Tag: darkness (page 3 of 10)

As Dawn spacecraft closes in on Ceres, things start to look ‘rough’

January 28, 2015 / / 0 Comments


Ceres: Dawn spies dwarf planet
This image, taken 147,000 miles from Ceres by NASA's Dawn spacecraft, is part of a series of views representing the best look so far at the dwarf planet. The spacecraft is set to enter orbit March 6. (NASA)

Eat your heart out, Hubble! NASA’s Dawn spacecraft is in the home stretch of its journey to Ceres and has snapped the best images yet of the dwarf planet. Grainy as they are, the new views of the 590-mile-wide world are already turning up unexpected features on the surface.
“What we expect at Ceres is to be surprised, so it’s getting off to a good start,” said deputy principal investigator Carol Raymond.
The images, taken 147,000 miles from Ceres on Jan. 25, are 30% higher-resolution than the images taken by NASA’s Hubble Space Telescope in 2003 and 2004. They measure 43 pixels wide, a significant improvement over Dawn’s images from earlier this month, which were 27 pixels across.
The images show significant brightness and darkness variations over the surface – particularly a bright spot gleaming in the northern hemisphere and darker spots in the southern hemisphere. While the scientists were aware of those major spots, they weren’t expecting to see quite so much texture on the surface, said Raymond, a geophysicist at the Jet Propulsion Laboratory.

Ceres is fairly warm by ice-world standards; temperatures generally range from 180 to 240 Kelvin (or minus-136 degrees Fahrenheit to minus-28 degrees Fahrenheit), Raymond said. Theoretically, the ice on Ceres’ surface should start to flow as it warms up, smoothing out any bumps such as those from impact craters. But the brightness variations across the surface make it appear very rough, she said.
“This is just starting to illuminate the fact that Ceres is one of these unique bodies that has astrobiological potential ... and it’s just continued to become more intriguing as we’ve been marching inexorably closer,” she added.

Ceres was not the first stop in Dawn’s 3-billion-mile journey. The first was the protoplanet Vesta, which is vastly different from its fellow mega-asteroid, Ceres. Where Vesta is dry and lumpy, Ceres is icy and round, massive enough to have been pulled into a planet-like shape. Scientists want to find out why these two space-fossils from the early solar system ended up with such different geophysical life stories.
At least with Vesta, there were meteorites linked to the asteroid that planetary scientists can study, Raymond pointed out. For Ceres, there are no such space rocks found on Earth – so the researchers have somewhat less of an idea of what to expect.

“I am excited,” Raymond said. “Just having had the wild ride at Vesta, I’m also just in awe of what’s going to happen. It’s going to be amazing.”

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Rosetta spacecraft raises new questions about comet’s origin

January 23, 2015 / / 0 Comments

Excerpt from news.asiaone.com CAPE CANAVERAL, US - Scientists using Europe's comet-orbiting Rosetta spacecraft have discovered that the complicated ancient body is coated with surprisingly simple organic molecules and surrounded by a changing clou...

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Top 6 tips for using ordinary binoculars for stargazing

January 1, 2015 / / 0 Comments




Excerpt from earthsky.org


Admit it.  You’ve probably got a pair of binoculars lying around your house somewhere. They may be perfect – that’s right, perfect – for beginning stargazing. Follow the links below to learn more about the best deal around for people who want to get acquainted with the night sky: a pair of ordinary binoculars.
1. Binoculars are a better place to start than telescopes
2. Start with a small, easy-to-use size
3. First, view the moon with binoculars.
4. Move on to viewing planets with binoculars.
5. Use your binoculars to explore inside our Milky Way.
6. Use your binoculars to peer beyond the Milky Way.

1. Binoculars are a better place to start than telescopes. The fact is that most people who think they want to buy a telescope would be better off using binoculars for a year or so instead.  That’s because first-time telescope users often find themselves completely confused – and ultimately put off – by the dual tasks of learning the use a complicated piece of equipment (the ‘scope) while at the same time learning to navigate an unknown realm (the night sky).
Beginning stargazers often find that an ordinary pair of binoculars – available from any discount store – can give them the experience they’re looking for.  After all, in astronomy, magnification and light-gathering power let you see more of what’s up there.  Even a moderate form of power, like those provided by a pair of 7×50 binoculars, reveals 7 times as much information as the unaided eye can see.

You also need to know where to look. Many people start with a planisphere as they begin their journey making friends with the stars. You can purchase a planisphere at the EarthSky store. Also consider our Astronomy Kit, which has a booklet on what you can see with your binoculars.

2. Start with a small, easy-to-use size.  Don’t buy a huge pair of binoculars to start with! Unless you mount them on a tripod, they’ll shake and make your view of the heavens shakey, too. The video above – from ExpertVillage – does a good job summing up what you want. And in case you don’t want to watch the video, the answer is that 7X50 binoculars are optimum for budding astronomers.  You can see a lot, and you can hold them steadily enough that jitters don’t spoil your view of the sky.  Plus they’re very useful for daylight pursuits, like birdwatching. If 7X50s are too big for you – or if you want binoculars for a child – try 7X35s.

