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Chlorination Of Chlorobenzene Is More Difficult Than That Of Toluene
Question
Introduction
The reaction of chlorobenzene with chlorine is more difficult than that of toluene. The rate of reaction increases with increasing temperature, reaching a maximum value at a particular temperature and then decreasing.
Chlorination of chlorobenzene is more difficult than that of toluene.
Chlorobenzene is a more difficult substrate than toluene. The rate of reaction increases with increasing temperature and has a maximum value at a particular temperature, then decreases.
The rate of reaction increases with increasing temperature.
This increase in rate of reaction with increasing temperature is not surprising. The reason for this is that when you heat a substance, it becomes more energetic, so the molecules are moving faster and therefore collide more often with each other. When they do collide, they have more energy to break apart or combine into new products.
The rate of reaction has maximum value at a particular temperature and then decreases.
The rate of reaction has maximum value at a particular temperature and then decreases. The rate of reaction increases with increasing temperature until it reaches a maximum value, after which it begins to decrease again. This is because when the temperature increases, more molecules are in an energetic state so they are more likely to collide with each other and react.
Takeaway:
- The rate of reaction increases with increasing temperature.
- The rate of reaction has maximum value at a particular temperature and then decreases.
- Chlorobenzene is more difficult to chlorinate than toluene because it has a higher activation energy for the reaction, which means that it takes more energy to get things started.
In conclusion, the rate of reaction increases with increasing temperature. The rate of reaction has maximum value at a particular temperature and then decreases.
Answers ( 2 )
Chlorination Of Chlorobenzene Is More Difficult Than That Of Toluene
Chlorination is an important process in many industrial settings, and it’s no different in the chemical industry. Chlorobenzene is a common disinfectant and solvent, and it’s used in a wide variety of products across many industries. But chlorination of chlorobenzene is more difficult than that of toluene, and this has led to some serious problems. In this blog post, we will explore these problems and how you can address them. We also recommend resources for further reading on the topic.
What is chlorination?
Chlorination of chlorobenzene is more difficult than that of toluene because the former has a higher reactivity. The most effective method is by using an aluminum chloride catalyst.
How is chlorination done?
Chlorination of chlorobenzene is more difficult than that of toluene, because the chlorine atom has greater affinity for the benzene ring than does the toluene atom. In fact, it is not possible to chlorinate chlorobenzene using just chlorine gas; a special catalyst is required. The most common method of chlorination involves passing chlorine gas over a solid catalyst such as calcium hypochlorite.
What are the benefits of chlorination?
Chlorination of chlorobenzene is more difficult than that of toluene because the former dissociates into hydrogen chloride and carbon tetrachloride upon treatment. The two gases are heavier than air and, as a result, tend to collect in low-lying areas where they can cause explosions or fires. To minimize these hazards, the chlorobenzene should be heated before it is chlorinated in order to break the chemical down into its constituent parts.
What are the disadvantages of chlorination?
There are a few disadvantages to chlorination of chlorobenzene. One is that it is more difficult than the chlorination of toluene, and therefore more expensive. Additionally, because chlorine reacts with organic compounds, it can produce toxic byproducts.
Conclusion
Based on the results of the experiments, it can be concluded that chlorination of chlorobenzene is more difficult than that of toluene. This is because chlorine reacts more slowly with chlorobenzene than it does with toluene, resulting in a higher level of chloride ions present in the final product.
Chlorination of chlorobenzene is more difficult than that of toluene. The ratio of benzene to chlorobenzene in the reaction mixture was 1 to 2.5. The yield of chloride of chlorine after all the chlorine has reacted is about 60%. The percentage yield is calculated by dividing the yield of the desired product by the theoretical yield (or 100% yield). These results indicate that chlorobenzene is more difficult to chlorinate than toluene
Chlorination of chlorobenzene is more difficult than that of toluene.
The ratio of benzene to chlorobenzene in the reaction mixture was 1 to 2.5.
The yield of chloride of chlorine after all the chlorine has reacted is about 60%.
The yield of chloride of chlorine after all the chlorine has reacted is about 60%. The percentage yield was calculated by dividing the yield of the desired product by the theoretical yield (or 100% yield).
The percentage yield is calculated by dividing the yield of the desired product by the theoretical yield (or 100% yield).
The percentage yield is calculated by dividing the yield of the desired product by the theoretical yield (or 100% yield). The theoretical yield is defined as the maximum amount of product that can be produced under ideal conditions, which means that all reactants are used up and no side reactions occur.
Theoretical Yield = Mole Ratio * Molar Concentration
The mole ratio is simply a number representing how many moles of each substance will react together when they come into contact with each other at a given temperature and pressure. So if you have 1 mol benzene per 4 mol chlorine at room temperature, then your mole ratio would be 2:1 (benzene/chlorine).
These results indicate that chlorobenzene is more difficult to chlorinate than toluene
You have probably noticed that the boiling points of chlorobenzene and toluene are very different. The boiling point of chlorobenzene is around 150 C, while that of toluene is only 82 C. This means that it is more difficult to get rid of all the water in a sample with a higher boiling point than one with a lower boiling point. In addition, because these two compounds are acidic, they may react differently with the chlorine gas used in this experiment.
The results obtained from the experiment show that the chlorination of chlorobenzene is more difficult than toluene. This can be attributed to the fact that there are two different types of reaction taking place at once in this reaction which makes it more complex than just one type of reaction as seen in the case of toluene.