Fill in the blanks for the following reaction:
H3AsO4(aq) + 2 H+(aq) + 3I-(aq) → H3AsO3(aq) + I3-(aq) + H2O(l)
a) Δ[?3???4]/Δ[?] =______Δ[?+] /Δ[?]
b) Δ[?3???4]/Δ[?] =______Δ[?−] /Δ[?]
In general for a reaction of the type
aA + bB +....................... = lL + mM + ...........
The rate of the reaction is given by as follows
Fill in the blanks for the following reaction: H3AsO4(aq) + 2 H+(aq) + 3I-(aq) → H3AsO3(aq)...
C2 T13HW Question 3 Homework Unanswered Fill in the Blanks Balance the following redox reaction and then fill in the blanks below: MnO (aq)+-Fe (s) + _H*(aq) - _Fe2 (aq) +Mn2 (aq) + _H2O (l) The coefficient in front of MnO (aq) is The coefficient in front of Fe(s) is The coefficient in front of H (aq) is The coefficient in front of Fe2 (aq) is The coefficient in front of Mn2 (aq) is The coefficient in front of H2O(aq)...
Consider the balanced chemical equation. H2O2(aq)+3I−(aq)+2H+(aq)→I3−(aq)+2H2O(l) In the first 14.0 s of the reaction, the concentration of I− drops from 1.000 M to 0.817 M Predict the rate of change in the concentration of H2O2 (Δ[H2O2]/Δt). Express the rate to three significant figures and include the appropriate units. (I understand the arithmetic, but I'm having a tough time with the units)
For the reaction 2Fe3+ + 3I− ⇆ 2Fe2+ + I3− (all aq); The initial concentrations of Fe3+ and I− are each 0.300 mol/L. The equilibrium concentration of Fe2+ is 0.16 mol/L. Calculate the equilibrium constant, Kc, for this reaction.
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...
C2 T13HW Question 3 Homework - Unanswered Fill in the Blanks Balance the following redox reaction and then fill in the blanks below: _Mn0, (aq) +_Fe(s)+_H(aq) → _Fe? (aq) + _Mn? (aq) +_H2O(1) The coefficient in front of MnO, (aq) is The coefficient in front of Fe(s) is The coefficient in front of H aqlis The coefficient in front of Fe? (aq) is The coefficient in front of Mn?'(aq) is The coefficient in front of H2O(aqlis The total number of...
Balance the following reaction using the lowest possible whole number coefficients, in acidic conditions. (Enter coefficients for one and zero- blanks will be marked incorrect.) HBrO(aq) + HAsO2(aq) + H+(aq) + H2O(l) + OH−(aq) → Br−(aq) + H3AsO4(aq) + H+(aq) + H2O(l) + OH−(aq)
Piece #1 (1/2 pt) Consider the following reaction (unbalanced): MnO2 (s) + H3AsO3(aq) -Mn²+ (aq) + H2AsO(aq) Split the reaction into two half-reactions. Oxidation half reaction: H:AsO3(aq) → H3 AsO, (aq) Reduction half reaction: MnO2 (s) Mn (aq) Piece #2 (1/2 pt) Consider the following half-reaction: MnOz(s) - Mn2+ (aq) Balance everything but oxygen and hydrogen atoms. MnO2 (s) + 2e Mn (aq) Piece W3 (1/2 pu) Take your answer to Piece #2 and balance the oxygen by adding a...
7) The reaction of peroxydisulfate ion (S2O82−) with iodide ion (I−) is S2O82−(aq) + 3I−(aq) → 2SO42−(aq) + I3−(aq) From the following data collected at a certain temperature, determine the rate law and calculate the rate constant. Experiment [S2O82−](M) [I−](M) Initial Rate [M/s] 1 0.0200 0.0960 7.60 × 10−4 2 0.0200 0.0480 3.80 × 10−4 3 0.0400 0.0480 7.60 × 10−4 (a) Which of the following equations represents the rate law for this reaction? A. rate = k[S2O82−][I−] . ...
The following reaction occurs in acidic solution: As(s) + ClO3-(aq) → H3AsO4(aq)+ HOCl(aq) When this equation is balanced, a correct set of coefficient is: As, ClO3-, H+ A. 4,5,5 B. 4,4,5 C. 5,5,4 D. 4,5,6 E. 5,4,5
S2O8^-2(aq)+3I^-(aq)--2SO4^-2(aq)+I3^-(aq) S2O8^-2. I^- rate 0.018M. 0.018M. 2.6*10^-6 0.018M. 0.036M. 5.3*10^-6 0.072M. 0.036M. 2.12*10^-5 a. write the rate law for this reaction including the reaction order for each reactant b. calculate the value of k c. calculate the Rate of the concentration when [S2O8^-2]= 0.2500M and [I]= 0.120M