February 24, 2014 moon with earthshine by Greg Diesel Landscape Photography.
February 24, 2014 moon with earthshine by Greg Diesel Landscape Photography.

3. First, view the moon with binoculars. When you start to stargaze, you’ll want to watch the phase of the moon carefully. If you want to see deep-sky objects inside our Milky Way galaxy – or outside the galaxy – you’ll want to avoid the moon. But the moon itself is a perfect target for beginning astronomers, armed with binoculars. Hint: the best time to observe the moon is in twilight. Then the glare of the moon is not so great, and you’ll see more detail.

You’ll want to start your moon-gazing when the moon is just past new – and visible as a waxing crescent in the western sky after sunset. At such times, you’ll have a beautiful view of earthshine on the moon.  This eerie glow on the moon’s darkened portion is really light reflected from Earth onto the moon’s surface.  Be sure to turn your binoculars on the moon at these times to enhance the view. 
Each month, as the moon goes through its regular phases, you can see the line of sunrise and sunset on the moon progress across the moon’s face. That’s just the line between light and dark on the moon. This line between the day and night sides of the moon is called the terminator line.  The best place to look at the moon from Earth – using your binoculars – is along the terminator line. The sun angle is very low in this twilight zone, just as the sun is low in our sky around earthly twilight.  So, along the terminator on the moon, lunar features cast long shadows in sharp relief.

You can also look in on the gray blotches on the moon called maria, named when early astronomers thought these lunar features were seas.  The maria are not seas, of course, and instead they’re now thought to have formed 3.5 billion years ago when asteroid-sized rocks hit the moon so hard that lava percolated up through cracks in the lunar crust and flooded the impact basins. These lava plains cooled and eventually formed the gray seas we see today.

The white highlands, nestled between the maria, are older terrain pockmarked by thousands of craters that formed over the eons. Some of the larger craters are visible in binoculars. One of them, Tycho, at the six o’clock position on the moon, emanates long swatches of white rays for hundreds of miles over the adjacent highlands. This is material kicked out during the Tycho impact 2.5 million years ago.

View Larger. Photo of Jupiter's moons by Carl Galloway. Thank you Carl! The four major moons of Jupiter - Io, Europa, Ganymede and Callisto - are easily seen through a low-powered telescope. Click here for a chart of Jupiter's moons
Photo of Jupiter’s moons by Earthsky Facebook friend Carl Galloway. Thank you Carl! The four major moons of Jupiter are called Io, Europa, Ganymede and Callisto. This is a telescopic view, but you can glimpse one, two or more moons through your binoculars, too.


4. Move on to viewing planets with binoculars. Here’s the deal about planets.  They move around, apart from the fixed stars.  They are wanderers, right?

You can use our EarthSky Tonight page to locate planets visible around now.  Notice if any planets are mentioned in the calendar on the Tonight page, and if so click on that day’s link.  On our Tonight page, we feature planets on days when they’re easily identifiable for some reason – for example, when a planet is near the moon.  So our Tonight page calendar can help you come to know the planets, and, as you’re learning to identify them, keep your binoculars very handy. Binoculars will enhance your view of a planet near the moon, for example, or two planets near each other in the twilight sky. They add a lot to the fun!

Below, you’ll find some more simple ideas on how to view planets with your binoculars.

Mercury and Venus. These are both inner planets.  They orbit the sun closer than Earth’s orbit.  And for that reason, both Mercury and Venus show phases as seen from Earth at certain times in their orbit – a few days before or after the planet passes between the sun and Earth.  At such times,  turn your binoculars on Mercury or Venus. Good optical quality helps here, but you should be able to see them in a crescent phase. Tip: Venus is so bright that its glare will overwhelm the view. Try looking in twilight instead of true darkness.

Mars. Mars – the Red Planet – really does look red, and using binoculars will intensify the color of this object (or of any colored star). Mars also moves rapidly in front of the stars, and it’s fun to aim your binoculars in its direction when it’s passing near another bright star or planet.

Jupiter. Now on to the real action!  Jupiter is a great binocular target, even for beginners.   If you are sure to hold your binoculars steadily as you peer at this bright planet,  you should see four bright points of light near it.  These are the Galilean Satellites – four moons gleaned through one of the first telescopes ever made, by the Italian astronomer Galileo. Note how their relative positions change from night to night as each moon moves around Jupiter in its own orbit.

Saturn.Although a small telescope is needed to see Saturn’s rings, you can use your binoculars to see Saturn’s beautiful golden color.  Experienced observers sometimes glimpse Saturn’s largest moon Titan with binoculars.  Also, good-quality high-powered binoculars – mounted on a tripod – will show you that Saturn is not round.  The rings give it an elliptical shape.

