![]() ![]() Okay, But another way to break them is that I could break them. Okay? Your products are different ions a cat ion and I and I am okay, so that's one way to break bonds. Okay, Now, notice what this creates is ions. Okay, so you're getting different amounts of electrons on both. Okay, now the reason that we call it hair Olynyk is because hetero stands for the word different. Okay, this is like I said, this would be hetero elliptic lipstick, cleavage. Okay, What I wind up getting is ion, so I wind up getting a C plus and an ex negative. Okay, so notice that I'm using a full arrow, and that's showing that both electrons kind of pick up, packed their bags and moved to the X. So what we would say is that if we were to break this bond, the way we would break it is towards the ex. So there's actually a pretty powerful die poll going towards the ex, depending on which halogen were using. How could we predict which of the species would get the negative charge or would get the lone pair on it? Do you guys know how to predict that? The way that we would predict is that we would say the one that's the most Electra negative is the one that gets the electrons when the bond breaks. I have a carbon and some kind of halogen. That means that one atom is gonna have a negative charge, and one's gonna have a positive. That means that I'm breaking this bond and I'm gonna get different charges on both sides would mean that two electrons both of the elections from that bond are moving toe one atom. ![]() So let me show you the difference between that. They could be broken, hetero, politically or home elliptically. And basically, it turns out that single bonds can be broken in two different ways. So first of all, let's just talk about how radicals break off differently than regular regular single bonds. Okay, so every radical reaction that we talk about is always going to start off with a radical initiator. So we when we're dealing with reactions with radicals, the first thing we need to ask is, how do we even get these radicals in the first place? So that brings us to radical initiators. If you ever hear about free radicals in nature or in your body thes air things that last for tiny amounts of time and they're gone, they terminate. Radicals are these very high energy intermediates that in the natural world exists for only very short periods of time. ![]()
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