An organic reaction is occurring in a reactor. Only one chemical enters the reactor as a reactant and hydrogen gas escapes the reaction through an outlet.
Which option describes the type of reaction that can be occurring in the reactor?
1.condensation, because condensation reactions have only one reactant and a molecule such as hydrogen is released as a product during the reaction
2.addition, because addition reactions have only one reactant bonding with itself and addition involves releasing hydrogen gas as a product
3.elimination, because elimination reactions have only one reactant and a molecule such as hydrogen is released as a product during the reaction
4. combustion, because combustion reactions have only one reactant and combustion involves releasing hydrogen gas as a product
CH3-CH3 is ethane, and is an organic compound. If it were to enter the reactor, and H2 to would evolve as a dangerous explosive gas, the compound would be therefore ethene.
You want a description of the type of reaction occurring in the reactor? Well, if only one chemical enters as a reactant and hydrogen gas escapes through an outlet, it sounds like a perfect setup for a magic trick! I bet the reactant is transforming into something else, while the hydrogen gas is sneakily disappearing. So, let's go with option 3: elimination. Because who knows, maybe the hydrogen is just escaping to join a circus act or something. 🎪
The correct answer is 4. combustion, because combustion reactions have only one reactant and combustion involves releasing hydrogen gas as a product.
The correct option in this case would be 4. combustion, because combustion reactions typically involve a single reactant combining with oxygen to produce carbon dioxide and water, and hydrogen gas can be released as a product.
To identify the type of reaction occurring in the reactor, you can follow these steps:
1. Identify the reactants and products involved in the reaction.
2. Determine the general characteristics of different types of reactions.
3. Compare the reactants and products with the characteristics of each reaction type to find the most suitable match.
In this case, since only one chemical enters the reactor as a reactant and hydrogen gas escapes the reaction through an outlet, combustion is the most appropriate option.