Uranus and Neptune. Some planets are squarely binocular and telescope targets. If you’re armed with a finder chart, two of them, Uranus and Neptune, are easy to spot in binoculars. Uranus might even look greenish, thanks to methane in the planet’s atmosphere. Once a year, Uranus is barely bright enough to glimpse with the unaided eye . . . use binoculars to find it first. Distant Neptune will always look like a star, even though it has an atmosphere practically identical to Uranus.

There are still other denizens of the solar system you can capture through binocs. Look for the occasional comet, which appears as a fuzzy blob of light. Then there are the asteroids – fully 12 of them can be followed with binoculars when they are at their brightest. Because an asteroid looks star-like, the secret to confirming its presence is to sketch a star field through which it’s passing. Do this over subsequent nights; the star that changes position relative to the others is our solar system interloper.

Milky Way Galaxy arching over a Joshua tree

Pleiades star cluster, also known as the Seven Sisters
Pleiades star cluster, also known as the Seven Sisters





5. Use your binoculars to explore inside our Milky Way.  Binoculars can introduce you to many members of our home galaxy. A good place to start is with star clusters that are close to Earth. They cover a larger area of the sky than other, more distant clusters usually glimpsed through a telescope.

Beginning each autumn and into the spring, look for a tiny dipper-like cluster of stars called the Pleiades.  The cluster – sometimes also called the Seven Sisters – is noticeable for being small yet distinctively dipper-like. While most people say they see only six stars here with the unaided eye, binoculars reveal many more stars, plus a dainty chain of stars extending off to one side. The Pleiades star cluster is looks big and distinctive because it’s relatively close – about 400 light years from Earth. This dipper-shaped cluster is a true cluster of stars in space.  Its members were born around the same time and are still bound by gravity.  These stars are very young, on the order of 20 million years old, in contrast to the roughly five billion years for our sun.

Stars in a cluster all formed from the same gas cloud. You can also see what the Pleiades might have like in a primordial state, by shifting your gaze to the prominent constellation Orion the Hunter. Look for Orion’s sword stars, just below his prominent belt stars. If the night is crisp and clear, and you’re away from urban streetlight glare, unaided eyes will show that the sword isn’t entirely composed of stars. Binoculars show a steady patch of glowing gas where, right at this moment, a star cluster is being born. It’s called the Orion Nebula. A summertime counterpart is the Lagoon Nebula, in Sagittarius the Archer.

With star factories like the Orion Nebula, we aren’t really seeing the young stars themselves. They are buried deep within the nebula, bathing the gas cloud with ultraviolet radiation and making it glow. In a few tens of thousands of years, stellar winds from these young, energetic stars will blow away their gaseous cocoons to reveal a newly minted star cluster.

Scan along the Milky Way to see still more sights that hint at our home galaxy’s complexity. First, there’s the Milky Way glow itself; just a casual glance through binoculars will reveal that it is still more stars we can’t resolve with our eyes . . . hundreds of thousands of them. Periodically, while scanning, you might sweep past what appears to be blob-like, black voids in the stellar sheen. These are dark, non-glowing pockets of gas and dust that we see silhouetted against the stellar backdrop. This is the stuff of future star and solar systems, just waiting around to coalesce into new suns.

Andromeda Galaxy from Chris Levitan Photography.
Andromeda Galaxy from Chris Levitan Photography.

Many people use the M- or W-shaped constellation Cassiopeia to find the Andromeda Galaxy. See how the star Schedar points to the galaxy? Click here to expand image.
Many people use the M- or W-shaped constellation Cassiopeia to find the Andromeda Galaxy. See how the star Schedar points to the galaxy?


6. Use your binoculars to view beyond the Milky Way.  Let’s leap out of our galaxy for the final stop in our binocular tour. Throughout fall and winter, she reigns high in the sky during northern hemisphere autumns and winters: Andromeda the Maiden. Centered in the star pattern is an oval patch of light, readily visible to the unaided eye away from urban lights. Binoculars will show it even better.

It’s a whole other galaxy like our own, shining across the vastness of intergalactic space. Light from the Andromeda Galaxy has traveled so far that it’s taken more than 2 million years to reach us.
Two smaller companions visible through binoculars on a dark, transparent night are the Andromeda Galaxy’s version of our Milky Way’s Magellanic Clouds. These small, orbiting, irregularly-shaped galaxies that will eventually be torn apart by their parent galaxy’s gravity.

Such sights, from lunar wastelands to the glow of a nearby island universe, are all within reach of a pair of handheld optics, really small telescopes in their own right: your binoculars.

John Shibley wrote the original draft of this article, years ago, and we’ve been expanding it and updating it ever since. Thanks, John!
Bottom line: For beginning stargazers, there’s no better tool than an ordinary pair of binoculars. This post tells you why, explains what size to get, and gives you a rundown on some of the coolest binoculars sights out there: the moon, the planets, inside the Milky Way, and beyond. Have fun!

