waspluto
an extraordinarily ordinary human being who exists, that's it. idk much about myself either so
47 posts
Latest Posts by waspluto
A Tour of Cosmic Temperatures
We often think of space as ācold,ā but its temperature can vary enormously depending on where you visit. If the difference between summer and winter on Earth feels extreme, imagine the range of temperatures between the coldest and hottest places in the universe ā itās trillions of degrees! So letās take a tour of cosmic temperatures ā¦ from the coldest spots to the hottest temperatures yet achieved.
First, a little vocabulary: Astronomers use the Kelvin temperature scale, which is represented by the symbol K. Going up by 1 K is the same as going up 1Ā°C, but the scale begins at 0 K, or -273Ā°C, which is also called absolute zero. This is the temperature where the atoms in stuff stop moving. Weāll measure our temperatures in this tour in kelvins, but also convert them to make them more familiar!
Weāll start on the chilly end of the scale with our CAL (Cold Atom Lab) on the International Space Station, which can chill atoms to within one ten billionth of a degree above 0 K, just a fraction above absolute zero.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Just slightly warmer is the Resolve sensor inside XRISM, pronounced ācrism,ā short for the X-ray Imaging and Spectroscopy Mission. This is an international collaboration led by JAXA (Japan Aerospace Exploration Agency) with NASA and ESA (European Space Agency). Resolve operates at one twentieth of a degree above 0 K. Why? To measure the heat from individual X-rays striking its 36 pixels!
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Resolve and CAL are both colder than the Boomerang Nebula, the coldest known region in the cosmos at just 1 K! This cloud of dust and gas left over from a Sun-like star is about 5,000 light-years from Earth. Scientists are studying why itās colder than the natural background temperature of deep space.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Letās talk about some temperatures closer to home. Icy gas giant Neptune is the coldest major planet. It has an average temperature of 72 K at the height in its atmosphere where the pressure is equivalent to sea level on Earth. Explore how that compares to other objects in our solar system!
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
How about Earth? According to NOAA, Death Valley set the worldās surface air temperature record on July 10, 1913. This record of 330 K has yet to be broken ā but recent heat waves have come close. (If youāre curious about the coldest temperature measured on Earth, thatād be 183.95 K (-128.6Ā°F or -89.2Ā°C) at Vostok Station, Antarctica, on July 21, 1983.)
We monitor Earth's global average temperature to understand how our planet is changing due to human activities. Last year, 2023, was the warmest year on our record, which stretches back to 1880.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
The inside of our planet is even hotter. Earthās inner core is a solid sphere made of iron and nickel thatās about 759 miles (1,221 kilometers) in radius. It reaches temperatures up to 5,600 K.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
We might assume stars would be much hotter than our planet, but the surface of Rigel is only about twice the temperature of Earthās core at 11,000 K. Rigel is a young, blue star in the constellation Orion, and one of the brightest stars in our night sky.
Credit: NASA's Goddard Space Flight Center/Scott WiessingerĀ
We study temperatures on large and small scales. The electrons in hydrogen, the most abundant element in the universe, can be stripped away from their atoms in a process called ionization at a temperature around 158,000 K. When these electrons join back up with ionized atoms, light is produced. Ionization is what makes some clouds of gas and dust, like the Orion Nebula, glow.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
We already talked about the temperature on a starās surface, but the material surrounding a star gets much, much hotter! Our Sunās surface is about 5,800 K (10,000Ā°F or 5,500Ā°C), but the outermost layer of the solar atmosphere, called the corona, can reach millions of kelvins.
Our Parker Solar Probe became the first spacecraft to fly through the corona in 2021, helping us answer questions like why it is so much hotter than the Sun's surface. This is one of the mysteries of the Sun that solar scientists have been trying to figure out for years.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Looking for a hotter spot? Located about 240 million light-years away, the Perseus galaxy cluster contains thousands of galaxies. Itās surrounded by a vast cloud of gas heated up to tens of millions of kelvins that glows in X-ray light. Our telescopes found a giant wave rolling through this clusterās hot gas, likely due to a smaller cluster grazing it billions of years ago.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Now things are really starting to heat up! When massive stars ā ones with eight times the mass of our Sun or more ā run out of fuel, they put on a show. On their way to becoming black holes or neutron stars, these stars will shed their outer layers in a supernova explosion. These layers can reach temperatures of 300 million K!
