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Rate law for a reaction between A and B is given by R = k[A]^n[B]^m. If concentration of A is doubled and concentration of B is halved from their initial value, the ratio of new rate of reaction to the initial rate of reaction left(fracr_2r_1 ight) is:

Solution & Explanation

### Related Formula r = k [A]^n [B]^m ### Core Logic Let the initial rate relation be: r_1 = k [A]^n [B]^m When concentration parameters shift ([A]' = 2[A] and [B]' = frac[B]2): r_2 = k (2[A])^n left(frac[B]2right)^m = k cdot 2^n [A]^n cdot 2^-m [B]^m r_2 = 2^(n-m) cdot left(k [A]^n [B]^mright) = 2^(n-m) cdot r_1 Taking the ratio yields: fracr_2r_1 = 2^(n-m) ### Pattern Recognition Powers simplify cleanly via exponent rules: doubling a base scales the expression by 2^n, while halving scales it by 2^-m. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Chemical Kinetics

Reference Study Guides

More Chemical Kinetics Previous-Year Questions — Page 5

Q39 2025 Reaction Mechanism and Rate Law
The reaction mathrmA_2 + mathrmB_2 ightarrow 2 AB follows the mechanism mathrm A _ 2 xrightarrow [ mathrm k _ - 1 ]mathrm k _ 1 mathrm A + mathrm A text (fast) mathrm A + mathrm B _ 2 xrightarrow mathrm k _ 2 mathrm A B + mathrm B text (slow) mathrm A + mathrm B ightarrow mathrm A B text (fast) The overall order of the reaction is :
  • A. 1.5
  • B. 3
  • C. 2.5
  • D. 2

Solution

### Related Formula textRate = k cdot [textReactants]^textorder ### Core Logic The slowest elementary step controls the net kinetic pathway rate law : textRate = k_2[mathrmA][mathrmB2] quad dots textEquation (1) Since [mathrmA] behaves as a transient intermediate species, replace it using the prior fast equilibrium step : frack_1k-1 = frac[mathrmA]^2[mathrmA2] implies [mathrmA]^2 = left(frack_1k-1 ight) [mathrmA2] [mathrmA] = sqrtfrack_1k-1 cdot [mathrmA2]^1/2 Substitute [mathrmA] back into Equation (1) : textRate = k_2 sqrtfrack_1k-1 cdot [mathrmA2]^1/2[mathrmB2] Sum of powers determining overall order: textOrder = frac12 + 1 = 1.5 Hence, Option (1) is correct. ### Pattern Recognition Whenever a fast initial step dissociates a molecule into matching independent halves, it always injects a fractional order component of 0.5 relative to that parent species. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Chemical Kinetics

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