 Okay, so this one just says, complete the following reaction and write the major products. So in fact, they don't want you to do a mechanism, they don't want you to do anything, they just want you to identify what the products are going to be, okay? So since it doesn't say only organic products, you're going to want to write the inorganic product that's also formed. But remember the major product comes from the reaction of the halogen with the most substituted carbon, okay? So if we look here, we want to look for primary, secondaries, and tertiary carbons, okay? So primary carbons being the least substituted, tertiary being the most substituted. If we can find the tertiary carbon, that's where the chlorine is going to go, okay? So I'm going to point to carbons, you're going to tell me if they're primary, secondary or tertiary, okay? Right? Secondary. Secondary. Secondary. Secondary. Secondary. Secondary. Secondary. Tertiary. Uh-huh. Primary. Primary. So where are you going to go? On the tertiary. Right there, okay? Let's draw the product. So it's going to be the same thing, except instead of that hydrogen on the tertiary carbon, it's going to be replaced with a chlorine, like that, okay? And then the inorganic product that they want you to write, too, is the H-C-L. So this is the major product. You would form the other products from the radical reaction, but they only wanted the does that make sense? Yes. You said that the hydrogen would go on the most substituted carbon. Most substituted carbon, yeah. So since we look at this one and we say that's a tertiary relative to the other ones being primaries or secondaries, that's the one that's going to go on. Why is that? Remember, the bond enthalpy is the least on a tertiary carbon, okay? So the bond strength is very weak, okay, relative to primary or secondary, okay? Any other questions? No. Okay, wonderful.