So I Actually Did The Calculations And The Surface Area Of Jupiter Could Probably Fit Around 11,474,491,000,000
So I actually did the calculations and the surface area of Jupiter could probably fit around 11,474,491,000,000 football fields.
Okay so I googled it and the radius of Jupiter is 43,441 miles. However, I’m going to convert that into meters, which’ll make that radius a cool 69,911,513 m. Next up I’ll plug that into the surface area of a sphere formula (A= 4πr^2) which will get us approximately 6.14 x 10^16 m^2 (or roughly 61,400,000,000,000,000 m^2).
Next, I found the area of one football field to be around 5,351 m^2. Dividing the surface area of Jupiter by the surface area of one football field, we can find out how many football fields will fit onto the surface of Jupiter. And that is 1.1474491 x 10^13. Calculating that, that will be 11,474,491,000,000 football fields (11 trillion or so). Oh boy.
For comparison’s sake, the universe is estimated to have AT MOST 2 trillion galaxies! Which means that Jupiter likely could fit more football fields than the universe has galaxies. Another example, there are an estimated billion trillion stars in the observable universe. Jupiter’s football fields account for half of the stars in our observable universe.
I actually tried to find out how many football fields were in the U.S. for comparison but I still can’t find a statistic.
But also that’s pretty hilarious xD
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
No WaY
More Posts from Acosmicgeek and Others
Wow, Mars is one of the closest planets to us xD
Just shows you how massive space really is
(Maybe even infinitely so)
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
This is what the Earth looks like from the surface of our red neighbour, Mars!
Happy Earth day everyone 🌎🌍🌏 Hope you’re all staying safe!!
Image Credit: NASA’s Curiosity Mars Rover
I was researching nebulae for my next article and I wanted to share some images for you guys :)
Nebula are some of the most beautiful things in space. We mostly focused on galaxies and the stars within them, but we forget that in-between galaxies exists the interstellar medium. This is where the nebulae live.
Hope you enjoyed!
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
Oo
I haven’t done a lot of research on comets. Maybe one day I’ll do an article on one, in the future. They sound so cool xD
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
Comet Halley vs Comet SWAN via NASA https://ift.tt/2y0UdFr
The pre-dawn hours of May 3rd were moonless as grains of cosmic dust streaked through southern skies above Reunion Island. Swept up as planet Earth plowed through dusty debris streams left behind periodic Comet 1/P Halley, the annual meteor shower is known as the Eta Aquarids. This inspired exposure captures a bright aquarid meteor flashing left to right over a sea of clouds. The meteor streak points back to the shower’s radiant in the constellation Aquarius, well above the eastern horizon and off the top of the frame. Known for speed Eta Aquarid meteors move fast, entering the atmosphere at about 66 kilometers per second, visible at altitudes of 100 kilometers or so. Then about 6 light-minutes from Earth, the pale greenish coma and long tail of Comet C/2020 F8 SWAN were not to be left out of the celestial scene, posing above the volcanic peaks left of center. Now in the northern sky’s morning twilight near the eastern horizon Comet SWAN has not become as bright as anticipated though. This first time comet made its closest approach to planet Earth only two days ago and reaches perihelion on May 27.
(Published May 14, 2020)
I’m re-watching Crash Course: Astronomy for about the 10 x 10^23 time
Want to join me?
It’s one of my favorites :)
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
They’re so lonely :(
Wait I guess that means I’m an electron since I’m #foreveralone. I feel like I should be sad about this but electrons are cool so I can’t really be lol.
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
Poor electrons
It’s easy to forget that thousands of comets, asteroids, and meteors are near us everyday. They seem like such a rarity.
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
Cosmonaut Ivan Vagner obtained this image of the comet NEOWISE a few hours ago from the International Space Station. He says that the dust tail looks very good from there. It is worth enlarging the image.
via reddit
That’s a great explanation of particle physics xD
But really, this stuff is so interesting! I love reading about stuff like this - so good work NASA!
