Home
Class 12
CHEMISTRY
From the rate laws for the reactions giv...

From the rate laws for the reactions given below, determine the order with respect to each species and the overall order:
`underset("Rate ="k[H_2O_2][I^(-)])(H_2O_2 + 2I^(-)+ 2H^(+) to I_2+ 2H_2O)`

Text Solution

AI Generated Solution

To determine the order of the reaction with respect to each species and the overall order from the given rate law, we can follow these steps: ### Step 1: Identify the Rate Law The rate law for the reaction is given as: \[ \text{Rate} = k[H_2O_2][I^-] \] ### Step 2: Determine the Order with Respect to Each Species From the rate law, we can see how the rate of the reaction depends on the concentrations of the reactants: ...
Promotional Banner

Similar Questions

Explore conceptually related problems

From the rate laws for the reactions given below, determine order with order to each species and the overall order: 2HCrO_(4)^(ɵ) + 6l^(ɵ) + 14H^(o+) rarr 2Cr^(3+) + 3I_(2) + 8H_(2)O Rate = k[HCrO_(4)^(ɵ) ][I^(ɵ) ]^(2) [H^(o+)]^(2)

From the rate expression for the following reactions, determine their order of reaction and dimensions of the rate constants. a. 3NO(g) rarr N_(2)O(g), Rate =k[NO]^(2) b. H_(2)O_(2)(aq)+3I^(-)(aq)+2H^(o+) rarr 2H_(2)O(l)+I_(3)^(-), Rate =k[H_(2)O_(2)][I^(-)] c. CH_(3)CHO(g)rarr CH_(4)(g)+CO(g), Rate =k[CH_(3)CHO]^(3//2) d. C_(2)H_(5)Cl(g) rarr C_(2)H_(4)(g)+HCl(g), Rate k[C_(2)H_(5)Cl]

The difference rate law for the reaction H_(2) +I_(2) to 2HI is

For the reaction : H_(2)+I_(2)to 2HI, the differential rate law is

Give the number of electrons in the species H_2^+. H_2, and O_(2)^+ .

For the reaction: 2H_2 + 2NO Calculate the following: (1) The overall order of reaction. (2) The rate law. (3) The value of rate constant (k).

Consider the reaction : 2H_(2)(g)+2NO(g)rarrN_(2)(g)+2H_(2)(g) The rate law for this reaction is : Rate = k[H_(2)][NO]^(2) Under what conditions could these steps represent mechanism? {:("Step 1:",2NO(g)hArrN_(2)O_(2)(g)),("Step 2:",N_(2)O_(2)+H_(2)rarrN_(2)O+H_(2)O),("Step 3:",N_(2)O+H_(2)rarrH_(2)O+N_(2)):}

Balance the following equation : Kl + H_(2)SO_(4) + H_(2)O_(2) to K_(2)SO_(4) + I_(2) + H_(2)O

The correct order of O - O bond length in O_(2)H_(2)O_(2) and O_(3) is

Complete the following reactions (i) O_(2)^(2-)+H_(2)O rarr (ii) O_(2)^(-) +H_(2)O rarr