Consider the following reaction in aqueous solution, Br^- (aq) + BrO_3^- (aq) + 6 H^+ (aq)...
Consider the following reaction in aqueous solution: 5 Br−(aq) + BrO3−(aq) + 6 H+(aq) ---> 3 Br2(aq) + 3 H2O(l) i) The equation that relates the rate expressions for this reaction in terms of the disappearance of Br−, BrO3− and the formation of Br2 and H2O is (Choose the correct letter.): NOTE: { } is being used to represent the molar concentration. A. R = -1/5{ Δ Br - }/ Δ t = -1/1{ Δ BrO 3- }/ Δ t...
Consider the following reaction in aqueous solution: 5Br- (aq) + BrO3- (aq) + 6H+ (aq) -----> 3Br2 (aq) + 3H2O (l) If the rate of disappearance of Br–(aq) at a particular moment during the reaction is 0.039 M s–1, what is the rate of the reaction. Report answer with four decimal places. (a) Answer the question in steps (b) Report final answer
For the following reaction: CH_3 OH(aq) + H^+ (aq) + Cl^- (aq) rightarrow CH_3Cl(aq) + H_2O(l) the value of [H^+] was measured over a period of time. Given the data, find the average rate of disappearance of H^+(aq) for the time interval between each measurement. What is the average rate of appearance of CH_3 CI(aq) for the same time intervals?
Consider the reaction of peroxydisulfate ion (S20;-) with iodide ion (I) in aqueous solution: S2O3- (aq) + 31- (aq) +250- (aq) +15 (aq). At a particular temperature the rate of disappearance of S20% varies with reactant concentrations in the following manner: 1 Experiment S20%- (M) I- (M) Initial Rate (M/s) 0.018 0.036 2.6 x 10-6 0.027 0.036 3.9 x 10-6 0.036 0.054 7.8 x 10-6 N 3 4 0.050 0.072 1.4 x 10-5 Part D What is the rate of...
Consider the reaction: 5 Br¯ (aq) + BrO3 ¯ (aq) + 6 H+ (aq) → 3 Br2 (l) + 3 H2O (l) The rate of the loss of BrO3 ¯ at a particular temperature is -8.45 x 10-3 M/s. a. Determine rate of loss of Br¯ . b. Determine the rate of loss of H+. ANSWER BOTH A AND B
In the following reaction in aqueous solution, the acid reactant is ___________ and the base reactant is ____________. HCOOH(aq) + H_2O (t)leftrightarrows HCOO^-(aq) + H_2O^+(aq) HCOOH;HCOO^- H_2O;HCOOH H_O;HCOO^- H_2O;H_3O^+ HCOOH;H_2O In the following reaction in aqueous solution, the acid reactant is ___________, and its conjugate base product is _____________. CH_3NH_2(aq) + HSO_4(Aq) leftrightarrows CH_3NH_2^+(Aq) + SO_4^2-(Aq) CH_3NH_2; CH_3NH_3^+ CH_3NH_2;SO_4^2- HSO_4^-;CH_3NH_3^+ HSO_4^-;SO_4^2- HSO_4^-;H_2O^+ Which one of the following is NOT a conjugate acid-base pair? NH_3 and NH_2^- HNO_3 and HNO_2 HI...
2. Consider the following generic reaction: 2 A+3 B C+D a. Define the reaction rate in terms of the relative rates of disappearance/appearance of each species in the equation. b. I rate of appearance of C is 1.20 0M s'at a particular instant, what rate is B disappearing at that instant? If A is disappearing at a rate of 2.90 x 10 Mst at a particular instant, at what rate is B disappearing at that instant? c.
[14.38] Consider the reaction of peroxydisulfate ion (S208) with io- dide ion (I) in aqueous solution: S20s (ag) +3I(ag)2 SO4 (ag) +I3 (aq) At a particular temperature the initial rate of disappearance of S2082 varies with reactant concentrations in the following manner Experiment [S208 ] (M UI M Initial Rate (M/s) 2 3 4 0.018 0.027 0.036 0.050 0.036 2.6 x 106 0.036 3.9 x 106 0.054 7.8 x 106 0.072 E4 105 (a) Determine the rate law for the...
Please answer D
Consider the reaction 5Br^- (aq) + BrO^-_3 (aq) + 6H^+ (aq) rightarrow 3Br_2(aq) + 3H_2O(l) The average rate of consumption of Br^- is 1 36.times 10^-4 M/s over the first, two minutes What is the average rate of forms of Br_2 during the same time interval? Express your answer with the appropriate units. What is the average rate of consumption of H^+ during the same time interval? Express your answer with the appropriate units.
The following reaction occurs in basic solution: Br2 (aq) → Br– (aq) + BrO3– (aq) Which of the following statements is/are correct? This equation describes the self-oxidation-reduction (disproportionation) reaction of bromine in water. The oxidation number of Br changes from 0 to –1 and 0 to +1 in the reduction and oxidation half reactions respectively. In the balanced equation the number of moles of OH– is twice the moles of Br2.