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Must-See Geminid Meteor Shower Peaks This Weekend: An Observer’s Guide

December 16, 2014 / / 0 Comments



2014 Geminid Meteor Shower Sky Map


Excerpt from
space.com

 The spectacular Geminid Meteor shower hits peak activity this weekend. Though competing with some unfortunate moonlight, the shower still should make for a must-see astronomical event.

While moonlight will somewhat hinder this year's Geminid meteor shower, intrepid observers with good weather and low light pollution should still be able to catch a good meteor show Saturday (Dec. 13) night.

"If you have not seen a mighty Geminid fireball arcing gracefully across an expanse of sky, then you have not seen a meteor," note astronomers David Levy and Stephen Edberg. 


Even if you can't see the meteor display from your part of the world, you can watch them online. The online Slooh Community Observatory will host a live webacst of the Geminid meteor display on Saturday night beginning at 8 p.m. EST (0100 Dec. 14 GMT).You can also watch the Slooh webcast directly:http://live.slooh.com/. NASA meteor expert Bill Cooke will also host a live Geminids webchat on Saturday night from 11 p.m. to 3 a.m. EST (0400 to 0800 GMT), as well as a live webcast.
You can watch the webcasts of the Geminid shower live on Space.com, starting at 8 p.m. EST, courtesy of Slooh and NASA. The Italy-based Virtual Telescope Project will also host a Geminds webcast, beginning at 9 p.m. EST (0200 GMT).

Although the bright moon will be high in the sky by 11:30 p.m. local time Saturday (Dec. 13) (during the shower's peak), skywatchers can still catch a potentially incredible show before the moon creeps above the horizon, washing out the sky. Stargazers might be able to see an average of one or two Geminid meteors per minute Saturday before the moon rises.

By around 9 p.m., the constellation Gemini — the part of the sky where the meteors seem to emanate from — will have climbed more than one-third of the way up from the horizon. Meteor sightings should begin to really increase noticeably thereafter. By around 2 a.m., the last-quarter moon will be low in the east-southeast, but Gemini will stand high overhead. So you might still see a good number of meteors in spite of the moon's presence.

A brilliant shower

The Geminids are, for those willing to brave the chill of a December night, a very fine winter shower, and usually the most satisfying of all the annual showers. They can even surpass the brilliant August Perseid meteor shower.

Studies of past displays show that the Geminid shower is rich both in slow, bright, graceful meteors and fireballs, as well as in faint meteors, with relatively fewer objects of medium brightness. Many Geminids appear yellowish in hue; some even appear to form jagged or divided paths.     

These meteors travel at a medium speed and appear to emanate, specifically, from near the bright star Castor, in the constellation of Gemini, the Twins, hence the name "Geminid." In apparent size, that's less than half the width of the moon. As such, this is a rather sharply defined radiant as most meteor showers go. It suggests the stream is "young," perhaps only several thousand years old.

Generally speaking, depending on your location, Castor begins to come up above the east-northeast horizon right around the time evening twilight comes to an end. As the Gemini constellation begins to climb the eastern sky just after darkness falls, there is a fair chance of perhaps catching sight of some "Earth-grazing" meteors. Earthgrazers are long, bright shooting stars that streak overhead from a point near to even just below the horizon. Such meteors are so distinctive because they follow long paths nearly parallel to the Earth's atmosphere. 

Because Geminid meteoroids are several times denser than the comet dust that supply most meteor showers and because of the relatively slow speed with which the Geminids encounter Earth (22 miles or 35 kilometers per second), these meteors appear to linger a bit longer in view than most. As compared to an Orionid or Leonid meteor that can whiz across your line of sight in less than a second, a Geminid meteor moves only about half as fast. Personally, their movement reminds me of field mice scooting from one part of the sky to another.

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Future Tech Watch ~ High-tech mirrors to beam heat from buildings into space ~ May replace air conditioning

November 28, 2014 / / 0 Comments



illustration of reflective panel on building

news.stanford.edu 

By Chris Cesare

A new ultrathin multilayered material can cool buildings without air conditioning by radiating warmth from inside the buildings into space while also reflecting sunlight to reduce incoming heat.

Stanford engineers have invented a material designed to help cool buildings. The material reflects incoming sunlight, and it sends heat from inside the structure directly into space as infrared radiation (represented by reddish rays).

Stanford engineers have invented a revolutionary coating material that can help cool buildings, even on sunny days, by radiating heat away from the buildings and sending it directly into space.

A team led by electrical engineering Professor Shanhui Fan and research associate Aaswath Raman reported this energy-saving breakthrough in the journal Nature.

The heart of the invention is an ultrathin, multilayered material that deals with light, both invisible and visible, in a new way.

Invisible light in the form of infrared radiation is one of the ways that all objects and living things throw off heat. When we stand in front of a closed oven without touching it, the heat we feel is infrared light. This invisible, heat-bearing light is what the Stanford invention shunts away from buildings and sends into space.

