 Let's try this one. This structure what they're showing here is they're trying to throw you off. This is a product of a Lewis acid-Lewis base reaction. So already you should be able to figure it out, but let's kind of break it up into that Lewis acid-Lewis base reaction. Can anybody figure out one of the two molecules that would have reactivated each other? Oxygen bonded to two methyl groups with one lone pair and a positive charge. Well, let's just look at the molecule. It's going to have two lone pairs like that. So that molecule is called dimethyl ether. Notice the ether functionality. Now we're going to draw the other molecule. If you need to do it from its atoms, do that. But this one's a little more regular. So everything has got its proper valence that you would expect it to have. And now what happens, remember these are becoming one molecule, so we have a Lewis acid-Lewis base reaction. Let's do another mechanism. Can we do that? Is that what you drew? So the product of this reaction is going to be what? Oxygen bonded to one. Yeah, but what else does it have? Oxygen and negative charge on the form. Yeah, you're going to have to do your formal charges. Oh, definitely. It's the way to go. Because then you have to have white markers. Okay, so does that make sense? So that's not what they had on photobuckets, right? No. So take a picture of this and post this on photobucket and be like, biow. I'll put it on the camera. So you'll be like, what? I was going to say something else, but I can't say the rest. I wasn't going to say that. Please. Except for the YouTube. Any other questions on this one? Yeah. On this one. The first one. Yeah, the reaction set? So boron, it's valence, only has three electrons in it. It's valence shell. So it's a non, it's one of those atoms that doesn't fulfill the octet requirement all the time. It'd prefer to have just six electrons. Which? Or the three electrons around it, whichever way you want to. So all of that, you know. But it has an empty orbital, so it can't accept actual electrons. Here, think about it. I'm going to kill this video, okay? Might as well have your question right.