Credit: NASA's Goddard Space Flight Center/Jeremy Schnittman
We couldnāt explore cosmic temperatures without talking about black holes. When stuff gets too close to a black hole, it can become part of a hot, orbiting debris disk with a conical corona swirling above it. As the material churns, it heats up and emits light, making it glow. This hot environment, which can reach temperatures of a billion kelvins, helps us find and study black holes even though they donāt emit light themselves.
JAXAās XRISM telescope, which we mentioned at the start of our tour, uses its supercool Resolve detector to explore the scorching conditions around these intriguing, extreme objects.
Credit: NASA's Goddard Space Flight Center/CI Lab
Our universeās origins are even hotter. Just one second after the big bang, our tiny, baby universe consisted of an extremely hot ā around 10 billion K ā āsoupā of light and particles. It had to cool for a few minutes before the first elements could form. The oldest light we can see, the cosmic microwave background, is from about 380,000 years after the big bang, and shows us the heat left over from these earlier moments.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Weāve ventured far in distance and time ā¦ but the final spot on our temperature adventure is back on Earth! Scientists use the Large Hadron Collider at CERN to smash teensy particles together at superspeeds to simulate the conditions of the early universe. In 2012, they generated a plasma that was over 5 trillion K, setting a world record for the highest human-made temperature.
Want this tour as a poster? You can download it here in a vertical or horizontal version!
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Explore the wonderful and weird cosmos with NASA Universe on X, Facebook, and Instagram. And make sure to follow us on Tumblr for your regular dose of space!
They aināt lie š¤·š¾āāļøš¤·š¾āāļø
girls be into literature and poetry then fall in love with a guy with 0 communication skills.
time heals a whole lot and today is better than two years ago
Normalize seeing someone's lack of effort as their lack of interest in you regardless of what they tell you. Giving you all of the right words, but none of the right actions is called manipulation. If a person wants to be with you, they prove it. Period.
Sorry my posts haven't been as frequent or funny as usual. It's because I'm eating well, sleeping regularly, and exercising
Best language learning tips & masterlists from other bloggers Iāve come across
(these posts are not my own!)
THE HOLY GRAIL of language learningĀ (-> seriously tho, this is the BEST thing Iāve ever come across)
Tips:
Some language learning exercises and tips
20 Favorite Language Learning Tips
what should you be reading to maximize your language learning?
tips for learning a language (things i wish i knew before i started)
language learning and langblr tips
Tips on how to read in your target language for longer periods of time
Tips and inspiration from Fluent in 3 months by Benny Lewis
Tips for learning a sign language
Tips for relearning your second first language
How to:
how to self teach a new language
learning a language: how to
learning languages and how to make it fun
how to study languages
how to practice speaking in a foreign language
how to learn a language when you donāt know where to start
how to make a schedule for language learning
How to keep track of learning more than one language at the same time
Masterposts:
Language Study Master Post
Swedish Resources Masterpost
French Resouces Masterpost
Italian Resources Masterpost
Resource List for Learning German
Challenges:
Language-Sanctuary Langblr Challenge
language learning checkerboard challenge
Word lists:
2+ months of language learning prompts
list of words you need to know in your target language, in 3 levels
Other stuff:
bullet journal dedicated to language learning
over 400 language related youtube channels in 50+ languages
TED talks about language (learning)
Learning the Alien Languages of Star Trek
.
Feel free to reblog and add your own lists / masterlists!
Best language learning tips & masterlists from other bloggers Iāve come across
(these posts are not my own!)
