 So in this one more thing, two sigma bonds, two sigma bonds, one and five. Just one, two, three, four, are there, aren't we as a standard nation? No, it's just a combination. Yes. So yeah. No, see when bonds are very large energy, I guess when bonds are large energy, it is not. So that will actually come out. No, I don't think so. Are these the sigma bonds that are there? Yeah, they are the more and more. So the more and more bonds are there. We say the same thing, but we say the same thing. We say, what kind of energy do we want? That's kind of the energy we want. What's the power of energy we want? Okay, we're breaking for two. No, we're breaking for two. Yes, some of them are actually two big bonds. Yes, some of them are actually two big bonds. Yes, some of them are actually two big bonds. No. Two sigma bonds. Five. Sigma is going to take you to five. Sigma is going to take you to five. Sigma is going to take you to six. Sixth one. What is the endography of this reaction? Endography is no change in the concentration of acids. So mathematically, where do we step? It is not consuming the reaction. Yeah, this concentration of acid composition. Right here is there. This right here, you know. So our current concentration of acid. This is the first time you're doing this. The formation depends upon the stability of the car to the hand. Forms in the first step. Forms in the first step. Forms in the first step. What do you suppose to do? What do you suppose to do? What do you suppose to do? Dance. Oh, okay. Yeah, these ones work. These ones work. The number is only one. The number is only one. That is first one. So first is the third one. That is second and second one. Third is the last one. As soon as you last. Yeah. Excuse me. Excuse me. Excuse me. Yes, sir. What is that? Chest. Chest. 3 to 1, 4. 3 to 1, 4. Yeah. 1, 4. Can't do it. So we are here, sir. We have to do it. We have to do it. We have to do it. That's what we want to do. That's what we want to do. One more thing we have to discuss. All those questions we will see. Suppose we have to draw an energy. Oh, so we are highlighting. So first, Drawing, drawing, drawing. Yeah, it's very common in the area. Yeah. If possible, you have to do that. Yeah. So it's a bi-chain. It's a bi-chain. It's not big. I want to show you one. What else? What else? So we drew a product. What's that in your bowl? Like this. What else? What else? What else? What else? So when you first draw What else would be the formation of that OH2? Try it. You'll see it. You'll see it. OH2. It's simple for me. I forgot to write it over there. It is oxonium ion. Oxonium ion. Oxonium ion. Oxonium ion. Okay, it's H2. And formation of? We will use the H2. So it's not H2. It's H2. Right? Last step. It's H2. It's H2. H2. H2. H2. H2. H2. Which one is it? H2. So we have both H2. We have both zygithem and Huffman in our... This is the right thing to try. See first of all what happens? This is steps. Which one? This forms an active ion. This one. And then in this one it's only a ion. Which one is more stable? Right? This will go up. Then it will come down again. Then it will come down. And then again it goes up. And come down. This is a C1. And this is a C2. Since that's a very specific step. Shouldn't the energy value be much higher? Shouldn't C2 be much higher? This C2. It should be. C2 is lower than the first component. Sir, C2 is lower than the first component. No, no. That's why it is... That's the reason it's lower. That's the reason it takes. It takes like a half. It's like a half. It is slightly lower. See what? This is slow assistant. And this gap, this energy. This is the reactor. This is one step from here to here. Is it clear? From slow assistant. Progressive reaction. It takes a lot of time for it to happen. It takes a lot of time for it to happen. It takes a lot of time for it to happen. Right? The first step, which one is the slow assistant? The one which has more than energy value. This is the slowest step that's all. No. Sir, and this is the energy profile of C2. Sir, and this is the energy profile of C2. Charged species will be a lot. Let's just say some yarn. Let's just say some yarn. These two will be slightly higher. And this C1. This is the slowest step. The slowest step. See what you want. See what you want. How many steps we have? Four. Steps one point. What are the steps? The steps is in volume. If the cube takes place. It's only if it takes place. The other way is the opposite. The other way is the opposite. It's only if it takes place.