There are 364 days till Christmas and people already have their Christmas lights up.
Unbelievable.
I WAITED A WHOLE YEAR TO REBLOG THIS
AN ENTIRE YEAR
TWO YEARS
will byers stan first human second
Mike Driver
Cosimo Galluzzi
art blog(derogatory)
ojovivo
Xuebing Du
we're not kids anymore.
Aqua Utopia|海の底で記憶を紡ぐ
h
almost home
I'd rather be in outer space 🛸
Misplaced Lens Cap
Show & Tell
Claire Keane
trying on a metaphor

@theartofmadeline
🪼
Game of Thrones Daily
PUT YOUR BEARD IN MY MOUTH

shark vs the universe
seen from United States

seen from United States
seen from Bangladesh
seen from United States
seen from United States
seen from United States
seen from United States

seen from Türkiye
seen from United States
seen from United States
seen from United States
seen from United States

seen from United States

seen from United States
seen from United States

seen from United States
seen from Bangladesh
seen from United States
seen from Türkiye
seen from United States
@cicadis-blog
There are 364 days till Christmas and people already have their Christmas lights up.
Unbelievable.
I WAITED A WHOLE YEAR TO REBLOG THIS
AN ENTIRE YEAR
TWO YEARS
On hiatus until further notice
I simply don't have the time (or inclination) to continue this blog anymore. It was a fun two (3?) years, and almost 3200 people came along for the ride.
Best wishes to you all, keep learning! :)
Ok stupid question. Does time have velocity?
Sort of, but you can’t really call it a ‘velocity’, since velocity is defined by distance traveled per unit time, and time doesn’t travel in that sense. However, due to special and general relativity, time can flow differently for different observers. This is usually described by the dimensionless ratio dτ/dt, where dt is the change in time for some inertial observer, and dτ is the change in time that some object experiences.
For instance, if we set dτ/dt= ½, that would mean that for every two seconds an observer experiences, the object will only experience one second. This can be accomplished if the object was moving near the speed of light, near some massive object, or some combination of the two. Thanks for asking!
How physicists see other fields:
Biology: squishy physics
Geology: slow physics
Computer Science: virtual physics
Psychology: people physics
Chemistry: impure physics
Math: physics without units
And arguably sunspots, on rare occasions. But even if they count, it takes ideal conditions and you might hurt your eyes.
The Moon and the Great Wall [Explained]
Inside the firing room at Kennedy Space Center on the day Apollo 15 began its journey to the Moon, July 26, 1971.
(NASA)
Solar System: 10 Things to Know This Week
Even the most ambitious plans start with a drawing. Visualizing a distant destination or an ambitious dream is the first step to getting there. For decades, artists working on NASA projects have produced beautiful images that stimulated the imaginations of the people working to make them a reality.
Some of them offered visualizations of spacecraft that had not yet been built; others imagined what it might look like to stand on planets that had not yet been explored. This week, we look at 10 pieces of conceptual art for our missions before they were launched–along with actual photos taken when those missions arrived at their destinations.
1. Apollo at the Moon
In 1968, an artist with our contractor North American Rockwell illustrated a phase of the Apollo lunar missions, showing the Command and Service Modules over the surface of the Moon. In 1971, an astronaut aboard the Lunar Module during Apollo 15 captured a similar scene in person with a camera.
2. Ready for Landing
This artist’s concept depicts an Apollo Lunar Module firing its descent engine above the lunar surface. At right, a photo from Apollo 12 in 1969 showing the Lunar Module Intrepid, taken by Command Module Pilot Richard Gordon.
3. Man and Machine on the Moon
Carlos Lopez, an artist with Hughes Aircraft Company, created a preview of a Surveyor spacecraft landing for our Jet Propulsion Laboratory in the early 1960s. The robotic Surveyor missions soft landed on the Moon, collecting data and images of the surface in order to ensure a safe arrival for Apollo astronauts a few years later. In the image at right, Apollo 12 astronaut Alan Bean examines the Surveyor 3 spacecraft during his second excursion on the Moon in November 1969.
4. O Pioneer!
In missions that lived up to their names, we sent the Pioneer 10 and 11 spacecraft to perform the first up-close exploration of the outer solar system. At left, an artist’s imagining of Pioneer passing Jupiter. At right, Pioneer 11’s real view of the king of planets taken in 1974.
5. The Grand Tour
An even more ambitious pair of robotic deep space adventurers followed the Pioneers. Voyager 1 and 2 both visited Jupiter and Saturn. Voyager 2 went on to Uranus and Neptune. Even the most visionary artists couldn’t imagine the exotic and beautiful vistas that the Voyager spacecraft witnessed. These images were taken between 1979 and 1989.
6. Journey to a Giant
Our Cassini spacecraft carried a passenger to the Saturn system: the European Space Agency’s Huygens probe. Huygens was designed to land on Saturn’s planet-sized moon Titan. At left is an artist’s view of Cassini sending the Huygens probe on its way toward Titan, and at right are some actual images of the giant moon from Cassini’s cameras.
