In acidic solution, the iodate ion can be used to react with a number of metal...

In acidic solution, bromate ion can be used to react with a number of metal ions....

In acidic solution, bromate ion can be used to react with a number of metal ions. One such reaction is BrO3−(aq)+Sn2+(aq)→Br−(aq)+Sn4+(aq) Since this reaction takes place in acidic solution, H2O(l) and H+(aq) will be involved in the reaction. Places for these species are indicated by the blanks in the following restatement of the equation: BrO3−(aq)+Sn2+(aq)+     −−−→Br−(aq)+Sn4+(aq)+     −−− What are the coefficients of the six species in the balanced equation above? Remember to include coefficients for H2O(l) and H+(aq) in the appropriate blanks....

Potassium permanganate, KMnO4, is a powerful oxidizing agent. The products of a given redox reaction with...

Potassium permanganate, KMnO4, is a powerful oxidizing agent. The products of a given redox reaction with the permanganate ion depend on the reaction conditions used. In basic solution, the following equation represents the reaction of this ion with a solution containing sodium sulfite: MnO4−(aq)+SO32−(aq)→MnO2(s)+SO42−(aq) Since this reaction takes place in basic solution, H2O(l) and OH−(aq) will be shown in the reaction. Places for these species are indicated by the blanks in the following restatement of the equation: MnO4−(aq)+SO32−(aq)+     −−−→MnO2(s)+SO42−(aq)+     −−− Part B...

Triiodide ions are generated in solution by the following reaction in acidic solution: 6H+ +IO3-(Aq) +8I-(Aq)...

Triiodide ions are generated in solution by the following reaction in acidic solution: 6H+ +IO3-(Aq) +8I-(Aq) > 3I3-(Aq) +3H20 Triiodide ion is determined by titration with a sodium thiosulfate(Na2S2O3) solution. The products are iodide ion and tetrathionate ion (S4O6 -2) A sample of 0.6013g of potassium iodate was dissolved in water. Solid potassium iodide was then added in excess. What is the minimum volume of 3.00M HCl required to convert all of the IO3- ions to I3- ions?

± pH and Kinetics The iodate ion, IO3−, is reduced by sulfite, SO32−, according to the...

± pH and Kinetics The iodate ion, IO3−, is reduced by sulfite, SO32−, according to the following net ionic equation: IO3−(aq)+3SO32−(aq)→I−(aq)+3SO42−(aq) Part A The reaction is found to be first order in IO3−, first order in SO32−, and first order in H+. If [IO3−]=x, [SO32−]=y, and [H+]=z, what is the rate law for the reaction in terms of x, y, and z and the rate constant k? Express the rate in terms of k, x, y, and z (e.g., kxy^3z^2)....

1) What does it mean to be a reducing agent? What ion does vitamin C reduce...

1) What does it mean to be a reducing agent? What ion does vitamin C reduce in this experiment? Explain your answer using the oxidation numbers. b) If you look at the chemical reaction for this experiment, sodium bicarbonate is not a part of the reaction. If so, why do we need to add sodium bicarbonate during the analysis of vitamin C? Explain your answer using balanced chemical equation c) Identify the oxidizing agent in chemical equation (i) from the...

Balance the following redox reaction in acidic solution using the half-reaction method, with smallest whole-number coefficients....

Balance the following redox reaction in acidic solution using the half-reaction method, with smallest whole-number coefficients. MnO4−(aq) + S2O32−(aq) → Mn2+(aq) + SO42−(aq) _____ MnO4−(aq) + _____ S2O32−(aq) + _____ H+(aq) → _____ Mn2+(aq) + _____ SO42−(aq) + _____ H2O(l)

Balance each of the following by the ion-electron method. All are in acidic solution. Do not...

Balance each of the following by the ion-electron method. All are in acidic solution. Do not include states.             Mn2+ + BiO3¯ + H+   ____    MnO4¯ + Bi3+ + H2O             IO3¯ + SO2 + H2O _____ I2 + SO42¯ + H+             Se + BrO3¯ + H2O ________ H2SeO3 + Br¯             P4+ HClO + H2O ________ H3PO4 + Cl¯ + H+             Al + Cr2O72¯ + H+ ______ Al3+ + Cr3+ + H2O             ClO3¯ + I¯ +...

Match the redox equation with the number and location of water molecules that appear in the...

Match the redox equation with the number and location of water molecules that appear in the equation when it is correctly balanced. -A.B.C.D.E.F.G.H.I.J. Fe+2 (aq) + H2O2 (aq) --> Fe+3 (aq) in acidic solution -A.B.C.D.E.F.G.H.I.J. Cl2 (aq) --> ClO3- (aq) + Cl- in acidic solution -A.B.C.D.E.F.G.H.I.J. Sn (s) + NO3- (aq) --> Sn+2 (aq) + NO (g) in acidic solution -A.B.C.D.E.F.G.H.I.J. Ag (s) + HS- (aq) + CrO4-2 (aq) --> Ag2S (s) + Cr(OH)3 (s) in basic solution A. 3...

The concentration of an aqueous solution of NaOCl (sodium hypochlorite; the active ingredient in household bleach)...

The concentration of an aqueous solution of NaOCl (sodium hypochlorite; the active ingredient in household bleach) can be determined by a redox titration with iodide ion in acidic solution: OCl−(aq)+2I−(aq)+2H+(aq)→Cl−(aq)+I2(aq)+H2O(l) . Assume that the blue spheres in the buret represent I− ions, the red spheres in the flask represent OCl- ions, the concentration of the I−I− ions in the buret is 0.175 MM , and the volumes in the buret and the flask are identical. A) What is the concentration...

Balance the following oxidation-reduction reactions, which occur in acidic solution, using the half-reaction method. (Use the...

Balance the following oxidation-reduction reactions, which occur in acidic solution, using the half-reaction method. (Use the lowest possible coefficients. Include states-of-matter under the given conditions in your answer.) (a) O2(g) + Pb(s) → H2O(l) + Pb2+(aq) (b) NO3−(aq) + Sn(s) → NO(g) + Sn2+(aq) (c) Cl2(g) + Cr3+(aq) → Cl −(aq) + Cr2O72−(aq) (d) F2(g) + Mn2+(aq) → F −(aq) + MnO4−(aq)