3go:

jetgreguar:

adimals:

spaceplasma:

NASA Probe Gets Close Views of Large Saturn Hurricane

NASA’s Cassini spacecraft has provided scientists the first close-up, visible-light views of a behemoth hurricane swirling around Saturn’s north pole.

In high-resolution pictures and video, scientists see the hurricane’s eye is about 1,250 miles (2,000 kilometers) wide, 20 times larger than the average hurricane eye on Earth. Thin, bright clouds at the outer edge of the hurricane are traveling 330 mph(150 meters per second). The hurricane swirls inside a large, mysterious, six-sided weather pattern known as the hexagon.

“We did a double take when we saw this vortex because it looks so much like a hurricane on Earth,” said Andrew Ingersoll, a Cassini imaging team member at the California Institute of Technology in Pasadena. “But there it is at Saturn, on a much larger scale, and it is somehow getting by on the small amounts of water vapor in Saturn’s hydrogen atmosphere.”

Scientists will be studying the hurricane to gain insight into hurricanes on Earth, which feed off warm ocean water. Although there is no body of water close to these clouds high in Saturn’s atmosphere, learning how these Saturnian storms use water vapor could tell scientists more about how terrestrial hurricanes are generated and sustained.

Both a terrestrial hurricane and Saturn’s north polar vortex have a central eye with no clouds or very low clouds. Other similar features include high clouds forming an eye wall, other high clouds spiraling around the eye, and a counter-clockwise spin in the northern hemisphere.

A major difference between the hurricanes is that the one on Saturn is much bigger than its counterparts on Earth and spins surprisingly fast. At Saturn, the wind in the eye wall blows more than four times faster than hurricane-force winds on Earth. Unlike terrestrial hurricanes, which tend to move, the Saturnian hurricane is locked onto the planet’s north pole. On Earth, hurricanes tend to drift northward because of the forces acting on the fast swirls of wind as the planet rotates. The one on Saturn does not drift and is already as far north as it can be.

“The polar hurricane has nowhere else to go, and that’s likely why it’s stuck at the pole,” said Kunio Sayanagi, a Cassini imaging team associate at Hampton University in Hampton, Va.

Scientists believe the massive storm has been churning for years. When Cassini arrived in the Saturn system in 2004, Saturn’s north pole was dark because the planet was in the middle of its north polar winter. During that time, the Cassini spacecraft’s composite infrared spectrometer and visual and infrared mapping spectrometer detected a great vortex, but a visible-light view had to wait for the passing of the equinox in August 2009. Only then did sunlight begin flooding Saturn’s northern hemisphere. The view required a change in the angle of Cassini’s orbits around Saturn so the spacecraft could see the poles.

“Such a stunning and mesmerizing view of the hurricane-like storm at the north pole is only possible because Cassini is on a sportier course, with orbits tilted to loop the spacecraft above and below Saturn’s equatorial plane,” said Scott Edgington, Cassini deputy project scientist at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. “You cannot see the polar regions very well from an equatorial orbit. Observing the planet from different vantage points reveals more about the cloud layers that cover the entirety of the planet.”

Cassini changes its orbital inclination for such an observing campaign only once every few years. Because the spacecraft uses flybys of Saturn’s moon Titan to change the angle of its orbit, the inclined trajectories require attentive oversight from navigators. The path requires careful planning years in advance and sticking very precisely to the planned itinerary to ensure enough propellant is available for the spacecraft to reach future planned orbits and encounters.

Image credit: NASA/JPL-Caltech/SSI

SPACE IS FUCKING COOL

this is so incredible 

THIRD IMPACT

You do not even understand my undying, overwhelming passion for the Cassini mission, and how hard I am chewing my nails for Juno (basically Cassini: Jupiter) to get where it’s going.

(via skullvis)

colchrishadfield:

I don’t know what the people are doing here, but I sure like how it looks from space.

It looks like the Widmanstatten pattern that you see in cross-sections of nickel-iron meteorites!

colchrishadfield:

Morning jet traffic over San Francisco.

I thought this was another shot of frozen Lake Baikal or speculative art of the surface of Europa at first.  Wow.

colchrishadfield:

The Richat Structure. A giant gazing eye upon the Earth.

This formation always reminds me of a Venusian “pancake dome”, though I’m not sure it was formed via the same process.

nevver:

Mars is cold as Hell

If you go online and find the full-sized high-res version of this shot, you can actually see Opportunity’s tracks around the edge of the left side of the crater.

(via icarus-suraki)

colchrishadfield:

Spacesuit, like a one-person spaceship. Ready to go outside, just needs gloves and a volunteer.

You…are…my…lucky…star…

infinity-imagined:

City lights photographed from the International Space Station and Neurons imaged with fluorescence microscopy.

Source images; Cities (1) (2) (3) (4) (5), Neurons (1) (2) (3) (4) (5)

I cannot properly express my love of this photoset.

(via icarus-suraki)

icarus-suraki:

mydetheturk:

lizzy-lue:

did-you-kno:

Source

Yes please. Warp.

Warp 3

Hopefully without all that tedious mucking about in hyperspace…

LibEraTE tUteMe eX inFErNis…

themirr:

colchrishadfield:

For comparison, here’s Las Vegas late at night. Even my NightPod camera found the lights too bright.

Clearly Vegas has become ground zero of a massive rip in the fabric of the universe.

eeeeeeeeeeeeeeEEEEEEEEEEEEeeeeeeeEEeeeeeeeeeeeeeeEEEEEEEEeeeeeeee…

colchrishadfield:

If you blow on the weightless sphere of water it distorts, and creates a floating Fun House mirror. 

SCIENCE!!

strandedonthemainland:

An anomalous solid object seen of the Sun’s “western” side, 12/30/2012, caught by NASA’s Solar Dynamics Observatory’ aia 304 Wavelength.

