I Review I Constants I Periodic Table In addition to mass balance, oxidation-reduction reactions must be balanced such that the number Acidic solution of electrons lost in the oxidation equals the number of electrons gained in the reduction. This balancing can be done by two methods: the half-reaction In acidic solution, the iodate ion can be used to react with a number of metal ions. One such reaction is IO3 (aq) + Sn²+ (aq)→I¯(aq)+ Sn*+ (aq) method or the oxidation number method. The half- reaction method balances the electrons lost in the Since this reaction takes place in acidic solution, H2O(1) and H (aq) will be involved in the reaction. Places oxidation half-reaction with the electrons gained in the reduction half-reaction. In either method for these species are indicated by the blanks in the following restatement of the equation: H2O(1), OH-(aq), and H+ (aq) may be added IO3 (aq) + Sn2+(aq) +_→I-(aq) + Snt+ (aq) + to complete the mass balance. Which substances are used depends on the reaction conditions. Part A What are the coefficients of the reactants and products in the balanced equation above? Remember to include H2O(1) and H* (aq) in the appropriate blanks. Your answer should have six terms. Enter the equation coefficients in order separated by commas (e.g., 2,2,1,4,4,3). Include coefficients of 1, as required, for grading purposes. • View Available Hint(s) Submit Basic solution 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 fluoride: MnO4 (aq) + F (aq)→MnO2 (s)+F2 (aq)

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11:23 Mon May 3 Done < AA A session.masteringchemistry.com <Problem Set #9 (Ch 19) Adaptive Follow-Up Balancing Redox Equations: Half-reaction Method Item 4 I Review I Constants I Periodic Table In addition to mass balance, oxidation-reduction reactions must be balanced such that the number Acidic solution of electrons lost in the oxidation equals the number of electrons gained in the reduction. This balancing can be done by two methods: the half-reaction In acidic solution, the iodate ion can be used to react with a number of metal ions. One such reaction is method or the oxidation number method. The half- IO3 (aq) + Sn²+(aq)→I¯(aq)+Snª+(aq) reaction method balances the electrons lost in the oxidation half-reaction with the electrons gained in the reduction half-reaction. In either method H2O(1), OH-(aq), and H+ (aq) may be added Since this reaction takes place in acidic solution, H2O(1) 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: I03 (aq) + Sn²+ (aq) +_→I¯(aq) + Snª+ (aq) + to complete the mass balance. Which substances are used depends on the reaction conditions. Part A What are the coefficients of the reactants and products in the balanced equation above? Remember to include H2O(1) and H* (aq) in the appropriate blanks. Your answer should have six terms. Enter the equation coefficients in order separated by commas (e.g., 2,2,1,4,4,3). Include coefficients of 1, as required, for grading purposes. • View Available Hint(s) Submit Basic solution 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 fluoride: MnO4 (aq) + F (aq)→MnO2(s)+F2(aq)

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11:23 Mon May 3 Done < AA A session.masteringchemistry.com <Problem Set #9 (Ch 19) Adaptive Follow-Up Balancing Redox Equations: Half-reaction Method Item 4 I Review I Constants I Periodic Table In addition to mass balance, oxidation-reduction reactions must be balanced such that the number Submit of electrons lost in the oxidation equals the number of electrons gained in the reduction. This balancing can be done by two methods: the half-reaction method or the oxidation number method. The half- Basic solution reaction method balances the electrons lost in the oxidation half-reaction with the electrons gained in the reduction half-reaction. In either method H2O(1), OH-(aq), and H+ (aq) may be added Potassium permanganate, KMN04, 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 fluoride: to complete the mass balance. Which substances MnO4¯(aq) + F¯ (aq)→MnO2(s) + F2(aq) are used depends on the reaction conditions. Since this reaction takes place in basic solution, H2O(1) 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) + F (aq) + →MnO2 (s) + F2 (aq) + Part B What are the coefficients of the reactants and products in the balanced equation above? Remember to include H2O(1) and OH (aq) in the blanks where appropriate. Your answer should have six terms. Enter the equation coefficients in order separated by commas (e.g., 2,2,1,4,4,3). Include coefficients of 1, as required, for grading purposes. • View Available Hint(s) Submit Provide Feedback Next >