Of course, sunshine also warms buildings. The new material, in addition dealing with infrared light, is also a stunningly efficient mirror that reflects virtually all of the incoming sunlight that strikes it.

The result is what the Stanford team calls photonic radiative cooling – a one-two punch that offloads infrared heat from within a building while also reflecting the sunlight that would otherwise warm it up. The result is cooler buildings that require less air conditioning.

"This is very novel and an extraordinarily simple idea," said Eli Yablonovitch, a professor of engineering at the University of California, Berkeley, and a pioneer of photonics who directs the Center for Energy Efficient Electronics Science. "As a result of professor Fan's work, we can now [use radiative cooling], not only at night but counter-intuitively in the daytime as well."

The researchers say they designed the material to be cost-effective for large-scale deployment on building rooftops. Though still a young technology, they believe it could one day reduce demand for electricity. As much as 15 percent of the energy used in buildings in the United States is spent powering air conditioning systems.

In practice the researchers think the coating might be sprayed on a more solid material to make it suitable for withstanding the elements.

"This team has shown how to passively cool structures by simply radiating heat into the cold darkness of space," said Nobel Prize-winning physicist Burton Richter, professor emeritus at Stanford and former director of the research facility now called the SLAC National Accelerator Laboratory.

A warming world needs cooling technologies that don't require power, according to Raman, lead author of the Nature paper. 

"Across the developing world, photonic radiative cooling makes off-grid cooling a possibility in rural regions, in addition to meeting skyrocketing demand for air conditioning in urban areas," he said.

Using a window into space

The real breakthrough is how the Stanford material radiates heat away from buildings.

researchers Linxiao Zhu, Shanhui Fan, Aaswath Raman
Doctoral candidate Linxiao Zhu, Professor Shanhui Fan and research associate 
Aaswath Raman are members of the team that invented the breakthrough energy-saving material.
As science students know, heat can be transferred in three ways: conduction, convection and radiation. Conduction transfers heat by touch. That's why you don't touch an oven pan without wearing a mitt. Convection transfers heat by movement of fluids or air. It's the warm rush of air when the oven is opened. Radiation transfers heat in the form of infrared light that emanates outward from objects, sight unseen.
The first part of the coating's one-two punch radiates heat-bearing infrared light directly into space. The ultrathin coating was carefully constructed to send this infrared light away from buildings at the precise frequency that allows it to pass through the atmosphere without warming the air, a key feature given the dangers of global warming.

"Think about it like having a window into space," said Fan.

Aiming the mirror

But transmitting heat into space is not enough on its own.
This multilayered coating also acts as a highly efficient mirror, preventing 97 percent of sunlight from striking the building and heating it up.

"We've created something that's a radiator that also happens to be an excellent mirror," said Raman.

Together, the radiation and reflection make the photonic radiative cooler nearly 9 degrees Fahrenheit cooler than the surrounding air during the day.

From prototype to building panel

Making photonic radiative cooling practical requires solving at least two technical problems.

The first is how to conduct the heat inside the building to this exterior coating. Once it gets there, the coating can direct the heat into space, but engineers must first figure out how to efficiently deliver the building heat to the coating.

The second problem is production. Right now the Stanford team's prototype is the size of a personal pizza. Cooling buildings will require large panels. The researchers say there exist large-area fabrication facilities that can make their panels at the scales needed.

The cosmic fridge

More broadly, the team sees this project as a first step toward using the cold of space as a resource. In the same way that sunlight provides a renewable source of solar energy, the cold universe supplies a nearly unlimited expanse to dump heat.

"Every object that produces heat has to dump that heat into a heat sink," Fan said. "What we've done is to create a way that should allow us to use the coldness of the universe as a heat sink during the day."

In addition to Fan, Raman and Zhu, this paper has two additional co-authors: Marc Abou Anoma, a master's student in mechanical engineering who has graduated; and Eden Rephaeli, a doctoral student in applied physics who has graduated.

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NASA Makes Official Comment Concerning 3 Days of Darkness in December Story ~ Greg Giles

November 10, 2014 / / 0 Comments

A story has been making its way up and down the online grapevine concerning an approaching 3 days of darkness, a phenomena allegedly confirmed by NASA. NASA, through its Earth Observatory Facebook page facebook.com/NASAEarthObservatory, posted the foll...

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Look up! Orionid meteor shower coming the next 2 nights

October 20, 2014 / / 0 Comments


Excerpt from
usatoday.com 

The Orionid meteor shower will be visible Monday and Tuesday nights.

There could be as many as 25 meteors per hour at its height, according to EarthSky. If clouds don't interfere with your view, the lack of a bright moon will help in viewing the meteors.

"There's no year better for the Orionids than this one," said astronomer Bob Berman of the astronomy website Slooh.
The Orionids get their name because they seem to come from the constellation Orion the Hunter, though the meteors usually can be seen over much of the night sky.

