 So why wouldn't we? Let's go around. How do we tie this together? It's not like in that case. It's like this working, right? Because if we can't match it, if you should be tied it also. The ring is 700. Why does it have to be like this? You are saying it has to be tied, right? If you should be tied here, then again. But this, this start one, we have, you see we have the same ideal strength here because the ring is 700. It's not most stable. It's not most stable, so like what happened? So you can draw the, this is not more stable than this. So when you do a 2-1-3, you should only tie here and then you do the ring as well. What, what is the, how do we really get the, I'm not sure. Again this, right? No, this is just one. So we'll have a 6, we'll have a 6 member ring. First start. So this part is this right? Yeah. Right? So you have the stability of these two cartons? That's right. That's right. First one is the second one. Second one? Third one is the third one. Because it's going to be really big. That's what you can encounter. Why? You'll get a tertiary carton. This is the fourth one. He's an influence puncher. So in practice, in practice, when this carton can end, this carton can end to come there. This one is the most stable. That's the most stable. So can there be another 1-2 participation to draw that and then you just get another tertiary carton and then you draw the carton. Carton. Yeah. So it's in the first chart. So this ring carton has a big carton. This ring carton has a big, more stable carton because of the angle. More stable? Most of the time. So you can't see this. What? This is 7, this is 7, right? It is slightly more stable than this. Yes. Okay? Now it goes to there. It forms. But this carton can end. But we have a string. Because it's present on there. So this carton can end. What? I don't know. The carton can end most stable. Yeah, because there is no angle string. Here we have angle string. Here we do not have angle string. So this carton carton is more stable than this. And this is also possible. But which one is more stable? If you compare this one and this one, obviously this one is more stable. So should we give us to cover it to carton cartons? Both are nursery. Both are real. Both are real. Both are real. So the shape of it will be more stable. More stable. This won't happen. This we can do molecule form to molecule. Okay? Yes. But if you direct carton carton to carton carton. Yes. So if you shift this, then this won't happen. Because this in the process is more stable than this. Okay? So this we can draw molecule form to molecule. Which will direct contraction. Okay? If you have few questions, you will see. If you are going to see turbulence like this. In this VH function it is not possible. This won't go reverse. Because this is more stable than this. Right? This is one thing. Next question you will see. Draw the more stable that will happen. So you have to draw the more stable part. Yes, yes. Isn't this one more stable? I don't know that you see this kind of thing. VH function is more stable than VH function. What? What do you mean by nothing more? How do you know that? It's balancing. That doesn't matter. What? What are you saying? Why? Why can't you do that? Why the end of that thing? You know, many people are doing. Yes. What's the other name? It's not the same. It's not the same. Why are you doing that? See, if you do not do those in other name chapters again. All these things won't help. No. Transient element will get one hundred questions. Probably in the mix of one hundred questions. Seed graph will get one hundred questions. Subway chemistry will get one question. Okay. Like this. Bio-volume will get one question. Like this will become. There are seven questions. From all these, you know. So what's that? Right. If you leave all this code in ministry. These small, small chapters you should go through. NCIQ just finished. Subway chemistry. Bio-morbidism. This is a physical question. Sir, what's the difference between the bio-morbidism and bio-chain chemistry? Bio-morbidism will do over their reactions. Like how, what are the linkages. So we will mainly, you know, see the reactions involved in this. Okay. Sir, what comes after bio-morbidism? What comes after the bridge head? Bridge head. Yes. That's what we'll see. Bridge head. Bridge head. Bridge head. Bridge head. I'm very skeptical about this. About this part. Sir. If it's not here, then you have to expand it. That is it. Okay. So first of all in this. Before the bio-morbidism. I think regressive. Finally. Because this is bio-morbidism. Because this is bio-morbidism. Because this is bio-morbidism. Because this is bio-morbidism. It becomes bio-morbidism. Sir, you can't write how it becomes the most stable. Which one? The. Yeah. Actually it becomes bi-cyclot. Yeah. That is, that's the significance. This one is just our. That's the significance. So it is stable to the significance. That is the most powerful, the second one. Right. So this one here comes over here. And this one is right. So right. So you get this number. Oh, wow. Oh, listen listen. This one. So can you wait for the third one? It's something really exciting. Then this one. This one. Yeah. This one. This one. Okay. Why is it become a fascinating and both then. How many things? Six things. So. So if you become 20, you can have the darky resonance on the pink level. It's like how? If you become 20, it becomes. So how long? This comes over here. What? That's the problem. So it happens. Just one. Okay. Everything becomes this quiet. Now there's a new problem. So it is one. Two. Three. Four. Five. Six. Okay. So let's start on your. So the heat is on. Five. Five. Five. Okay. And then to the other side. One, two, three. One, two, three. One, two, three. One, two, three. One, two, three. This is the one where it comes over here. Something like this, no? One of them. One of them will say it's white. Oh. It's the one that's not there. It's the one that's not there. Yes. Yes. That's what it's