(via: Mr. Skywatcher)

BURN WITH ME…

(Source: rhamphotheca, via icarus-suraki)

In which NASA wins at Gangnam Style parodies now and forever.  Everyone else go home.

you-need-satan:

A moon’s shadow on Saturn’s rings, photographed by Cassini.

Have some animated Cassini Porn, folks.  

(Source: alihikaua, via spicer-cthulhusummoning-lovejoy)

staceythinx:

Darkened Cities by Thierry Cohen imagines the starry skies we’d see in urban areas if we turned off all the lights.

About the project:

Before these pictures can exist, the sky from one place has to be superimposed upon cityscape from another. It is impossible to see this detail in the night sky above a city. Atmospheric and light pollution combine to make looking into the urban sky like looking past bright headlights while driving.

By travelling to places free from light pollution but situated on precisely the same latitude as his cities, Cohen obtains skies which, as the world rotates about its axis, are the very ones visible above the cities a few hours earlier or later. To find the right level of atmospheric clarity, Cohen has to go into the wild places of the earth, the Atacama, the Mojave, the western Sahara.

As more and more of the world’s population becomes urban, and as we lose our connection with the natural world, so it becomes plain that damage is caused by light pollution. There may be connections to certain cancers, and there are psychological burdens of permanent day. The ‘city that never sleeps’ is made up of millions of individuals breaking natural cycles of work and repose. Lose sight of the sky, and you become a rat in a lab.

Cohen hasn’t simply shown us the skies that we’re missing. His cities look dead under the fireworks display above No lights in the windows, no tracers of traffic. They are (in fact) photographed in daylight, when lights shine out less brightly. In urban mythology the city teems with energy and illumines everything around it. Cohen’s pictures are crafted to say the opposite. These are cold cities, cut off from the seemingly infinite energies above.

There’s a spooky post-apocalyptic feel to this photoset that I really love.

(via pushthequorumbutton)

we-are-star-stuff:

What lies outside the universe?

Physicists have long studied the nature of the universe. But some go a step further into the unknown (and probably unknowable), contemplating what lies outside the boundaries of our universe.

Is it possible that something else exists beyond existence? Yes. Here are five theories about what that “something” might be.

The “outside the universe” question gets tricky right off the bat, because first you have to define the universe. One common answer is called the observable universe, and it’s defined by the speed of light. Since we can only see things when the light they emit or reflect reaches us, we can never see farther than the farthest distance light can travel in the time the universe has existed. That means the observable universe keeps getting bigger, but it is finite – the amount is sometimes referred to as the Hubble Volume, after the telescope that has given us our most distant views of the universe. We’ll never be able to see beyond that boundary, so for all intents and purposes, it’s the only universe we’ll ever interact with.

Beyond the Hubble Volume. We know with some certainty that there’s “more universe” out there beyond that boundary, though. Astronomers think space might be infinite, with “stuff” (energy, galaxies, etc.) distributed pretty much the same as it is in the observable universe. If it is, that has some seriously weird implications for what lies out there. Beyond the Hubble Volume you won’t just find more, different planets. You will eventually find every possible thing. In fact, cosmologists think that if you go far enough, you will find another Hubble Volume that is perfectly identical to ours. There’s another version of you out there mirroring your every action 10 to the 10^188 meters away. That may seem unlikely, but then, infinity is awfully infinite.

Dark Flow. In 2008, astronomers discovered something very strange and unexpected – galactic clusters were all streaming in the same direction at immense speed, over two million miles per hour. New observations in 2010 confirmed this phenomenon, known as Dark Flow. The movement defies all predictions about the distribution of mass throughout the universe after the Big Bang. One possible cause: massive structures outside the Hubble Volume exerting gravitational influence. This would mean that the structure of the infinite universe beyond our view is not uniform. As for the structures themselves, they could be literally anything, from aggregations of matter and energy on scales we can barely imagine to bizarre warps funneling gravitational forces from other universes.

Infinite Bubbles. Talking about things outside the Hubble Volume might be a bit of a cheat, since it’s still really the same universe, just a part of it we can’t see. It would have all the same physical laws and constants. In another version of the story, the post-Big Bang expansion of the universe caused “bubbles” to form in the structure of space. Each bubble is an area that stopped stretching along with the rest of space and formed its own universe, with its own laws. In this scenario, space is infinite, and each bubble is also infinite (because you can store an infinite number of infinities inside a single infinity). Even if you could somehow breach the boundary of our bubble, the space in between the bubbles is still expanding, so you’d never get to the next bubble no matter how fast you went.

Black Hole Spawning. A theory proposed by physicist Lee Smolin, known as the fecund universes theory, suggests that every black hole in our universe causes the formation of a new universe. Each universe will have slightly different physical laws than the forerunner universe. In this way, Smolin suggests a sort of natural selection for universes, as laws that lead to the frequent formation of black holes lead to the creation of more universes, while non-black hole forming universes “die out.” This theory has since been discounted (by Smolin himself and others).

Many Parallel Universes. There are tons of theories about parallel universes, but the most accepted one these days involves an evolution of the ideas of string theory to involve membranes that vibrate in other dimensions. It’s beyond the scope of this article to get too detailed about string or membrane theory, but the upshot of the whole thing is that these rippling membranes in the 11th dimension are whole other universes, and when the ripples slam into each other they form a new universe. The effects of the rippling motion help explain the observed distribution of matter in our universe. One of the weirdest elements of the theory is the idea that all the gravity we experience in our universe is actually leaking into it from another universe in another dimension (which explains why gravity here seems so weak compared to the other fundamental forces).

Sources:[x] [x] [x]

Thanks, science, just…push ALL my buttons, why don’t you.

(via icarus-suraki)