The meteors are actually bits of dust and rocks that are debris from Halley's Comet, caused when Earth comes near the comet's orbit, according to Sky and Telescope magazine.

The actual comet can be seen only every 75 years or so — the next sighting is in 2062 — but this meteor shower is viewable every year around this time.


To see the meteors, look to the east and southeast sky between midnight and dawn. Find a place away from lights so your eyes can adapt to the darkness. That can take up to 20 minutes.


Viewing conditions for the Orionid meteor shower.
Viewing conditions for the Orionid meteor shower.(Photo: AccuWeather)

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Who is Jesus to Ascended Consciousness?

September 26, 2014 / / 0 Comments

By: Robert Burney"Jesus was a perfect Spiritual Being, a direct extension/manifestation from the ONENESS that is the God/Goddess Energy, having a human experience - just as we all are perfect Spiritual Beings having a human experience.""This Master Teacher was known as Jesus the Christ. The man Jesus was a perfect child of the Goddess and God energy - just as we all are perfect children of the God-Force!"This messenger added the most powerful ingredient to the process. He brought us our sec [...]

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7 Types of Non-Believers Who Don’t Need Religion

September 25, 2014 / / 0 Comments

Valerie Tarico, AlterNetReligious labels help shore up identity. So what are some of the things non-believers can call themselves?Catholic, born-again, Reformed, Jew, Muslim, Shiite, Sunni, Hindu, Sikh, Buddhist…religions give people labels. The downside can be tribalism, an assumption that insiders are better than outsiders, that they merit more compassion, integrity and generosity or even that violence toward “infidels” is acceptable. But the upside is that religious o [...]

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How Living Your Best Life Will Save the World

September 24, 2014 / / 0 Comments

Randi G. Fine, Contributor“Be the change you wish to see in the world.” GhandiMany of us feel helpless when we hear about the inhumane atrocities that are occurring around the world. We have witnessed unfathomable cruelty – evil.  We live in terror of the possibility that this evil will soon pervade our own homelands.We desperately pray to God to save us. We throw our hands up in despair asking, “Where is God when we need him [...]

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The Light Side of the Dark Night of the Soul

September 24, 2014 / / 0 Comments

by Kim Hutchinson Clayhut Healing CentreThe phenomenon known as the Dark Night of the Soul is something which many spiritual seekers experience on their journey to re-enlightenment. It can be a painful and frightening process, but it can also be liberating and empowering. It all depends on your perspective and your ability to remain detached. Peeling the Onion The word ‘night’ is misleading. This is a process, and thankfully so. I doubt you would want to experience [...]

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What Would You Take With You to the Afterlife? – Life, Death, Out-of-Body Experiences & the Journey of Consciousness

September 23, 2014 / / 0 Comments




beforeitsnews.com
By Matthew Butler 

People save up for retirement, but how well do we prepare for the journey after? Ancient cultures put great emphasis on the afterlife, because they knew consciousness continued after death. They were right: Out-of-body experiences reveal we really do exist beyond the body. Knowing this truth should inspire us to seek in life what really matters and remains after death – awakened consciousness.

What is the greatest mystery of life? According to a legendary Q&A in the Indian spiritual epic the Mahabharata, the greatest wonder is that countless people die every day, yet those left behind believe they will live forever.
There is a well-known saying that the only certainty in life is death, but our hyper-connected modern society is not exactly inspiring much reflection on what lies beyond the transient.
People put aside savings for retirement, and some take out life insurance to take care of the loved ones they leave behind. This looks after physical needs, but what about the needs of consciousness which continues without the body? What preparations are made for its journey after death – the ultimate journey of a lifetime?
Religious institutions offer a solution to their followers that usually depends on adopting a set of beliefs rather than personal spiritual discovery.  On the other hand, some scientists will tell you with equal conviction that nothing comes after death, so don’t worry about it. Both of these points of view depend on belief, but what if, when the final moment comes, you realise you wasted the great opportunity your life provided? An alternative option is to discover for ourselves why we are here, and what  our place in the universe is, while we are alive and have the opportunity to do something with the knowledge we gain.
Ancient spiritual cultures almost universally placed importance on the individual’s preparations and journey into the afterlife. They clearly understood our existence extended beyond our bodies, and that life and death were best seen with the bigger picture of creation in mind – as part of an ongoing journey of consciousness – with life presenting an amazing opportunity for conscious evolution that we take the fruits from after death.
This was bought home to me in an interesting way during a trip to a museum exhibition showcasing ancient Egyptian afterlife cosmology; it reminded me of the universal nature of the afterlife, and how Near-Death Experiences and Out-of-Body Experiences offer us a glimpse into the reality of existence beyond the body, revealing that awakening consciousness is what creation is really all about.
With our modern culture drifting more and more into shallow short-sighted materialism and faux metaphysics, the need to re-discover and live this deeper purpose to life, so cherished by the ancients, is more important than ever.

