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For a reaction A+B to Products, the rate...

For a reaction A+B `to` Products, the rate law is -Rate = `k[A][B]^(3//2)`
Can the reaction be an elementary reaction? Explain.

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AI Generated Solution

To determine whether the reaction \( A + B \to \text{Products} \) with the rate law \( -\text{Rate} = k[A][B]^{3/2} \) can be classified as an elementary reaction, we will analyze the order of the reaction and the characteristics of elementary reactions. ### Step-by-Step Solution: 1. **Identify the Rate Law**: The given rate law is: \[ -\text{Rate} = k[A][B]^{3/2} \] ...
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DINESH PUBLICATION-CHEMICAL KINETICS-Short Answer type questions
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  7. For a reaction A+B to Products, the rate law is -Rate = k[A][B]^(3//2)...

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  8. for a certain reactions, large fractions of molecules has energy more ...

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  9. For a zero order reaction, will the molecularity be equal to zero? Exp...

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  10. For a general reaction AtoB. plot of concentrating of A vs time is giv...

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  12. Why does the rate of a reaction increase with rise in temperature?

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  13. Oxygen is available in plenty in air yet fuels do not burn by themselv...

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  15. Why does the rate of any reaction generally decrease during the course...

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  16. Thermodynamic feasibility of the reaction alone cannot decide the rate...

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  17. Why in the redox titration of KMnO(4) vs oxalic acid, we heat oxalic a...

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  18. Why can't molecularity of any reaction be equal to zero?

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  19. Why molecularity is applicable only for elementary reactions and order...

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