that dreaming plays a role in that process, Stickgold says where the brain is trying to solve problems and complete processes that were going on during waking that it, in its waking hours, didn’t complete.
Even the really weird dreams may just be part of the brain’s process of elimination-approach to problem solving, experts say.
THE DREAMING BRAIN CAN BUILD STORIES BETTER THAN A BRAIN THAT’S AWAKE
There are certain questions that come up for which we plot a potential course of action or think through a future scenario to solve, Stickgold explains.
That’s what our brains can’t do in the background when we’re awake. But that type of narrative construction (building a story) still requires us to be consciously aware, Stickgold says, which is one feature of dreams. We know they’re happening.
It might be that you need to bring that sleep-dependent memory processing into consciousness to be able to solve those kinds of problems that require the development of a plan or a narrative or a plot Stickgold says, that you need to dream to do that kind of thinking .
Several studies show (what nearly everyone has probably experienced on their own) that our waking experiences show up in our dreams. Other research shows that we are more likely to remember something if we dream about it.
(Erin Wamsley PhD, an assistant professor in the Psychology Department at Furman University in Greenville, South Carolina, explains all of those studies in further depth in a review article in a 2014 issue of Current Neurology and Neuroscience Reports.)
And more research suggests that dreaming does actually help us problem solve.
A set of experiments conducted by Wamsley’s and Stickgold’s group, when Wamsley was at Harvard, showed that when a group of 99 individuals were given the task of navigating a complex maze, those whose performance on the task improved the most when re-tested after a five-hour period were those individuals given the opportunity to take a nap, and more specifically those who reported dreaming about the maze during that nap, compared to when they were simply awake during that time, even if they reported thinking about the maze during that period of being awake.
And perhaps more interesting still, research that looks at the mechanical changes in the brain during sleep and during dreaming align with this thinking, too.
DURING DREAMING, THE VISUAL AND EMOTIONAL PROCESSING AREAS OF THE BRAIN ARE ACTIVE
Researchers have measured brain activity during sleep and during dreaming. And it does match the psychology in some interesting ways says Benjamin Baird PhD, a researcher at the Center for Sleep and Consciousness at University of Wisconsin-Madison, whose work focuses on understanding the neural mechanisms of consciousness.
Studies going back to the 1990s suggest the amygdala, a part of our brain that plays a role in emotional processing, appear to be very active during dreaming. And more recent work from Baird’s group suggests that areas of the brain known to be involved in visual processing, the regions that appear to allow us to register colors, motion, and faces, are active during dreaming.
On the flip side, other parts of the brain, the frontal and prefrontal cortices, which are involved with our ability to plan, think through things and apply logic and order, are less active during dreaming compared with other parts of sleep and wakefulness (that research also goes back to the late 1990s). That doesn’t mean they’re totally off, but it means activity is suppressed to a very large extent Baird says.
All of that seems to fit our understanding of dreaming, Baird says, that we are visually and emotionally processing things, but certain executive processing functions, like being able to plan out the future or weigh the past against a present scenario, don’t really happen during dreaming.
The big caveat, however, is that nearly all of those studies have come to those conclusions using rapid eye movement (REM) sleep to measure dream sleep, Baird says which is a big, and actually a wrongful, assumption.
BETTER SLEEP
We dream in the non-REM stages of sleep as well as in the REM stages of sleep, and we spend some of our time in REM sleep not dreaming.
But, Baird adds, REM sleep can be useful for approximating what’s happening during dreaming because it’s during REM sleep that we tend to have the most vivid, story-like dreams. And data suggests that we spend the vast majority of our time in REM sleep, as much as 95 percent of it, according to research from Baird and his colleagues published in 2017 in the journal Nature Neuroscience, dreaming.
So looking at the brain during REM sleep can still give us some clues about what’s happening Baird says.
And it’s not actually that difficult to understand that when this type of brain activity happens, we dream, he adds.
What the brain is doing at all times is trying to construct a model of the world around us from the best input it has Baird says. When we’re awake the input comes from our environment, what we see, taste, smell, hear, and feel. But when we’re asleep, it may be trying to do the same thing, but the input comes from within.
During sleep, and particularly during REM sleep when the brain is becoming activated again, the brain tries to do what it always does: it tries to construct a reasonable model of the world he says.
