Welcome to Westonci.ca, the ultimate question and answer platform. Get expert answers to your questions quickly and accurately. Experience the ease of finding quick and accurate answers to your questions from professionals on our platform. Get detailed and accurate answers to your questions from a dedicated community of experts on our Q&A platform.
Sagot :
To classify the given chemical reaction [tex]\( AB + C \rightarrow CB + A \)[/tex], we need to identify the type of reaction taking place. Let's analyze the components:
1. Initial State (Reactants):
- We start with AB (a compound) and C (an element).
2. Final State (Products):
- After the reaction, we obtain CB (a new compound) and A (an element).
Observing this exchange, we can see that the element C displaces A in the compound AB to form CB and free element A. This type of reaction involves one element being replaced by another in a compound.
The correct term for this type of reaction is a replacement reaction (also known as a single displacement reaction). Here, one element (C) replaces another element (A) in the compound (AB), leading to the formation of CB and A.
Based on the provided options:
- Synthesis: This involves combining two or more substances to form a more complex product. This does not match the reaction type.
- Polymerization: This involves combining small molecules to form a polymer. This does not match the reaction type.
- Decomposition: This involves breaking down a compound into two or more simpler substances. This does not match the reaction type.
- Oxidation: This involves the transfer of electrons and changes in oxidation states, often involving oxygen. This does not match the reaction type.
- Replacement: This involves an element displacing another element in a compound, which perfectly matches the reaction described.
Therefore, the given chemical reaction [tex]\( AB + C \rightarrow CB + A \)[/tex] is best classified as a replacement reaction.
1. Initial State (Reactants):
- We start with AB (a compound) and C (an element).
2. Final State (Products):
- After the reaction, we obtain CB (a new compound) and A (an element).
Observing this exchange, we can see that the element C displaces A in the compound AB to form CB and free element A. This type of reaction involves one element being replaced by another in a compound.
The correct term for this type of reaction is a replacement reaction (also known as a single displacement reaction). Here, one element (C) replaces another element (A) in the compound (AB), leading to the formation of CB and A.
Based on the provided options:
- Synthesis: This involves combining two or more substances to form a more complex product. This does not match the reaction type.
- Polymerization: This involves combining small molecules to form a polymer. This does not match the reaction type.
- Decomposition: This involves breaking down a compound into two or more simpler substances. This does not match the reaction type.
- Oxidation: This involves the transfer of electrons and changes in oxidation states, often involving oxygen. This does not match the reaction type.
- Replacement: This involves an element displacing another element in a compound, which perfectly matches the reaction described.
Therefore, the given chemical reaction [tex]\( AB + C \rightarrow CB + A \)[/tex] is best classified as a replacement reaction.
Thank you for choosing our service. We're dedicated to providing the best answers for all your questions. Visit us again. Thanks for using our platform. We aim to provide accurate and up-to-date answers to all your queries. Come back soon. We're glad you chose Westonci.ca. Revisit us for updated answers from our knowledgeable team.