I MEAN Yeah!! I May Be Getting Carried Away With All These Fake Trial Screenshots Haha. 

Here's a ‘crossover’ drawing of my favorite cartoon characters that I made months ago

Sketched on paper but edited and colored digitally…

Trying to find a new artstyle but ended up with these instead. I don't know what this artstyle is called, but I've probaly seen it a lot.

I’ve just realized this. Emerald has small hands. It reminds me of Aquamarine. And wait, Aquamarine and Emerald are both beryls. Emerald’s outfit looks more like an armor, or enhancer(just like Peridot’s limb enhancers). She looks like her legs were enhanced to make her taller, look at those leg armor. Also, if she removed her leg enhancers(if she was wearing those) she would look a bit more like peridot, big head, but with small body. Emerald is small like Aquamarine, because they are both beryls. Note: I could be wrong, maybe she was just drawn that way. In my opinion, her hands and fingers look small. I still believe in the theory that beryls are meant to look small like Aquamarine.

"Pink help the off colors, show them the mercy they don't find on homeworld"

I might be inactive in the next 2 days while I'm travelling to the next city, but I uploaded some queued post to keep this account updated. Hope you have a great day! 😶🙂💓

Animation for a fwend :3

I'd bath in Diamond Tears

Could we create dark matter?

85% of the matter in our universe is a mystery. We don’t know what it’s made of, which is why we call it dark matter. But we know it’s out there because we can observe its gravitational attraction on galaxies and other celestial objects. 

We’ve yet to directly observe dark matter, but scientists theorize that we may actually be able to create it in the most powerful particle collider in the world. That’s the 27 kilometer-long Large Hadron Collider, or LHC, in Geneva, Switzerland.

So how would that work? In the LHC, two proton beams move in opposite directions and are accelerated to near the speed of light. At four collision points, the beams cross and protons smash into each other.

Protons are made of much smaller components called quarks and gluons. 

In most ordinary collisions, the two protons pass through each other without any significant outcome.

However, in about one in a million collisions, two components hit each other so violently, that most of the collision energy is set free producing thousands of new particles. 

It’s only in these collisions that very massive particles, like the theorized dark matter, can be produced.

So it takes quadrillions of collisions combined with theoretical models to even start to look for dark matter. That’s what the LHC is currently doing. By generating a mountain of data, scientists at CERN are hoping to find more tiny bumps in graphs that will provide evidence for yet unknown particles, like dark matter. Or maybe what they’ll find won’t be dark matter, but something else that would reshape our understanding of how the universe works entirely. 

And that’s part of the fun at this point. We have no idea what they’re going to find.

From the TED-Ed Lesson Could we create dark matter? - Rolf Landua

Animation by Lazy Chief

Guess what just got back from the graphics shop???

Photos tonight :03

Drawing Live on YouTube

Hey guys, I'm live on youtube right now. You can ask me any drawing requests cartoon or anime related 😊

https://youtu.be/bxYBALWH5SQ