SO, WHY DO WE DREAM THE TRULY WACKY DREAMS?
But some dreams are very far from reasonable. Some dreams are really weird.
Even the really weird dreams may just be part of the brain’s process of elimination-approach to problem solving, according to Stickgold.
A lot of memory processing happens during sleep, he says. The brain is filing away new memories, deciding which ones to store and which ones not to. If we presume the brain is indeed problem solving during dreaming, it’s going to look through all of those files (sometimes the ones you just put there and sometimes the really old, dusty ones from a while back) and try to find something useful.
Your brain is looking for associated memories that are relevant to recent events Stickgold explains.
And remember the emotional centers of the brain are more active during REM, and the parts responsible for logical thinking are less active. So it would make sense that the memories the brain uses during dreaming may be the more emotionally charged ones, and ones that may not fit the logical narrative.
This is when your brain is trying the out-of-the-box solutions, Stickgold says. It’s not necessarily looking for something reliable that works every time...
Our dreams are the Wild West of our minds where rules and order don’t exist.
Or do they?
The scientists who study dreaming say it isn’t really as strange a phenomenon as it might otherwise seem, and even the really weird dreams probably don’t come out of the blue.
A BETTER WAY
The brain thinks, makes memories, and solves problems. It observes new information. It processes that information by determining what’s important, what’s not, and what’s connected to something you already know. And then the brain either stores that information or dumps what’s not useful, explains Robert Stickgold PhD, Associate Professor of Psychiatry at Harvard Medical School’s Center for Sleep and Cognition, who studies the role of cognition in sleep.
And you can’t do all of that at the same time, he tells NBC News. You can’t both think about something and listen to people at the same time.
Our brains need offline time for processing and learning new things, and they do this during sleep. And there’s a whole lot of evidence to support the idea that sleep makes learning and memory storing possible.
And it might be that dreaming plays a role in that process, Stickgold says where the brain is trying to solve problems and complete processes that were going on during waking that it, in its waking hours, didn’t complete.
Even the really weird dreams may just be part of the brain’s process of elimination-approach to problem solving, experts say.
THE DREAMING BRAIN CAN BUILD STORIES BETTER THAN A BRAIN THAT’S AWAKE
There are certain questions that come up for which we plot a potential course of action or think through a future scenario to solve, Stickgold explains.
That’s what our brains can’t do in the background when we’re awake. But that type of narrative construction (building a story) still requires us to be consciously aware, Stickgold says, which is one feature of dreams. We know they’re happening.
It might be that you need to bring that sleep-dependent memory processing into consciousness to be able to solve those kinds of problems that require the development of a plan or a narrative or a plot Stickgold says, that you need to dream to do that kind of thinking .
Several studies show (what nearly everyone has probably experienced on their own) that our waking experiences show up in our dreams. Other research shows that we are more likely to remember something if we dream about it.
(Erin Wamsley PhD, an assistant professor in the Psychology Department at Furman University in Greenville, South Carolina, explains all of those studies in further depth in a review article in a 2014 issue of Current Neurology and Neuroscience Reports.)
And more research suggests that dreaming does actually help us problem solve.
A set of experiments conducted by Wamsley’s and Stickgold’s group, when Wamsley was at Harvard, showed that when a group of 99 individuals were given the task of navigating a complex maze, those whose performance on the task improved the most when re-tested after a five-hour period were those individuals given the opportunity to take a nap, and more specifically those who reported dreaming about the maze during that nap, compared to when they were simply awake during that time, even if they reported thinking about the maze during that period of being awake.
And perhaps more interesting still, research that looks at the mechanical changes in the brain during sleep and during dreaming align with this thinking, too.
DURING DREAMING, THE VISUAL AND EMOTIONAL PROCESSING AREAS OF THE BRAIN ARE ACTIVE
Researchers have measured brain activity during sleep and during dreaming. And it does match the psychology in some interesting ways says Benjamin Baird PhD, a researcher at the Center for Sleep and Consciousness at University of Wisconsin-Madison, whose work focuses on understanding the neural mechanisms of consciousness.
Studies going back to the 1990s suggest the amygdala, a part of our brain that plays a role in emotional processing, appear to be very active during dreaming. And more recent work from Baird’s group suggests that areas of the brain known to be involved in visual processing, the regions that appear to allow us to register colors, motion, and faces, are active during dreaming.
