I barely think about him all the time
we're not kids anymore.

titsay
occasionally subtle
KIROKAZE

pixel skylines

Andulka

⣠Chile in a Photography âŁ

tannertan36

styofa doing anything
"I'm Dorothy Gale from Kansas"
Claire Keane
TVSTRANGERTHINGS
Xuebing Du

Kaledo Art

romaâ
PUT YOUR BEARD IN MY MOUTH

â
seen from Brazil

seen from Canada
seen from Brazil
seen from Nigeria

seen from China
seen from Uruguay
seen from TĂźrkiye
seen from United Kingdom
seen from United States

seen from United States
seen from Netherlands

seen from United States

seen from T1

seen from TĂźrkiye
seen from T1

seen from TĂźrkiye

seen from T1
seen from Russia
seen from United States

seen from Russia
@larsknight
I barely think about him all the time

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
Free to watch ⢠No registration required ⢠HD streaming
âDonât be afraid to start over. Itâs a chance to build something better this time.â
â Unknown

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
Free to watch ⢠No registration required ⢠HD streaming
I barely think about him all the time
Donât you think maybe they are the same thing? Love and attention?
Lady Bird (2017) dir. Greta Gerwig

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
Free to watch ⢠No registration required ⢠HD streaming
mood
But i wish i wasnât so
A brick in one of the plazas in my townâŚ.really makes me wonder who put it there and why.
Kirsten Dunst in The Virgin Suicides, dir. by Sofia Coppola, 1999
Switzerland the perfect country

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
Free to watch ⢠No registration required ⢠HD streaming
âWhen did Chris Hemsworth start acting?â
10 Things to Know About Parker Solar Probe
On Aug. 12, 2018, we launched Parker Solar Probe to the Sun, where it will fly closer than any spacecraft before and uncover new secrets about our star. Hereâs what you need to know.
1. Getting to the Sun takes a lot of power
At about 1,400 pounds, Parker Solar Probe is relatively light for a spacecraft, but it launched to space aboard one of the most powerful rockets in the world, the United Launch Alliance Delta IV Heavy. Thatâs because it takes a lot of energy to go to the Sun â in fact, 55 times more energy than it takes to go to Mars.
Any object launched from Earth starts out traveling at about the same speed and in the same direction as Earth â 67,000 mph sideways. To get close to the Sun, Parker Solar Probe has to shed much of that sideways speed, and a strong launch is good start.
2. First stop: Venus!
Parker Solar Probe is headed for the Sun, but itâs flying by Venus along the way. This isnât to see the sights â Parker will perform a gravity assist at Venus to help draw its orbit closer to the Sun. Unlike most gravity assists, Parker will actually slow down, giving some orbital energy to Venus, so that it can swing closer to the Sun.
Oneâs not enough, though. Parker Solar Probe will perform similar maneuvers six more times throughout its seven-year mission!
3. Closer to the Sun than ever before
At its closest approach toward the end of its seven-year prime mission, Parker Solar Probe will swoop within 3.83 million miles of the solar surface. That may sound pretty far, but think of it this way: If you put Earth and the Sun on opposite ends of an American football field, Parker Solar Probe would get within four yards of the Sunâs end zone. The current record-holder was a spacecraft called Helios 2, which came within 27 million miles, or about the 30 yard line. Mercury orbits at about 36 million miles from the Sun.
This will place Parker well within the Sunâs corona, a dynamic part of its atmosphere that scientists think holds the keys to understanding much of the Sunâs activity.
4. Faster than any human-made object
Parker Solar Probe will also break the record for the fastest spacecraft in history. On its final orbits, closest to the Sun, the spacecraft will reach speeds up to 430,000 mph. Thatâs fast enough to travel from New York to Tokyo in less than a minute!
5. Dr. Eugene Parker, mission namesake
Parker Solar Probe is named for Dr. Eugene Parker, the first person to predict the existence of the solar wind. In 1958, Parker developed a theory showing how the Sunâs hot corona â by then known to be millions of degrees Fahrenheit â is so hot that it overcomes the Sunâs gravity. According to the theory, the material in the corona expands continuously outwards in all directions, forming a solar wind.
This is the first NASA mission to be named for a living person, and Dr. Parker watched the launch with the mission team from Kennedy Space Center in Florida.
6. Unlocking the secrets of the solar wind
Even though Dr. Parker predicted the existence of the solar wind 60 years ago, thereâs a lot about it we still donât understand. We know now that the solar wind comes in two distinct streams, fast and slow. Weâve identified the source of the fast solar wind, but the slow solar wind is a bigger mystery.
Right now, our only measurements of the solar wind happen near Earth, after it has had tens of millions of miles to blur together, cool down and intermix. Parkerâs measurements of the solar wind, just a few million miles from the Sunâs surface, will reveal new details that should help shed light on the processes that send it speeding out into space.
7. Studying near-light speed particles
Another question we hope to answer with Parker Solar Probe is how some particles can accelerate away from the Sun at mind-boggling speeds â more than half the speed of light, or upwards of 90,000 miles per second. These particles move so fast that they can reach Earth in under half an hour, so they can interfere with electronics on board satellites with very little warning.
8. The mystery of the coronaâs high heat
The third big question we hope to answer with this mission is something scientists call the coronal heating problem. Temperatures in the Sunâs corona, where Parker Solar Probe will fly, spike upwards of 2 million degrees Fahrenheit, while the Sunâs surface below simmers at a balmy 10,000 F. How the corona gets so much hotter than the surface remains one of the greatest unanswered questions in astrophysics.
Though scientists have been working on this problem for decades with measurements taken from afar, we hope measurements from within the corona itself will help us solve the coronal heating problem once and for all.
9. Why wonât Parker Solar Probe melt?
The corona reaches millions of degrees Fahrenheit, so how can we send a spacecraft there without it melting?
The key lies in the distinction between heat and temperature. Temperature measures how fast particles are moving, while heat is the total amount of energy that they transfer. The corona is incredibly thin, and there are very few particles there to transfer energy â so while the particles are moving fast (high temperature), they donât actually transfer much energy to the spacecraft (low heat).
Itâs like the difference between putting your hand in a hot oven versus putting it in a pot of boiling water (donât try this at home!). In the air of the oven, your hand doesnât get nearly as hot as it would in the much denser water of the boiling pot.
10. Engineered to thrive in an extreme environment
Make no mistake, the environment in the Sunâs atmosphere is extreme â hot, awash in radiation, and very far from home â but Parker Solar Probe is engineered to survive.
The spacecraft is outfitted with a cutting-edge heat shield made of a carbon composite foam sandwiched between two carbon plates. The heat shield is so good at its job that, even though the front side will receive the full brunt of the Sunâs intense light, reaching 2,500 F, the instruments behind it, in its shadow, will remain at a cozy 85 F.
Even though Parker Solar Probeâs solar panels â which provide the spacecraftâs power â are retractable, even the small bit of surface area that peeks out near the Sun is enough to make them prone to overheating. So, to keep its cool, Parker Solar Probe circulates a single gallon of water through the solar arrays. The water absorbs heat as it passes behind the arrays, then radiates that heat out into space as it flows into the spacecraftâs radiator.
For much of its journey, Parker Solar Probe will be too far from home and too close to the Sun for us to command it in real time â but donât worry, Parker Solar Probe can think on its feet. Along the edges of the heat shieldâs shadow are seven sensors. If any of these sensors detect sunlight, they alert the central computer and the spacecraft can correct its position to keep the sensors â and the rest of the instruments â safely protected behind the heat shield.
Read the web version of this weekâs âSolar System: 10 Things to Knowâ article HERE.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.