“Shh, it’s alright,” the villain said. “You’re doing beautifully and I’m so proud of you. But that’s enough now. It was cruel of them to make you fight me - you could never have won. It’s not your fault.”

reblog chunky growlithe for a good year of the dog

We need to take action!!

If you don’t know about Net Neutrality well you need to know about it now. This is no joke or a game because if we don’t do something living expenses are going be harder to meet.

If you thought being a college student is expensive bc of books and tuition imagine what you’ll be paying just to do a research paper.

If you were against paying for YouTube red well it won’t matter bc you’ll have to pay just to access the website. This goes for all social media sites as well. You’ll have to pay to access your email.

Forget paying for basic internet speed you’ll be paying for packages that will only allow you to access certain websites. It’s these packages is the reason why many cut cable and only pay for Netflix. To access the internet will become more expensive and controlled. Let that sink in if it hasn’t already.

That is why we need to take action. And this post will make it easy for you to do that.

Sign this petition:

Send Letters to your Representatives:

“Net Neutrality is the cornerstone of innovation, free speech and democracy on the Internet.Control over the Internet should remain in the hands of the people who use it every day. The ability to share information without impediment is critical to the progression of technology, science, small business, and culture. Please stand with the public by protecting Net Neutrality once and for all.”

Call:

If you’re not from US:

We only have until December 14th, 2017. You have no excuse not to take action I’ve gave you different options how to take action. This is important and for the best results contact daily.

Singal boost this! Spread this like wildfire. Take action!!

Listen, I’m not saying the loss of net neutrality would necessarily be the first step in creating a dystopian future, but it could totally be the first step in creating a dystopian future.

It opens the door for service providers to just block sites that they don’t like, or to only allow sites that they approve. Then that means governments can do it.

Free communication is vital to organizing a populace and starting a revolution. It already looks bad enough, but the loss of net neutrality would pave the way for a very dangerous future indeed.

This is going to matter.

I hate talking on the phone but this gave lots of options to still do something!

Are you alone?

PPAP Ryuk. 😂😍

HOW TO STYLE 🎀  KITTEN BAGS 🎀  pt. 4 yay! (ﾉ◕ヮ◕)ﾉ*:･ﾟ✧ 7 KITTEN BAGS will be available on LOLLE♡SHOP tomorrow (August 30th on 8pm CET) !! SAVE THE DATE!! Don’t miss the opportunity to grab one and have fun to style it with a lot of different outfits 💖

✳ outfit deets:  ♥ JOY DIVISION TEE : vintage from my boyfriend ♥ button-front skirt  : forever21 ♥ belt : forever21 ♥ boots :  Dr. Martens * inside the bag : poison phone case (Valfre), wallet & notebook (killstar), iPad case (aliexpress) 

Hey everyone! I’ve opened a Society6 store for some of my photo edits. I really enjoy doing this kind of art and wanted to be able to share my work on physical prints and goods too! I’d love if you check it out or share it. I’m always looking for constructive criticism too <3

https://society6.com/ava-bird/prints

my summer-aesthetic hero kids (with a couple tweaks)

Local Girl Discovers That Wasting Money Won't Save Her From Midnight Depression

Warm Weather

wallace and grallace

@tripropellant @paeinovis

Incoming! We’ve Got Science from Jupiter!

Our Juno spacecraft has just released some exciting new science from its first close flyby of Jupiter! 

In case you don’t know, the Juno spacecraft entered orbit around the gas giant on July 4, 2016…about a year ago. Since then, it has been collecting data and images from this unique vantage point.

Juno is in a polar orbit around Jupiter, which means that the majority of each orbit is spent well away from the gas giant. But once every 53 days its trajectory approaches Jupiter from above its north pole, where it begins a close two-hour transit flying north to south with its eight science instruments collecting data and its JunoCam camera snapping pictures.

Juno and her cloud-piercing science instruments are helping us get a better understanding of the processes happening on Jupiter. These new results portray the planet as a complex, gigantic, turbulent world that we still need to study and unravel its mysteries.

So what did this first science flyby tell us? Let’s break it down…

1. Tumultuous Cyclones

Juno’s imager, JunoCam, has showed us that both of Jupiter’s poles are covered in tumultuous cyclones and anticyclone storms, densely clustered and rubbing together. Some of these storms as large as Earth!