about. Yes. That's what it's about. It's really, it's really forming. This one. I wonder what this one is. I just do not know. Yes. This is my magic isn't it. Ah. That's what it is. This one. This one. This one. Five. Five. Now, you just want to say, will this work like when you get this instruction? Right? In the next one, what happens? So, next one will be forming blocks. So, it will form a instruction. It will form blocks. It will form blocks. It will form blocks. Yes. Like that. And in the end, it will come out. Yeah. That's what it is. Yes. That's what it is. Yeah. Yes. Okay. First, it will all be very complicated. Understood. Understood. So, that is the end of the program. Yeah. Yes. Ah. All the side, four members. This is the first time to move out. See, the shifting function is possible. It will connect number of fans you can use. Exactly. The only thing is. Sir, what about? Sir, what about? I'll say. It should be that side. No. How do you know? Sir, I... Last time, you thought about that. It should be the best. Ah. Obviously, that side. It's obviously. I... It's either high or low. I mean it's... Sir, what is the... Sir, for the... Sir, for the... What is the... Are you trying to know where? Which one? The bombs, bombs. You'll try this. Are you trying to know where? It's a chance, we say. You know, if I know that the... The chance you place in the hydrogen... Suppose it is not there. Yeah, it's not there. Okay, try now. It's the five-side. It's not... It's not... There are five-side. There are six things in total. Okay. What do you think? I think... You get this. Yeah. I think that's it. That's it, right? That's it, right? Can we have ring contractions possible here? Why? It's six to five. It's six to five. It's six to five. It won't happen. It won't happen. It won't happen. But in this... It won't happen. This is the... This is the... You'll be honest with me. In these two, they have backgrounding possible. Yeah, yeah. But... Right? So, we get one. And one hydrogen... Oxygen gets possible. Yes, because... So, that's basically... Yeah. Yeah. Yeah. Go ahead and do it. Okay. Now, this way, we'll have de-proliferation. Minus H plus will come out. Correct? This. So, let you do the modeling. See, it was one... Oh! Oh! This is... Oh! Understood? This is another thing. We'll form that... We'll form that... We'll make this kind of... Molybdenum is formed. It's not 25 minutes. So, what happened? The ego that has a... They can be your... Wait, what happened? See, what happened? The ego that has a... What happened? What happened? She comes out. So, then... So, the positive goes to one. For that positive... Here, we have... I'll do it from there. Okay. So, if a lot of hydrogen happens... to be in the carbon category... then it's not in place, right? That... Where? No, no, no. As it is... And the carbon category. So, it's not in place, right? Right. Right, this one. Is this possible? No, I don't understand. No, it's a... Why are you... This is... It's already lost state. It's already lost state. Oh, it is in this state. So, no reaction. So, can we have... We'll have a nice... We'll have a nice... We'll have a nice... Since... No, so, like that? With the oxygen acting as another... No, no, no. Dancing is the only possible... because of the hydrogen. So, okay. It's not gonna form a ring back. Oxygen will not get attracted to the oxygen, I say. The whole life can attack. The whole life can attack. The whole life can attack. You do one from a hydride shift. No, it's not. After this, again into the hydride shift. Yeah, then you will get... No, you only do one from a hydride shift. Sir, what I'm going to do is take it like this. You do this shift. This kind of a guy. This is... This is a step by step. Yes. That's why this is happening. So, but then now... the load wear possible is not going to attack the ring. No, there's no... There's no... There's no... Not a conduit. So, but then, since the ring is pretty big, the O is possible, then you will see that the O is possible and there's no... some possible charge. That's a... That's a different thing. You see this and this... Yeah, it'll come and then, the H plus will be from there. The H plus will be from there. Yeah, when you are now... Sir, it is a halogen box and it has a halogen mind. I think it is about this kind of mind. But this is why we are not thinking about it. Oh, it is there and it is over there. It is there and it is over there. So, usually this kind of remedy will ask them because you see, again this is one, two, three, four member remedy. So, if we had, say, three parts of the mind. Then it is possible depending upon the option you can do the whole thing. Sir, one more thing. He said, one halogen should. Only halogen. Yeah. One halogen should also be done. One halogen. Can we adapt the process? Sir, the process should be done. One halogen it can be more difficult. So that is the process. Where? From 9? From 9. That is 345. Sir, is this still for dancing? No. That is the show that I have got from this. That is the show that I will see how it is going. Capture, there isn't any reason why not. With this hole, we can add a circle. However, keep this movement. So, in this one, I have a shooting. This hole, which will be added? Make up also, like this. This is the scene that's going to be shot, right? So, this is one. We got... So, why is this? All of us in this one. Because it's not the same as before. What is that? It's not the same. It's not. It's just about... Why do we do this expansion contraction? To get more skill curve, right? Now, this circle will add a circle. So, this won't go under an integral function. Let's stop over here. But, there is no other in this molecule. Because there isn't really any thing. So, we are managing... In this? Really? Major problem. Okay? When is this possible? Whenever the... Okay, this is all right. Stuff like an escape. Right? So, oxygen can... Oxygen and nitrogen can snatch away the core. So, it's one more example. Suppose, what I do? I take this... Okay.