A Journey into the Ancient Egyptian Afterlife

A while back I was fortunate to have the opportunity to take a one-way self-guided tour through the ancient Egyptian afterlife, thanks to a special museum exhibition featuring artefacts from the British Museum collection.
The local museum was packed, and we had to wait in a queue before being allowed in. Finally we entered a dimly-lit passage thronging with people, winding past ancient Egyptian artefacts, artworks, tools, scriptures, and mummies.

Geb_Nut_Shu-300x202The exhibit started with depictions of ancient Egyptian cosmology like this. Here the sky goddess is held up above the earth.


It was arranged so that you went on an afterlife “journey” vicariously, stage by stage, in the way the ancient Egyptians understood it. It began with displays showing ancient Egyptian depictions of the world’s creation, and culminated with the judgement of the soul and its journey after death. In between you were shown artefacts demonstrating how ancient Egyptians understood and prepared for death.
There were ancient scrolls of the pyramid texts on display, and ancient art depicting the soul’s journey through the afterlife. A major theme in their art was judgement and the “weighing of the heart”, where a deceased person’s heart was weighed against a feather, and their fate was dependent on their inner qualities and the sum of their actions while alive. Toward the end of the exhibition they had a mockup display of this, with a large set of scales on which you could weigh your “heart” against a feather, while Egyptian Gods looked on from a mural.
After that, you passed into a depiction of the Egyptian paradise before stepping outside into the sunlight. I doubt the effect was intentional on the part of the exhibitors, but after passing through the exhibition’s dark passageway with its ordered depictions of the afterlife, judgment and then stepping into the light, I couldn’t help but think of accounts of near-death experiences, in which people often report passing through a dark tunnel toward the light, and experiencing a life review where they see the consequences of all their actions.

BD_Hunefer_cropped_1-300x231Depiction of the “weighing of the heart”

The exhibit really brought home to me how the ancient Egyptians understood they existed for a purpose that went beyond everyday life. Death was a doorway to the next stage of existence, and their lives were an opportunity to prepare for it. They knew we do not cease to exist when we die, and saw the quest for immortality through awakening consciousness as the real purpose to creation.
From looking at artefacts from different periods, it was apparent the ancient Egyptian understanding of death changed over time. It seemed to me that originally, the emphasis was on living spiritually and obtaining an immortality of the soul, while in later periods their understanding declined into more literal interpretations of preparing the body (rather than consciousness) for the afterlife through mummification, and a preoccupation with the arrangement of one’s burial and tomb with the right spells and amulets.
But I was vividly struck by how through that civilisation’s long and varied existence, the importance of the afterlife always reigned supreme, and being prepared for life after death was absolutely central to existence. Death, and therefore life, was taken very seriously.

I couldn’t help but notice a stark contrast between our modern culture and theirs. It was a bit like being in some kind of time warp, where two very different cultures collided. The artefacts of the Egyptians gave a sense of the sacredness of life and creation, but the bustling, noisy crowds of modern onlookers apparently saw this ancient preoccupation with the afterlife as mere novelty and amusement. How different ancient Egypt was to our modern society where the reality, and inevitability, of death is given little thought or preparation, and the understanding that consciousness continues after death is often summarily discounted and ridiculed.
I highly doubt that many people who attended the exhibition paused to reflect on whether they would continue to exist after death and, if so, how? And why are we here anyway? This was driven home when, just prior to reaching the scales of “judgement”, I noticed a whiteboard, styled with papyrus veneer, with a pertinent question written at the top.

What would you take with you to the afterlife?

Good question. A pen hung from the board, inviting people to write their response underneath. The answers ranged from the sentimental, to the mundane, to the silly.

WP_000293-EDIT1-1024x845How would you answer the question?

Some wanted to take their friends and family with them, while others wanted to take things like their iPhone, make-up, favourite band, football team, favourite rock star, chocolate, alcohol, and so forth.
A “time machine” was perhaps the only clever response. I could see the benefit of that if you realised you had wasted your life. I don’t think it’s really an option however.
This brought home how we don’t take death and the meaning of our lives anywhere near as seriously as we should today. The ancients knew a lot more about life and death than we do. We have lost their ancient wisdom, and with it the understanding of the amazing opportunity our existence in this universe presents.
This is a serious problem. Our consciousness will continue to exist without the body. But if we don’t question our existence and why we are here, we will not awaken consciousness and we will never reach our true potential.

Near-Death Experiences and the Reality of Existence Beyond the Body

Existence after death is not something the ancient Egyptians invented. Concepts of an afterlife are so common across geographically isolated cultures around the world that it cannot simply be dismissed as a coincidence. There may be cultural differences in the details, but the understanding that we continue existing without the body has been pretty much universal for thousands of years.
In fact, the burial of the dead and the realisation of an afterlife are considered some of the most important hallmarks of cultural development in Stone Age people. It was a sign of intelligence distinguishing people from animals, and paved the way for the development of more sophisticated civilisations.