7. Titan Unveiled
On Jan. 14, 2005, the Huygens probe descended through Titan’s thick haze and revealed what Titan’s surface looks like for the first time in history. Before the landing, an artist imagined the landscape (left). During the descent, Huygens’ imagers captured the actual view at four different altitudes (center)—look for the channels formed by rivers of liquid hyrdocarbons. Finally, the probe came to rest on a pebble-strewn plain (right).
8. Hazy Skies over Pluto
David Seal rendered this imaginary view from the surface of Pluto, and in the sky above, an early version of the spacecraft that came to be known as our New Horizons. At the time, Pluto was already suspected of having a thin atmosphere. That turned out be true, as seen in this dramatic backlit view of Pluto’s hazy, mountainous horizon captured by one of New Horizons’ cameras in 2015.
9. Dreams on Mars, Wheels on Mars
Long before it landed in Gale Crater, our Curiosity rover was the subject of several artistic imaginings during the years the mission was in development. Now that Curiosity is actually rolling through the Martian desert, it occasionally stops to take a self-portrait with the camera at the end of its robotic arm, which it uses like a selfie stick.
10. The World, Ceres
No one knew exactly what the dwarf planet Ceres, the largest body in the asteroid belt, looked like until our Dawn mission got there. Dawn saw a heavily cratered world—with a few surprises, such as the famous bright spots in Occator crater.
There’s more to come. Today we have carefully created artist impressions of several unexplored destinations in the solar system, including the asteroids Psyche and Bennu, and an object one billion miles past Pluto that’s now called 2014 MU69.
You can help nickname this object (or objects—there may be two) by submitting your names by Dec. 1. Our New Horizons spacecraft will fly past MU69 on New Year’s Day 2019.
Soon, we’ll once again see how nature compares to our imaginations. It’s almost always stranger and more beautiful than we thought.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.
I submitted the names “Erebos and Nyx” after the primordial Greek deities of darkness and night. So if you see that on the ballot, vote for it!
Comparison of the planets of the solar system, Pluto and Sun in relation to the earth.
Images: commons.wikimedia (Sun: Alan Friedman)
This color-enhanced image of a massive, raging storm in Jupiter’s northern hemisphere was captured by NASA’s Juno spacecraft during its ninth close flyby of the gas giant planet.
Image Credits: NASA/JPL-Caltech/SwRI/MSSS/Gerald Eichstädt/ Seán Doran
The first ever interstellar object was detected in our Solar System!
About a month ago was detected Oumuamua, a highly elongated asteroid coming from outside our Solar System.
This is the first time such an “interstellar traveller” is detected : its orbital eccentricity is the highest ever measured in our Solar System, meaning this asteroid travels through our galaxy, the Milky Way.
It was named “ ’Oumuamua ”, the Hawaiian for “scout” - a messenger from the past.
The asteroid’s alien nature is reflected in its bizarre properties : Oumuamua is about 180 meters long but only 30 metres wide, and travels at a up to 88 km/s - a much higher speed than our Solar System’s asteroids’.
The paper was published yesterday in Nature. Make sure to visit its Wikipedia page or the NASA article about it!
Image credit : ESO/M.Kornmesser
Hi! I was wondering what else, besides the Higgs boson, gives some particles their mass?
While technically the Higgs mechanism is the only thing that gives particles mass, most of the mass we experience actually comes from the binding energy between particles. As you might know from the famous “E=mc2″, mass and energy are two sides of the same coin. This means that a stretched rubber band will weigh ever so slightly more than a relaxed rubber band, due to the extra energy stored within.
This effect is immeasurable on the scale of rubber bands, but dominates the subatomic world. So while the actual mass of particles contributes to some of the mass of an object, more of it comes from the strong nuclear force that binds quarks together. Still, these bonds wouldn’t be able to form if quarks had no mass to start with, so you can ultimately thank the Higgs field even if it’s not the full picture. Thanks for asking!
What aspect of physics made the biggest impact on you? Or what's the most mind-blowing physics fact to you?
I made a post a while back about the most mind-blowing physics facts I know of, and my favorite still has to be the superposition principle. It forces you to completely rethink what it means for an object to even ‘exist’, and it took me a while to accept after I learned about it. The fact that an electron can be in two places at once is deeply unsettling, but true nonetheless. Honestly, it’s something I still have trouble wrapping my head around.
Every time we detect an asteroid from outside the Solar System, we should immediately launch a mission to fling one of our asteroids back in the direction it came from.
Interstellar Asteroid [Explained]
No horse has yet managed the elusive Quadruple Crown—winning the Kentucky Derby, the Preakness, the Belmont Stakes, and the Missouri Horse Hole.
Emoji Sports [Explained]
The biggest inspiration for engineering students: last minute panic. 😂