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)`

From the rate laws for the reactions given below, determine the order with respect to each species and the overall order: underset("Rate = "k[HCrO_4^(-)][I^(-)]^2[H^(+)]^2)(2HCrO_4^(-) + 6I^(-) + 14 H^(+) to 2Cr^(3+) + 3I_2 + 8H_2O)

From the rate laws for the reactions given below, determine order with order to each species and the overall order: (a) 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) (b) H_(2)O_(2) + 2I^(ɵ) +2H^(o+) rarr I_(2)+2H_(2)O Rate = k[H_(2)O_(2)] [I^(ɵ) ]

From the rater 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^(c-)(aq)+2H^(o+) rarr 2H_(2)O(l)+I_(3)^(c-), Rate =k[H_(2)O_(2)][I^(c-)] 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]

From the rate expression for the following reactions determines the order of reaction and the dimensions of the rate constant. a) 3NO(g) to N_(2)O(g) + NO_(2)(g) , Rate =k[NO]^(2) b) H_(2)O_(2)(aq) + 3I^(-)(aq) + 2H^(+)(aq) to 2H_(2)O(l) + I_(3)^(-) , Rate = [H_(2)O_(2)][I^(-)] c) CH_(3)CHO(g) to CH_(4)(g) + CO(g) : Rate = k[CH_(3)CHO]^(3//2) d) CHCl_(3)(g) to Cl_(4)(g) + HCl(g) : Rate = k[CHCl_(3)][Cl_(2)]^(1//2) e) C_(2)H_(5)Cl(g) to 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

Express the relationship between the rate of production of water and the rate of disappearance of oxygen in the reaction : 2" H"_(2)+"O"_(2) to 2H_(2)O

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

From the expression of the following reactions, determine order of reaction and the dimensions of the rate constant. (i) 3NO(g)rarrN_2O(g)+NO_2(g) " Rate"=k[NO]^2 (ii) H_2O_2(aq)+3l^(-)(aq)+2H^+rarr2H_2O(l)+l_3^(-)" Rate"= k[H_2O_2][l] (iii) CH_3CHO(g) rarrCH_4(g)+CO(g)+CO(g)" Rate" =k[CH_3CHO]^(3//2) (iv) C_2H_5Cl(g)rarrC_2H_4(g)+HCl(g)" Rate"=k[C_2H_5Cl]