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See, that’s what the app is perfect for.

Sounds perfect Wahhhh, I don’t wanna
worshipmoment

darkhair-sadsoul asked:

Please pray for me to find the love again. I'm so unwanted, unloved... And every boy makes fun of me. I don't know what to do.. Because I used to cut myself, but now I have almost 6 months clean and I don't want to relapse. I want to find God in everyone and everything.

Definitely will be praying. And always remember there is one person who will always love you and His name is Jesus Christ. Ignore the boys, it doesn’t matter what they say it matters what God says, and He will never leave you nor forsake you. Stay strong and run towards God. His arms are wide open. 

roadtocoding

Flexbox + Sass + Basic Transition CSS

Continue with previous post  Flexbox 3x3 gallery + Sass lets dive to Basic Transition CSS with great free course   Creating CSS Transitions by scotch.io 
Feel free to fork my codepen and make more flexible this layout.
I use such sass features: 
1.  lighten($color, $amount)  Makes a color lighter.
2.  darken($color, $amount)  Makes a color darker.
3.  map-get($map, $key)  Returns the value in a map associated with a given key.
4. and flex-grow,flex-shrink, flex-basic - property. 
5. css transition: ease-in-out, easy, linear.

image
sass scss frontend front-end sassy css css3 html5 html css-transition transition roadtocoding web webdeveloper ui webui flexbox flex-box
quantanaut

jvaughn-acpm asked:

Can you compare and contrast quantum Chromodynamics Electrodynamics?

For those who don’t know what these are, quantum electrodynamics (QED) and quantum chromodynamics (QCD) are two models that describe how different forces work on the quantum scale. Specifically, they cover electromagnetism and the strong nuclear force, respectively.

The concept of quantum electrodynamics is fairly simple. Opposite charges attract, like charges repel, and the force is proportional to the inverse square of the distance between two particles. In QED, this force is ‘carried’ by the photon. Essentially, this means that when two charged particles interact with each other, it’s as if they are passing a photon between each other.

QCD is a bit trickier, but there are some parallels. Instead of just two charges, positive and negative, chromodynamics has six charges in total. We call them ‘red’, ‘blue’, and ‘green’, along with ‘anti-’ versions of each. These aren’t real colors, though, just names we give the charges. In QCD, all the ‘colors’ in a system have to add up to ‘white’. So, for instance, combining ‘red’ and ‘anti-red’ would equal ‘white’, but you could also combine ‘red’, ‘blue’, and ‘green’ to make ‘white’ as well.

Unlike QED, the force in QCD is the same regardless of how far away the particles are. Also, instead of this force being carried by the photon, it’s carried by the gluon, and the gluon itself carries two color charges with it. Finally, because all the color charges in any system must add up to ‘white’, you will never see a particle with a single color charge on its own. This is why quarks are always found in groups of two or more.

Sorry if this was a bit complicated, these are pretty advanced concepts in physics, and it’s hard to describe them without math, so please feel free to ask any follow-up questions.

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