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![est rate law be r = k[ (10] Con Jb r = K[0.0679 C0031 n= k[ 0.029 Coolb &z= k[ 002ja Co.oggb Now, (a) d (clop- ] ar 0.0248 M/](http://img.homeworklib.com/questions/59e892b0-9308-11eb-a0df-a3b4b96507c6.png?x-oss-process=image/resize,w_560)
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8) Chlorine dioxide is a disinfectant used in municipal water-treatment plants. It dissolves in basic solution,...
Chlorine dioxide (ClO_2) is a disinfectant used in municipal water treatment plants. It dissolves in basic...
Chlorine dioxide (ClO_2) is a disinfectant used in municipal water treatment plants. It dissolves in basic solution, producing ClO_3^- and ClO_2: 2ClO_2 (g) + 2OH^-(aq) rightarrow ClO_3^-(aq) + ClO_2^- (aq) + H_2O(l) The following kinetic data were obtained at 350 K for the reaction: Choose the correct rate law for the reaction Choose one: Rate = k[ClO_2] Rate = k[ClO_2][OH^-]^2 Rate = k[ClO_2]^2[OH^-] Rate = k[ClO_2][OH^-] Determine the rate constant for the reaction at 350.0 K M^-1 s^-1
1. Chlorine dioxide, CIO2, is commonly used to disinfect drinking water. It is a mild oxidant,...
1. Chlorine dioxide, CIO2, is commonly used to disinfect drinking water. It is a mild oxidant, so it is great for killing bacteria during water treatment. When it dissolves in a slightly basic solution, the following reaction occurs: 2CIO2 (g) +2OH (a)CIO3 (a) CIO2 (aq)+ H20 (1) OH (M) Initial Rate (M s-1) CIO2], (M) Experiment 0.0248 0.060 0.030 0.020 0.00827 0.030 0.090 0.0247 0.020 0.00500 0.040 (a) Determine the rate law, rate constant, and overall order for this reaction...
Chlorine dioxide (ClO2) is used as a disinfectant in municipal water-treatment plants. It decomposes in a...
Chlorine dioxide (ClO2) is used as a disinfectant in municipal water-treatment plants. It decomposes in a second-order reaction with a rate constant of 0.078 M–1s–1. If the initial concentration were 0.101 M, what would the concentration be after 13.42 s has elapsed?
QUESTION 9 Use the following information for the reaction: 2 ClO 2(aq) + 2 OH -...
QUESTION 9 Use the following information for the reaction: 2 ClO 2(aq) + 2 OH - (aq) → ClO 3-(aq) + ClO 2-(aq) + H 2O(l) Experiment [ClO2] (mol/L) [OH- ] (mol/L) Initial Rate (mol/L-min) i 0.020 0.030 0.00276 ii 0.060 0.030 0.0248 iii 0.020 0.090 0.00828 By what nearest whole number factor does the initial rate change from experiment i to experiment ii? In the analysis of this data would it be useful to compare data for experiment ii...
Chlorine dioxide reacts in basic water to form chlorite and chlorate acfording to the following chemical...
Chlorine dioxide reacts in basic water to form chlorite and chlorate acfording to the following chemical equation 2C102(aq) + 2OH(aq) + CO2(aq) + C103"(aq) H2O(1) A kinetic study of this reaction under a certain set of conditions yielded the data below Exp |CIO 2 (M) TOH) (M) Initial rate (W) 11 0.0500 0.100 5.75 X 10-2 2 0.100 0.100 2.30 x 10-1 3 0.100 0.0500 1.15 x 10-1 (a) While the rate law for this reaction (b) Calculate the rate...
Chlorine dioxide (ClO_2) is a disinfectant used in municipal water treatment plants. It dissolves in basic solution, producing ClO_3^- and ClO_2: 2ClO_2 (g) + 2OH^-(aq) rightarrow ClO_3^-(aq) + ClO_2^- (aq) + H_2O(l) The following kinetic data were obtained at 350 K for the reaction: Choose the correct rate law for the reaction Choose one: Rate = k[ClO_2] Rate = k[ClO_2][OH^-]^2 Rate = k[ClO_2]^2[OH^-] Rate = k[ClO_2][OH^-] Determine the rate constant for the reaction at 350.0 K M^-1 s^-1
1. Chlorine dioxide, CIO2, is commonly used to disinfect drinking water. It is a mild oxidant, so it is great for killing bacteria during water treatment. When it dissolves in a slightly basic solution, the following reaction occurs: 2CIO2 (g) +2OH (a)CIO3 (a) CIO2 (aq)+ H20 (1) OH (M) Initial Rate (M s-1) CIO2], (M) Experiment 0.0248 0.060 0.030 0.020 0.00827 0.030 0.090 0.0247 0.020 0.00500 0.040 (a) Determine the rate law, rate constant, and overall order for this reaction...
Chlorine dioxide reacts in basic water to form chlorite and chlorate acfording to the following chemical equation 2C102(aq) + 2OH(aq) + CO2(aq) + C103"(aq) H2O(1) A kinetic study of this reaction under a certain set of conditions yielded the data below Exp |CIO 2 (M) TOH) (M) Initial rate (W) 11 0.0500 0.100 5.75 X 10-2 2 0.100 0.100 2.30 x 10-1 3 0.100 0.0500 1.15 x 10-1 (a) While the rate law for this reaction (b) Calculate the rate...
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