THE HOLY GRAIL of language learningĀ (-> seriously tho, this is the BEST thing Iāve ever come across)
Tips:
Some language learning exercises and tips
20 Favorite Language Learning Tips
what should you be reading to maximize your language learning?
tips for learning a language (things i wish i knew before i started)
language learning and langblr tips
Tips on how to read in your target language for longer periods of time
Tips and inspiration from Fluent in 3 months by Benny Lewis
Tips for learning a sign language
Tips for relearning your second first language
How to:
how to self teach a new language
learning a language: how to
learning languages and how to make it fun
how to study languages
how to practice speaking in a foreign language
how to learn a language when you donāt know where to start
how to make a schedule for language learning
How to keep track of learning more than one language at the same time
Masterposts:
Language Study Master Post
Swedish Resources Masterpost
French Resouces Masterpost
Italian Resources Masterpost
Resource List for Learning German
Challenges:
Language-Sanctuary Langblr Challenge
language learning checkerboard challenge
Word lists:
2+ months of language learning prompts
list of words you need to know in your target language, in 3 levels
Other stuff:
bullet journal dedicated to language learning
over 400 language related youtube channels in 50+ languages
TED talks about language (learning)
Learning the Alien Languages of Star Trek
.
Feel free to reblog and add your own lists / masterlists!
Skip Google for Research
As Google has worked to overtake the internet, its search algorithm has not just gotten worse.Ā It has been designed to prioritize advertisers and popular pages often times excluding pages and content that better matches your search termsĀ
As a writer in need of information for my stories, I find this unacceptable.Ā As a proponent of availability of information so the populace can actually educate itself, it is unforgivable.
Below is a concise list of useful research sites compiled by Edward Clark over on Facebook. I was familiar with some, but not all of these.
ā
Google is so powerful that it āhidesā other search systems from us. We just donāt know the existence of most of them. Meanwhile, there are still a huge number of excellent searchers in the world who specialize in books, science, other smart information. Keep a list of sites you never heard of.
www.refseek.com - Academic Resource Search. More than a billion sources: encyclopedia, monographies, magazines.
www.worldcat.org - a search for the contents of 20 thousand worldwide libraries. Find out where lies the nearest rare book you need.
https://link.springer.com - access to more than 10 million scientific documents: books, articles, research protocols.
www.bioline.org.br is a library of scientific bioscience journals published in developing countries.
http://repec.org - volunteers from 102 countries have collected almost 4 million publications on economics and related science.
www.science.gov is an American state search engine on 2200+ scientific sites. More than 200 million articles are indexed.
www.pdfdrive.com is the largest website for free download of books in PDF format. Claiming over 225 million names.
www.base-search.net is one of the most powerful researches on academic studies texts. More than 100 million scientific documents, 70% of them are free
physics professors are really going through it- every day, I think about my quantum physics professor who once went on a rant about how there's too many types of mustard these days followed by the words "well, at least quantum physics is less complicated than the mustard aisle" followed by one of the most cursed derivations I have ever seen
i find it so unfair that i cant do all the science. like what do you MEAN I can't study bio and chem and biochem and atrophysics and physics and geology and climate science. what do you MEAN i have a limited lifespan and need to get out of school at some point to get a job. i want to collect the science fields like pokemon, this isn't fair
Boss is asleep, cannot stop me from frogposting
If you're a young woman with emotions you gotta save em up so you can yell at your eldest daughter. If you're a young man with emotions you gotta go on a quest or some shit.
Iām both pro herbal medicine and pro vaccination because you can treat burns with aloe vera juice and sore throats with lavender infused honey but you canāt rid a country of polio with plants.Ā
Anytime i see a bunch of pride flags i have to restrain myself from saying "where mexico" bc i doubt anyone will know I'm referencing this
God i want a necklace. a given necklace. or a bracelet. again- given bracelet. pls God i know you hear me. i would treasure it really!!!!!!! whatever necklace or bracelet that is. doesn't even have to be gold or silver or any metal. even a necklace just worth Rp 2k is ok but i want it to be given by someone who loves me or at least whom i loved.
I cannot BELIEVE you guys actually signing up to netflix just because account sharing was banned. You need to learn about cool websites with many beautiful women who would love you message you and send you downloadable files.