On the flip side, other parts of the brain, the frontal and prefrontal cortices, which are involved with our ability to plan, think through things and apply logic and order, are less active during dreaming compared with other parts of sleep and wakefulness (that research also goes back to the late 1990s). That doesn’t mean they’re totally off, but it means activity is suppressed to a very large extent Baird says.
All of that seems to fit our understanding of dreaming, Baird says, that we are visually and emotionally processing things, but certain executive processing functions, like being able to plan out the future or weigh the past against a present scenario, don’t really happen during dreaming.
The big caveat, however, is that nearly all of those studies have come to those conclusions using rapid eye movement (REM) sleep to measure dream sleep, Baird says which is a big, and actually a wrongful, assumption.
BETTER SLEEP
We dream in the non-REM stages of sleep as well as in the REM stages of sleep, and we spend some of our time in REM sleep not dreaming.
But, Baird adds, REM sleep can be useful for approximating what’s happening during dreaming because it’s during REM sleep that we tend to have the most vivid, story-like dreams. And data suggests that we spend the vast majority of our time in REM sleep, as much as 95 percent of it, according to research from Baird and his colleagues published in 2017 in the journal Nature Neuroscience, dreaming.
So looking at the brain during REM sleep can still give us some clues about what’s happening Baird says.
And it’s not actually that difficult to understand that when this type of brain activity happens, we dream, he adds.
What the brain is doing at all times is trying to construct a model of the world around us from the best input it has Baird says. When we’re awake the input comes from our environment, what we see, taste, smell, hear, and feel. But when we’re asleep, it may be trying to do the same thing, but the input comes from within.
During sleep, and particularly during REM sleep when the brain is becoming activated again, the brain tries to do what it always does: it tries to construct a reasonable model of the world he says.
SO, WHY DO WE DREAM THE TRULY WACKY DREAMS?
But some dreams are very far from reasonable. Some dreams are really weird.
Even the really weird dreams may just be part of the brain’s process of elimination-approach to problem solving, according to Stickgold.
A lot of memory processing happens during sleep, he says. The brain is filing away new memories, deciding which ones to store and which ones not to. If we presume the brain is indeed problem solving during dreaming, it’s going to look through all of those files (sometimes the ones you just put there and sometimes the really old, dusty ones from a while back) and try to find something useful.
Your brain is looking for associated memories that are relevant to recent events Stickgold explains.
And remember the emotional centers of the brain are more active during REM, and the parts responsible for logical thinking are less active. So it would make sense that the memories the brain uses during dreaming may be the more emotionally charged ones, and ones that may not fit the logical narrative.
This is when your brain is trying the out-of-the-box solutions, Stickgold says. It’s not necessarily looking for something reliable that works every time...
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Chandra and ALMA measure speed of sloshing gas in galaxy cluster - Almost all galaxy clusters experience mergers. While a merger takes place, a specific spiral pattern can often be observed in X-ray images. Such a spiral feature is due to the motion of the sloshing gas induced by a merger. Observing a phenomenon similar to sloshing gas in the daily life is easy: When you swirl a wine glass containing liquid, you will see how the water rotates along with the glass. Discovering how fast the s...
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15 Greatest Discoveries from NASA's Spitzer Space Telescope
NASA’s Spitzer Space Telescope has spent 15 years in space. In honor of this anniversary, 15 of Spitzer’s greatest discoveries are featured in a gallery.
https://rxscience.org/15-greatest-discoveries-from-nasas-spitzer-space-telescope/
NASA’s Spitzer Space Telescope has spent 15 years in space. In honor of this anniversary, 15 of Spitzer’s greatest discoveries are featured in a gallery.
https://rxscience.org/15-greatest-discoveries-from-nasas-spitzer-space-telescope/
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The new NASA Selfies app lets you generate snapshots of yourself in a virtual spacesuit, posing in front of gorgeous cosmic locations, like the Orion Nebula or the center of the Milky Way galaxy.
https://rxscience.org/stunning-new-nasa-app-let-you-take-space-selfies-and-this/
https://rxscience.org/stunning-new-nasa-app-let-you-take-space-selfies-and-this/
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