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Tuesday, March 21, 2017

HOVERBOARD


Whose arrows are sharp and all their bows bent their horses hoofs shall be counted like flint AND THEIR WHEELS LIKE WHIRLWIND "

Isaiah 5:28

BEER IN SPACE


Jesus made wine (alcohol) in water jars.(John 2:6-11)

In the Clouds in Space there is a Water jars of Alcohol

Who has the wisdom to count the clouds? Who can tip over the water jars of the heavens.(Job 38:37)

Ten thousand light years from earth in a constellation far, far away, there is massive cloud of alcohol. It’s space booze.
Discovered in 1995 near the constellation Aquila, the cloud is 1000 times larger than the diameter of our solar system. It contains enough ethyl alcohol to fill 400 trillion trillion pints of beer. To down that much alcohol, every person on earth would have to drink 300,000 pints each day—for one billion years.

Sadly, for those of you planning an interstellar pub crawl, the cloud is 58 quadrillion miles away. It’s also a cocktail of 32 compounds, some of them as nasty as carbon monoxide, hydrogen cyanide, and ammonia.
The galaxy has a second intergalactic liquor cabinet in the Sagittarius B2 Cloud (the bright, orange-red spot in the image above), which holds 10 billion billion billion liters of cosmic hooch. Most of it’s undrinkable, though. The cloud holds mostly methanol, the same alcohol in antifreeze and windshield washer fluid. Similarly, near the center of the Milky Way, a cloudy bridge of methanol surrounds a stellar nursery. The bridge of booze is 288 billion miles wide.
It wasn’t spilled after some Martian keg party.  As new stars heat up—formed as clouds of gas and dust collapse—ethyl alcohol can attach to specks of floating dust. As the dust moves toward the budding star, the alcohol heats, separates, and turns to gas. For astronomers, these alcohol clouds can be a telling clue into how our biggest stars form.

Not to mention, alcohol is an organic compound: the building blocks of life. According to Barry Turner at the National Radio Astronomy Observatory, these alcohol clouds may “help us better understand how life might arise elsewhere in the cosmos.”

Now, if you’re wondering what these space spirits may taste or smell like, Sagittarius B2 has an answer. The cloud contains ethyl formate, an ester that helps give raspberries their taste—and reportedly smells like rum. It seems, then, that the center of our galaxy may taste and smell like raspberry-flavored rum in the jars.

Wine (rum) in Space in the Kingdom of God-
Matthew 26:29

There is a cloud of alcohol (ethyl alcohol – the happy juice found in beer, wine, and spirits) floating in space.  This isn’t a small cloud either.  There is enough alcohol in this cloud to make  fill 400 trillion trillion pints of beer.  That is one hell of a keg party.

Clouds of Our Milky way  

"I will ascend above the tops of the clouds;.." (Isaiah 14:14)

Clouds in Space???

One of the greatest pleasures for summer stargazers is viewing the splendor of the Milky Way.

Despite the fact that we live in this vast island of billions of stars, most inhabitants of Earth have never seen the clouds of our Milky Way. The illuminated dust of the galaxy was a commonplace sight throughout most of human history, but the sight has been lost to the last few generations because of our desire to light up the night with artificial illumination.

the core of the Milky Way galaxy looms just above the southern horizon. The actual core of our galaxy is blocked from our view by countless stars and clouds of gas and dust, but the overall glow shines through.

TRANSMITTING SIGNAL IN SPACE


Psalms 73:9
Their mouths lay claim to heaven,
and their tongues take possession of the earth.

However, humankind has been unintentionally transmitting signals into space - primarily high-frequency radio, television, and radar - for more than fifty years. Our earliest TV broadcasts have reached several thousand nearby stars, although any alien viewers would have to build a very large antenna (thousands of acres in size) to detect them.

Until now, SETI researchers have not been very interested in broadcasting. The reasons for this are several. To begin with, we are a technologically young civilization. We have had radio for a hundred years or so, but there are surely societies that have possessed the ability to send high-powered signals for tens of thousands, if not millions, of years. Consequently, since we are the new kids on the technology block, it may behoove us to listen first. Some have also expressed concern that broadcasting might be dangerous, literally calling attention to our existence. However, the evidence of technologically sophisticated life on Earth is already on its way into space, and there is no bringing back these transmissions.

Of greater import is the fact that sending signals entails a great deal of patience. If the nearest civilization is 100 light-years away, we will have to wait 200 years for a reply. Serious, deliberate broadcasting is a long-term endeavor, and one that (so far) humankind has not been willing to undertake. To date, only a few, mostly symbolic, intentional messages have been sent. The simple picture that was transmitted in 1974 from the Arecibo Observatory described our solar system, the compounds important for life, the structure of the DNA molecule, and the form of a human being. The message was transmitted in the direction of the globular star cluster M13, about 21,000 light years away, so clearly any answer will be a long time in coming. Serious broadcasts require serious commitment.

The occasional short messages that are currently being done as commercial "demo" projects do not substantially contribute to the existing leakage radiation already being pumped into space by television and radar. Only when we are willing to commit the resources to build a powerful, long-lived radio beacon can we be said to be taking serious steps to actively get in touch.