āavailable with premium subscriptionāĀ āwill be removed on the 31stāĀ āavailable free with adsāĀ ārent 4.99 buy 20.00ā³Ā ānot available in your countryāĀ ānot available on this deviceā what if every streaming service fucking killed itself and films ran around their fields free and organic in their natural state
WHY IS THE SPACE BLACK??
Blog#306
Saturday, June 17th, 2023
Welcome back,
Look up at the night sky with your own eyes, or marvel at images of the universe online, and you'll see the same thing: the inky, abysmal blackness of space, punctuated by bright stars, planets or spacecraft. But why is it black? Why isn't space colorful, like the blue daytime sky on Earth?
Surprisingly, the answer has little to do with a lack of light.
"You would think that since there are billions of stars in our galaxy, billions of galaxies in the universe and other objects, such as planets, that reflect light, that when we look up at the sky at night, it would be extremely bright," Tenley Hutchinson-Smith, a graduate student of astronomy and astrophysics at the University of California, Santa Cruz (UCSC), told Live Science in an email. "But instead, it's actually really dark."
Hutchinson-Smith said this contradiction, known in physics and astronomy circles as Olbers' paradox, can be explained by the theory of space-time expansion ā the idea that "because our universe is expanding faster than the speed of light ā¦ the light from distant galaxies might be stretching and turning into infrared waves, microwaves and radio waves, which are not detectable by our human eyes."
And because they are undetectable, they appear dark (black) to the naked eye.
That said, a 2021 study in The Astrophysical Journal suggests that space may not be as black as scientists originally thought. Through NASA's New Horizons mission to Pluto and the Kuiper Belt, researchers have been able to see space without light interference from Earth or the sun.
The team sifted through images taken by the spacecraft and subtracted all light from known stars, the Milky Way and possible galaxies, as well as any light that might have leaked in from camera quirks. The background light of the universe, they found, was still twice as bright as predicted.
The reasons for the additional brightness, which remain unknown, will be the focus of future studies. Until then, one thing seems likely: Space could very well be more "charcoal" than pitch-black.
Originally published on big livescience.com
COMING UP!!
(Wednesday, June 21st, 2023)
"WHY IS DARK MATTER SO IMPORTANT??"
party rock is in the house tonight
Saturn
NASAās James Webb Space Telescope took its first near-infrared look at Saturn on June 25. The planet appears dark at this wavelength, as methane gas in its atmosphere absorbs sunlight ā but its icy rings stay bright!
Of course Saturn brought its ring light šŖ
space nerds and enthusiasts, itās the moment youāve been waiting for
(or at least- the moment IāVE been waiting for since jwst imaged jupiter)
the James Webb Space Telescopeās NIRCam has imaged Saturn for the first time, and itās SO COOL!!
above are the two processed images, the lower having the visible moons and rings labeled, but thereās also some unprocessed images from jwst feed, which i think still look super cool, and just show what a world of a difference processing makes.
i think these images are SO cool, and i canāt wait to print them out to hang on my walls :)
physics is so cool because after such a long time the little kid in you finally gets the answers to their questions and nothing makes me happier than that
Earth may have formed much more rapidly than previously believed after born as tiny millimeter-sized pebbles that accumulated over a period of just a few million years. The new theory also implies that rather than water being delivered toĀ EarthĀ by icyĀ comets, this vital ingredient for life is present on our planet due to our young planet thirstily sucking up water from its space environment. The theory could have important implications for the search for life outside theĀ solar system, indicating that watery and habitable planets around other stars may be more common than currently theorized. The new theory put forward by the team suggests that around 4.5 billion years ago when the sun was an infant star surrounded by a disk of gas and dust, known as a proto-planetary disk, tiny particles of dust would be quickly sucked up by forming planets once they reached a certain size. In the case of the infant Earth, this "vacuuming up" of disk material ensured our planet was supplied with water.Ā
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Fully losing it at this facebook screenshot. 22 inches of green and 1.5 of carrot.