![]() So let's look at chromium if we're to determine its electron configuration. So remember exceptions start with chromium. So click on the next video and let's see what happens ![]() Now that we know that these are the 60 that we have to deal with, let's see how these exceptions arise. So keep this in mind when we're looking at their electron configurations. So just remember, these are the six major types of elements where we were going to see exceptions to the electron configuration. So skip, manganese, skip iron, skip cobalt, skip nickel, and then you land on copper, where the next group of exceptions can exist. We know that's where it starts, and we're gonna skip the next four columns, right? So we start out with chromium and you skip next four. We're going to say that the exceptions happen with these two elements and with these four elements, so two and four we're going to say here we're gonna start out with chromium. A memory tool here we can have is that chromium has an atomic number off 24. Now, when looking at exceptions to the electron configurations, we're going to say starting from chromium, which is CR as the atomic number Z increases exceptions to electron configurations can be observed. So just remember, it's this drive to either be half filled or totally filled by the P and D sub shells or sub levels that causes some of these exceptions to the electron configurations that will see later on So up, up, up and come back around down, down, down, up, up, up, up, up, down, down, down, down and down. ![]() So when P sub levels or sub shells air filled halfway there, stable when d are half filled there also stable now when they're totally filled in there are also stable. So remember following off while Prince not off principle but the following the hunt's role electrons that are degenerate or have the same energy there half filled. So here, for P and G, when they're half filled, their stable in this way. We're going to say here that P and D sub shells or sub level orbital's are most stable when there are half filled or totally filled with electrons because of symmetry. ![]() Before we can talk about the exceptions to the electron configurations, it's important to understand why they exist. ![]()
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