If you liked the four forces governing the universe, you might like this book I just finished reading for the seventh time (Neil DeGrasse Tyson’s “Astrophysics for People in a Hurry”). It talks about these forces and a lot of other really cool concepts, like dark energy and chemistry-related-to-space.
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
May the Four Forces Be With You!
May the force be with you? Much to learn you still have, padawan. In our universe it would be more appropriate to say, “May the four forces be with you.”
There are four fundamental forces that bind our universe and its building blocks together. Two of them are easy to spot — gravity keeps your feet on the ground while electromagnetism keeps your devices running. The other two are a little harder to see directly in everyday life, but without them, our universe would look a lot different!
Let’s explore these forces in a little more detail.
Gravity: Bringing the universe together
If you jump up, gravity brings you back down to Earth. It also keeps the solar system together … and our galaxy, and our local group of galaxies and our supercluster of galaxies.
Gravity pulls everything together. Everything, from the bright centers of the universe to the planets farthest from them. In fact, you (yes, you!) even exert a gravitational force on a galaxy far, far away. A tiny gravitational force, but a force nonetheless.
Credit: NASA and the Advanced Visualization Laboratory at the National Center for Supercomputing and B. O'Shea, M. Norman
Despite its well-known reputation, gravity is actually the weakest of the four forces. Its strength increases with the mass of the two objects involved. And its range is infinite, but the strength drops off as the square of the distance. If you and a friend measured your gravitational tug on each other and then doubled the distance between you, your new gravitational attraction would just be a quarter of what it was. So, you have to be really close together, or really big, or both, to exert a lot of gravity.
Even so, because its range is infinite, gravity is responsible for the formation of the largest structures in our universe! Planetary systems, galaxies and clusters of galaxies all formed because gravity brought them together.
Gravity truly surrounds us and binds us together.
Electromagnetism: Lighting the way
You know that shock you get on a dry day after shuffling across the carpet? The electricity that powers your television? The light that illuminates your room on a dark night? Those are all the work of electromagnetism. As the name implies, electromagnetism is the force that includes both electricity and magnetism.
Electromagnetism keeps electrons orbiting the nucleus at the center of atoms and allows chemical compounds to form (you know, the stuff that makes up us and everything around us). Electromagnetic waves are also known as light. Once started, an electromagnetic wave will travel at the speed of light until it interacts with something (like your eye) — so it will be there to light up the dark places.
Like gravity, electromagnetism works at infinite distances. And, also like gravity, the electromagnetic force between two objects falls as the square of their distance. However, unlike gravity, electromagnetism doesn’t just attract. Whether it attracts or repels depends on the electric charge of the objects involved. Two negative charges or two positive charges repel each other; one of each, and they attract each other. Plus. Minus. A balance.
This is what happens with common household magnets. If you hold them with the same “poles” together, they resist each other. On the other hand, if you hold a magnet with opposite poles together — snap! — they’ll attract each other.
Electromagnetism might just explain the relationship between a certain scruffy-looking nerf-herder and a princess.
Strong Force: Building the building blocks
Credit: Lawrence Livermore National Laboratory
The strong force is where things get really small. So small, that you can’t see it at work directly. But don’t let your eyes deceive you. Despite acting only on short distances, the strong force holds together the building blocks of the atoms, which are, in turn, the building blocks of everything we see around us.
Like gravity, the strong force always attracts, but that’s really where their similarities end. As the name implies, the force is strong with the strong force. It is the strongest of the four forces. It brings together protons and neutrons to form the nucleus of atoms — it has to be stronger than electromagnetism to do it, since all those protons are positively charged. But not only that, the strong force holds together the quarks — even tinier particles — to form those very protons and neutrons.
However, the strong force only works on very, very, very small distances. How small? About the scale of a medium-sized atom’s nucleus. For those of you who like the numbers, that’s about 10-15 meters, or 0.000000000000001 meters. That’s about a hundred billion times smaller than the width of a human hair! Whew.
Its tiny scale is why you don’t directly see the strong force in your day-to-day life. Judge a force by its physical size, do you?
