For a reaction scheme A overset ( k 1...

For a reaction scheme` A overset ( k _ 1 ) to B overset ( k _ 2 ) to C ` , if the rate of formation of B is set to be zero then the concentration of B is given by :

` ( k _ 1 + k _ 2 ) [A] `

` k _ 1 k _2 [A] `

` ((k _ 1 ) /(k_2)) [A] `

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To solve the problem, we need to analyze the reaction scheme given: 1. **Identify the reactions**: - The first reaction is \( A \overset{k_1}{\rightarrow} B \). - The second reaction is \( B \overset{k_2}{\rightarrow} C \). 2. **Understanding the rate of formation of B**: - The rate of formation of B is influenced by its formation from A and its decomposition to C. ...

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For a reaction scheme` A overset ( k _ 1 ) to B overset ( k _ 2 ) to C ` , if the rate of formation of B is set to be zero then the concentration of B is given by :

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