These storms are still puzzling. We’re still not exactly sure how they formed or how they interact with each other. Future close flybys will help us better understand these mysterious cyclones. 

Seen above, waves of clouds (at 37.8 degrees latitude) dominate this three-dimensional Jovian cloudscape. JunoCam obtained this enhanced-color picture on May 19, 2017, at 5:50 UTC from an altitude of 5,500 miles (8,900 kilometers). Details as small as 4 miles (6 kilometers) across can be identified in this image.

An even closer view of the same image shows small bright high clouds that are about 16 miles (25 kilometers) across and in some areas appear to form “squall lines” (a narrow band of high winds and storms associated with a cold front). On Jupiter, clouds this high are almost certainly comprised of water and/or ammonia ice.

2. Jupiter’s Atmosphere

Juno’s Microwave Radiometer is an instrument that samples the thermal microwave radiation from Jupiter’s atmosphere from the tops of the ammonia clouds to deep within its atmosphere.

Data from this instrument suggest that the ammonia is quite variable and continues to increase as far down as we can see with MWR, which is a few hundred kilometers. In the cut-out image below, orange signifies high ammonia abundance and blue signifies low ammonia abundance. Jupiter appears to have a band around its equator high in ammonia abundance, with a column shown in orange.

Why does this ammonia matter? Well, ammonia is a good tracer of other relatively rare gases and fluids in the atmosphere…like water. Understanding the relative abundances of these materials helps us have a better idea of how and when Jupiter formed in the early solar system.

This instrument has also given us more information about Jupiter’s iconic belts and zones. Data suggest that the belt near Jupiter’s equator penetrates all the way down, while the belts and zones at other latitudes seem to evolve to other structures.

3. Stronger-Than-Expected Magnetic Field

Prior to Juno, it was known that Jupiter had the most intense magnetic field in the solar system…but measurements from Juno’s magnetometer investigation (MAG) indicate that the gas giant’s magnetic field is even stronger than models expected, and more irregular in shape.

At 7.766 Gauss, it is about 10 times stronger than the strongest magnetic field found on Earth! What is Gauss? Magnetic field strengths are measured in units called Gauss or Teslas. A magnetic field with a strength of 10,000 Gauss also has a strength of 1 Tesla.  

Juno is giving us a unique view of the magnetic field close to Jupiter that we’ve never had before. For example, data from the spacecraft (displayed in the graphic above) suggests that the planet’s magnetic field is “lumpy”, meaning its stronger in some places and weaker in others. This uneven distribution suggests that the field might be generated by dynamo action (where the motion of electrically conducting fluid creates a self-sustaining magnetic field) closer to the surface, above the layer of metallic hydrogen. Juno’s orbital track is illustrated with the black curve. 

4. Sounds of Jupiter

Juno also observed plasma wave signals from Jupiter’s ionosphere. This movie shows results from Juno’s radio wave detector that were recorded while it passed close to Jupiter. Waves in the plasma (the charged gas) in the upper atmosphere of Jupiter have different frequencies that depend on the types of ions present, and their densities. 

Mapping out these ions in the jovian system helps us understand how the upper atmosphere works including the aurora. Beyond the visual representation of the data, the data have been made into sounds where the frequencies and playback speed have been shifted to be audible to human ears.

5. Jovian “Southern Lights”

The complexity and richness of Jupiter’s “southern lights” (also known as auroras) are on display in this animation of false-color maps from our Juno spacecraft. Auroras result when energetic electrons from the magnetosphere crash into the molecular hydrogen in the Jovian upper atmosphere. The data for this animation were obtained by Juno’s Ultraviolet Spectrograph. 

During Juno’s next flyby on July 11, the spacecraft will fly directly over one of the most iconic features in the entire solar system – one that every school kid knows – Jupiter’s Great Red Spot! If anybody is going to get to the bottom of what is going on below those mammoth swirling crimson cloud tops, it’s Juno.

Stay updated on all things Juno and Jupiter by following along on social media: Twitter | Facebook | YouTube | Tumblr

Learn more about the Juno spacecraft and its mission at Jupiter HERE.

Kirishima and Kaminari, trying to convince people that Bakugou is on the heroes’ side

Self care 101 

Okay reblogging this again because this scene literally changed my life

lately ive been really liking the extra eyes thing…