👏🏻👋🏻😎

And here we go.

*crosses fingers* 🙏🏼

MAY YOU MEET YOUR FAV IN 2016

HOLY SHIT THIS WORKED LAST TIME!  DOING IT AGAIN!

My Endgame Theory about Tony and Pepper

*Potential spoilers for Endgame*

In the newest trailer it’s begins with Tony talking and we all just assume it’s Tony sending Pepper a goodbye messgae from space like in the 1st trailer. Now what if this wasn’t a goodbye message but was actually TONYS WEDDING VOWS !!!!

I mean just listen to the video again but this time try and picture Tony at a wedding saying this to Pepper.

I feel like it’s all about the perspective because whether it’s a goodbye message or wedding vows it works both ways. It’s all on you and how you see it.

The main reason I feel so strongly about this theory is because of what Gywenth Paltrow said in an interview.

So maybe in Endgame:

Thanos is defeated

Tony doesn’t die but retires

There is a time jump where Tony and Pepper getting married and have a kid

I think it’s very possible Tony could retire because this is RDJ’s last movie as his contract is up and I think Marvel would have to be insane to kill off one of the biggest character in the MCU.

If Tony does retire for Pepper and his kid he wouldn’t be the first one to do so because Clint is retired too (or at least he’s trying to).

~~~

Now comes the FFH trailer, which is assumed to be after Endgame. I know he hasn’t been mentioned in it at all but I still believe he might be retired.

There was this leaked video of Happy talking with Fury and Maria and people think it’s Happy taking over Stark’s work because he’s dead but I think Happy is handling business for Stark while he’s retired.

Let’s remember Happy has been carrying a wedding ring since 2008 he’s like the #1 Pepperony fan so I’m sure he wouldn’t mind taking over Tony’s work while Pepper and him raise their kid together.

Also Tony and Happy were pretty close and despite his name Happy has pretty much always been this serious grumpy guy and in the FFH trailer he looks well “happy”. I feel like if Tony was dead he’d be torn up. It could be about Aunt May but there’s a possibility it could also be about Tony.

~~~

This is just a theory.

I’m not confirming that he will survive.

I’ve prepared myself for the fact that Tony might die too but I want to have hope.

Must. REPOST! 🤩😍❤️

Nailed it 💕😘😍

Hiddlesweek Day 4: Favourite quote: Tom speaks about the nature of true love.

How Airglow Can Help Us Understand the Sun’s Influence on Earth

You may have seen the famous blue marble or pale blue dot images showing Earth from 18,000 and 3.7 billion miles away, respectively. But closer to home — some 300 miles above Earth’s surface — you might encounter an unfamiliar sight: vibrant swaths of red and green or purple and yellow light emanating from the upper atmosphere.

This light is airglow.

Airglow is created when atoms and molecules in the upper atmosphere, excited by sunlight, emit light to shed excess energy. Or, it can happen when atoms and molecules that have been ionized by sunlight collide with and capture a free electron. In both cases, these atmospheric particles emit light in order to relax again. The process is similar to how auroras are created, but while auroras are driven by high-energy solar wind, airglow is energized by day-to-day solar radiation.

Since sunlight is constant, airglow constantly shines throughout Earth’s atmosphere, and the result is a tenuous bubble of light that closely encases our planet. Its light is too dim to see easily except in orbit or on the ground with clear, dark skies and a sensitive camera — it’s one-tenth as bright as the light given off by all the stars in the night sky.  

Airglow highlights a key part of our atmosphere: the ionosphere. Stretching from roughly 50 to 400 miles above Earth’s surface, the ionosphere is an electrified layer of the upper atmosphere generated by extreme ultraviolet radiation from the Sun. It reacts to both terrestrial weather below and solar energy streaming in from above, forming a complex space weather system. Turbulence in this ever-changing sea of charged particles can manifest as disruptions that interfere with Earth-orbiting satellites or communication and navigation signals.

Understanding the ionosphere’s extreme variability is tricky because it requires untangling interactions between the different factors at play — interactions of which we don’t have a clear picture. That’s where airglow comes in. Each atmospheric gas has its own favored airglow color, hangs out at a different height and creates airglow by a different process, so we can use airglow to study different layers of the atmosphere.

Airglow carries information on the upper atmosphere’s temperature, density, and composition, but it also helps us trace how particles move through the region itself. Vast, high-altitude winds sweep through the ionosphere, pushing its contents around the globe — and airglow’s subtle dance follows their lead, highlighting global patterns.

Two NASA missions take advantage of precisely this effect to study the upper atmosphere: ICON — short for Ionospheric Connection Explorer — and GOLD — Global-scale Observations of the Limb and Disk.

ICON focuses on how charged and neutral gases in the upper atmosphere behave and interact, while GOLD observes what drives change — the Sun, Earth’s magnetic field or the lower atmosphere — in the region.

By imaging airglow, the two missions will enable scientists to tease out how space and Earth’s weather intersect, dictating the region’s complex behavior.

Keep up with the latest in NASA’s airglow and upper atmosphere research on Twitter and Facebook or at nasa.gov/sunearth.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.

pens @ sharks | 01.15.19

Oh myyyyy, the baby 🐷 made me squeeeeee!!!! @the-haven-of-fiction I agree on the skunk, but the hedgehog stole my ❤️

My bond is with the people. And I will serve this great nation, at the pleasure of myself.