Weak Force: Keeping us in sunshine
If you thought it was hard to see the strong force, the weak force works on even smaller scales — 1,000 times smaller. But it, too, is extremely important for life as we know it. In fact, the weak force plays a key role in keeping our Sun shining.
But what does the weak force do? Well … that requires getting a little into the weeds of particle physics. Here goes nothing! We mentioned quarks earlier — these are tiny particles that, among other things, make up protons and neutrons. There are six types of quarks, but the two that make up protons and neutrons are called up and down quarks. The weak force changes one quark type into another. This causes neutrons to decay into protons (or the other way around) while releasing electrons and ghostly particles called neutrinos.
So for example, the weak force can turn a down quark in a neutron into an up quark, which will turn that neutron into a proton. If that neutron is in an atom’s nucleus, the electric charge of the nucleus changes. That tiny change turns the atom into a different element! Such reactions are happening all the time in our Sun, giving it the energy to shine.
The weak force might just help to keep you in the (sun)light.
All four of these forces run strong in the universe. They flow between all things and keep our universe in balance. Without them, we’d be doomed. But these forces will be with you. Always.
You can learn more about gravity from NASA’s Space Place and follow NASAUniverse on Twitter or Facebook to learn about some of the cool cosmic objects we study with light.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Goregous :O
In the Life of a Star Chapter 11, Additional Topics, I’ve been thinking about putting in a section on solar flares and prominences. Maybe if I have enough room, I do love this photo.
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
Dramatic solar activity was going on last night and I was able to create a gif of this solar prominence! 🌞🌞🌞
Solar prominences are different from solar flares since solar prominences are mostly pulled in by the Sun’s gravity, creating a majestic loop like shape! 🤩 🤩🤩
Taken by me (Michelle Park) using the Slooh Canary Five telescope on July 2nd, 2020.
I'm watching the launch now, half an hour to go!
This is the first NASA astronaut launch since 2011. I wanted to go to Cape Canaveral to watch but instead I'm watching from afar :)
(Edit: they’ve put off the launch till Saturday due to weather)
WANT MORE? GET YOUR HEAD STUCK IN THE STARS AT MY BLOG!
-
retarded-faggot-xoxo liked this · 4 years ago -
worm-with-a-knife liked this · 4 years ago -
you-arent-me reblogged this · 4 years ago -
fatbench reblogged this · 4 years ago -
tmblr-renaissance liked this · 4 years ago -
acosmicgeek reblogged this · 5 years ago -
mimathymas liked this · 5 years ago -
twobeetwothree liked this · 5 years ago -
dragonsareimagining reblogged this · 5 years ago -
aprilbrooke liked this · 5 years ago -
pansexualbumblebeesstuff liked this · 5 years ago -
darkened-sky liked this · 5 years ago -
arrigatoroy liked this · 5 years ago -
alohac1elo reblogged this · 5 years ago -
frogbitsalad liked this · 5 years ago -
the-berriest-berry-art liked this · 5 years ago -
ms-chrissy-me liked this · 5 years ago -
xcontaminated liked this · 5 years ago -
tangled-pixel-harpsichord reblogged this · 5 years ago -
aeryns-house liked this · 5 years ago -
thatbrainrotgrind liked this · 5 years ago -
georgiethepokemon reblogged this · 5 years ago -
georgiethepokemon liked this · 5 years ago
-
lugaboo reblogged this · 5 years ago -
midnightmoon1410 liked this · 5 years ago -
lovelycharm05 liked this · 5 years ago -
babybirb1923-blog liked this · 5 years ago -
sunflower-sock liked this · 5 years ago -
thedreamsmith liked this · 5 years ago -
tattooeddalmatian liked this · 5 years ago -
therealhobermallow liked this · 5 years ago -
umeumiko liked this · 5 years ago -
cleverusername01 liked this · 5 years ago -
mephistoxx liked this · 5 years ago -
en-seta reblogged this · 5 years ago -
cmburns23 liked this · 5 years ago -
redshinylizard-blog liked this · 5 years ago -
areyoustillalive liked this · 5 years ago
