 Okay, so let's try this one more time. So, you guys are mixing silver nitrate, right? So AG NO3, which has no solid in it. It's a clear solution, right? So it's in water, so we call that aqueous. We're going to mix that with another solution, clear solution, right? Sodium chloride solution, NACL, aqueous. There's no solid particles in there. It's water, you call it aqueous. When you mix these two things together, a solid precipitate comes out, okay? That solid precipitate, if you know your spectator ion rules, must be silver chloride, okay? Why? Because sodium is a group one element. Group one elements are always spectator ions. Nitrate is always a spectator ion, okay? The other thing is, is you have to know what the charge of nitrate is in order to figure out what the charge of silver is because you don't know that. Silver is a transition metal, so you've got to figure out transition metals through their counter ions. So over here, that white solid came out, A-T-C-L, solid plus the other two because we're doing a double-displacement connection. So remember, double displacements are like doing the do-see-do. You're switching partners, okay? So that's what we call the molecular equation. Everything is uncharged, stuck together, okay? Like a molecule almost, okay? The total ionic equation is you break everything up that says aqueous into its ions. So that, that, not that, but that, right? So, A-G plus, you've got to keep state of matter on there. C-L minus, state of matter. Plus, state of matter. C-L minus, aqueous goes to this one. We don't break up, right? Because it came together as a solid. A-G, C-L, solid. That's the driving force of this reaction. That's a very stable compound relative to everything else, okay? And then plus, Na plus, aqueous plus, and like that. Okay? So that's called the total ionic equation. That's all that's in solution. Equation is you take the things that are the same on both sides of the reaction and you cancel them out. A-G plus aqueous, is that on both sides of the reaction? No. No. NO3 minus aqueous? Yes. Cancel, cancel. Na plus aqueous? Yes. Cancel, cancel. C-L minus aqueous? No. A-G, C-L, solid? No, it's not on both sides. So, let's write the net ionic. Net is just everything but the stuff you cancel or without the stuff you cancel. So, A-G plus aqueous plus C-L minus aqueous goes to A-G, C-L, solid. Okay? That's the net ionic equation. And then if you ask, what are the spectator ions? Things that you canceled out in the total ionic equation. So, Na plus, like we said, all group ones are always spectators. And NO3 minus nitrate is always a spectator. So, just like in a basketball game or something, there are the participants in the game. Those are the ones that are doing the reaction in our case. And then there are the spectators, the ones that don't participate in the reaction. Does that make sense? Okay, cool. Any questions on anything about that? Yes.