A list of puns related to "Luminescent"
This project is dedicated to bringing Pokemon Renegade Platinum straight to your PC or Nintendo Switch. Right now, we have the wild encounters, Pokemon changes (for example, Luxray being Electric/Dark) and trade evolution changes implemented, but in the coming days we will finish up Trainer Teams, and more! We will even have our own changes to the game that you haven't seen in Renegade Platinum.
To install, simply place the RomFS folder in your Game's Data directory (0100000011D90800 for Diamond, 010018E011D92000 for Pearl, on Switch, these folders will be located in atmosphere/contents/) and it should work. Will conflict with many mods on Gamebanana and elsewhere, but we are working to include their functionality with our own flair in our mod in the future.
Release and Credits here: https://gamebanana.com/mods/338507
I have a couple of questions, so I hope someone out there will give a detailed response.
When I heat up my stove, particles on the stove top move at higher speeds and bump into each other more often. Everything is moving faster and accelerating. I know that charged particles that are accelerated give of radiation (at least classically). The more heat, the more acceleration, the more energy is radiated off. The higher the energy, the closer to the visible spectrum the photons become.
When I look at a luminescent plastic star however, I see that it glows. I know that photons hit the electrons in the star, bumping them up to higher energy orbits. When they fall back down to low energy orbits, the emit the photons, which is what I see.
These two processes are very different to me, for a number of reasons. On this basis, here is my question:
When I heat my stove, doesn't that also bump the electrons into higher energy orbits? And then they fall back down giving off light, right? But this is very different from the classical picture. So when my stove is glowing red hot, which is the correct picture? And if they are both correct, how can that be?
Please note that this site uses cookies to personalise content and adverts, to provide social media features, and to analyse web traffic. Click here for more information.