Hieronymus_Bosch_013The medieval painting ‘Ascent of the Blessed’ by Hieronymus Bosch shows the light at the end of the tunnel common to NDE accounts

Near-Death Experiences (NDEs) provide compelling anecdotal evidence that the afterlife mythologies of the world share a real common source and that consciousness exists beyond the brain. In NDEs, people who are clinically dead or close to death go through experiences that follow a pattern with universal traits, which they recall after being revived.
These include an out of body experience, where they leave their body and realise they are separate from it, perhaps seeing their body lying beneath them. Then they may go on a journey, which may feature common aspects like travelling through a tunnel, and a life review, where a person is shown everything they have done, and feels the effects of their actions toward others, whether good or bad.
Although some scientists speculate that these phenomena may be caused by the brain, the reality is that these experiences have occurred when patients are clinically brain dead, and it has not been proven these experiences are produced biologically. Furthermore, there is no ultimate proof that consciousness is produced by the brain anyway, although this is a strongly-held assumption among those entrenched in materialistic beliefs.
NDEs challenge rigid materialistic beliefs about life. In light of the prevalence and commonality of NDEs, some scientists now suggest that consciousness interacts with the brain rather than being produced by it. Rather, the brain is a conduit through which consciousness can express itself, much like the way a computer is a conduit for the internet, but the internet continues to exist when the computer is switched off.
NDEs are increasingly reported in the modern world due to improvements in health care leading to more people being revived, but they are also an ancient phenomenon. Research by the scholar Gregory Shushan found there are universal afterlife experiences which underpinned both modern NDE accounts and ancient afterlife mythologies. His research involved an in-depth comparative analysis of afterlife conceptions of five ancient civilisations (Old and Middle Kingdom Egypt, Sumerian and Old Babylonian Mesopotamia, Vedic India, pre-Buddhist China, and pre-Columbian Mesoamerica) and compared them to modern NDE accounts. He demonstrated that, although there were some variations in the details based on the cultural origin, there were specific recurring similarities that reappeared too consistently to be mere coincidence, suggesting that, “afterlife conceptions are not entirely culturally-determined and… appear to be universal or quasi-universal to some degree”.

Life is an Opportunity to Awaken Consciousness

Realising that you are consciousness, and continue to exist without the body, awakens you to the bigger picture of life. It puts your whole life in perspective.
In an NDE life review, people tend to see that what really matters in life is not how much money they made or what they achieved in a given field, but how they treated other people, and whether they acted with love. These experiences tend to change people’s lives, inspiring them to be more spiritual.
afterlife
Discovering you exist beyond the body can be a life-changing revelation

We do not need to have an NDE to verify that we exist without the body, or to have life-changing experiences. Through astral projection, we can have wilful out of body experiences and use these mystical experiences to learn about ourselves and make positive changes in our lives.
Realising that we exist beyond the body can open the door to awakening. You realise that what really matters in life is not what we gain physically, but developing consciousness. Then the question, “what will you take with you to the afterlife” becomes much more meaningful. You can’t take physical things with you when you die like your iPhone, but you can take consciousness. Then you see that the focus on the afterlife in ancient cultures was not a preoccupation with death, but a deep understanding of life, and how to live it in the most meaningful way to bring spiritual benefits to yourself and others, the effects of which continue after death.
States like anger, greed and hatred have their consequences in the world which are bad enough, but who wants to take these states with them to afterlife? If these states don’t bring happiness here, why drag them along after death? Expressions of consciousness like love, wisdom and inner peace are much  better qualities to carry within. By awakening and expressing consciousness in a world filled with ignorance, hatred and darkness, we not only help to make the world a better place, but continue to carry these spiritual qualities in our consciousness when our body is left behind.
Understanding this is so important today. We live in a society bombarded with elite-controlled propaganda and entertainment that not only hides the darker agendas working in the world, but blankets people in ignorance, keeping us from uncovering the deeper potential of our consciousness and empowering ourselves by striving to awaken – which enables us to break free of the grip of darkness that exerts its influence over humanity. Failing to wake up to this agenda has it implications in the world, and also for our consciousness, and it’s consciousness that really counts, both in life and beyond.
So what would you take with you to the afterlife?

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What Would You Take With You to the Afterlife? – Life, Death, Out-of-Body Experiences and the Journey of Consciousness

September 23, 2014 / / 0 Comments

Matthew Butler, GuestPeople save up for retirement, but how well do we prepare for the journey after? Ancient cultures put great emphasis on the afterlife, because they knew consciousness continued after death. They were right: Out-of-body experiences reveal we really do exist beyond the body. Knowing this truth should inspire us to seek in life what really matters and remains after death – awakened consciousness.What is the greatest mystery of life? According to a legendar [...]

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