Balance following redox reactions in acidic conditions using the half-reaction method
a. Fe + Ag+ → Fe2+ + Ag
b. I- + SO42- → H2S + I2
c. Cu + NO3- → Cu2+ + NO2
d. PbO₂ + CI- → Pb2+ + Cl₂
Balance following redox reactions in acidic conditions using the half-reaction method
Please use the half-reaction method! 1. Balance the following redox reactions, using the rules on p. 97 or the half-reaction method, whichever makes more sense to you. a. PbO2() → Pb2+ + O2 b. FeS2(pyrite) + NO3 → N2(g) + FeOOH goethite) + SO42-
More Practice Balancing Redox Reactions in Acid and Basic Solution Balance the following redox reaction in both acidic and basic solution using the half reaction method outlined in Recitation 10, Part III. 3. Unbalanced: PbO2(s) + Mn2+(aq) → Pb2+ (aq) + MnO4- (aq) 4. Unbalanced: SO42-(aq) + Cr3+(aq) → SO2(g) + Cr2O72-(aq)
Balance the following redox reaction under acidic conditions using the half-reaction method. a. Al+NO2- →AlO2- +NH3 please show work and explain thank you!
Balancing Redox Reactions Balance each redox reaction in acidic solution using the half reaction method. H2O2 + Cr2O72- → O2 + Cr3+ TeO32- + N2O4 → Te + NO3- ReO4- +IO- → IO3- + Re
5. Balance following redox reactions in basic conditions using the half-reaction method a. 1 + $0.2 Hz + 12 b. Cr2O3 + CIO CrO2 + CI c. C2H5OH + CO2- → Cr + CH3CHO d. 12 1 + 10;
How do I balance the following reaction in acidic conditions using the half-reaction method: As2S5 (s) + NO3- (aq) <---> H3AsO4 (aq) + HSO4- (aq) + NO2 (g) The sum of the coefficients should either be 68 or 135. Thank you.
Write balanced redox half reactions (assuming acidic conditions) for the conversion of NH4+ to NO3- and NO2- to N2.
47 3. Balance the following redox reaction under acidic conditions using the half-reaction method. Na2S2O3 (aq) + 12 (aq) → Nal (aq) + Na2S406 (aq)
PART A: REDOX REACTIONS 1. For each of the metals, write the redox equations for reactions you observed in a table as shown below. Write NR for “no reaction” where none was observed. 2+ (**e.g., Cu + Zn → Cu + Zn , Ecell = 1.10 V) Cu(NO3)2 Pb(NO3)2 Zn(NO3)2 16 Cu(s) NR NR Pb(s) NR Zn(s) NR 2. Calculate the Eº for every cell, whether or not a reaction was observed, using equation (5) and values for the standard...
Part B: Basic Conditions Using the half-reaction method, balance the following redox reactions under basic conditions and identify which of the reactants is being reduced and which is being oxidized. 7. SO32- + Cu(OH)2 → S022- + Cu(OH) a. Oxidized: b. Reduced: c. Balanced Equation: 8. O2 + Mn(OH)2 → MnO2 a. Oxidized: b. Reduced: c. Balanced Equation: 9. NO;' + H2 → NO a. Oxidized: b. Reduced: c. Balanced Equation: