I mean but really?

Where I'm at, where i'm going and where I want to be.

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We could stay here. Stay out all night. No one will know us and the moonlight

“ I trace my fingers in patterns along your skin and if ever there was a moment to freeze time —God, this would be it, this would be it. Anonymous (via decembrist)

14-billion-years-later:

How Glow-in-the-Dark stars workGlow in the dark stars are one of those staples of children who love space (Aprox. 100%) and they’re always a source of wonder. So here goes my scientific explanation for how glow in the dark materials work.The first step in phosphorescence (The fancy term for glow in the dark) is the same as for most light-matter interactions. Light strikes the atoms and bumps an electron into a higher energy, “degenerative” orbital as some parts of the light are absorbed. However instead of falling back down to the ground state, the electron becomes trapped in the higher energy state. Molecules and compounds that display this quality are called phosphors and are also responsible for pixels in CRT screens. Eventually however the electrons do move down, although much slower than in most molecules due to a small energy barrier that can overcome by random fluctuations and as they do move down energy in the form of light is released. This means the energy that was absorbed earlier is released over a slower period of time causing the material itself to glow for several hours on end.It should be noted this isn’t the only way things glow, certain materials glow in response to various forces such as mechanical stress (apparently pulling two parts of duct tape apart releases light) while things such as glow sticks, fire flies and the CSI fan’s favorite: luminol (which reacts with iron in blood among other things) release light because of chemical reactions, this process is called chemiluminescence.