Given the unbalanced reaction:
_____Au3+(aq) + ____I-(aq) → ____Au(s) + ____I2(s)
Balance the reaction and select the correct reduction half cell equation (after balancing the redox reaction)
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Given the unbalanced reaction: _____Au3+(aq) + ____I-(aq) → ____Au(s) + ____I2(s) Balance the reaction and select...
The following is an unbalanced redox reaction: Unbalanced Reaction: Al(s) + Co2+(aq) --> Al3+(aq) + Co(s) (a) Balance the above reaction using the half-reaction method. Show work. (b) The standard reduction potential for Al3+ to Al is ?red ° = −1.662 ? and the standard reduction potential for Co2+ to Co is ?red° = −0.277 V. Given this information, maximum amount of work, in kJ/mol rxn, for the balanced redox reaction from part (a) above. (T = 25.0 °C) Show...
5. Consider the following redox reaction at 25 °C: (10 points) MnO2 (s) → Mn? (aq) + MnOs (aq) (a) Balance the equation in acid (b) Calculate Eºcell (c) Calculate AGran (d) Calculate Hint!!! After balancing your half-reactions, determine which reaction is oxidation and which reaction is the reduction and use Eºcell = Ecath (red) -Eanode (ow)
4. The following unbalanced redox reaction takes place in acidic solution: VO2+ (aq) + Zn (s) VO+2 (aq) + Zn+2 (aq) A. What is the oxidation state of V in VO2+? B. What is the oxidation state of V in VO+2? C. Write out the oxidation half reaction here. D. Write out the reduction half reaction here. E. Write out the balanced, overall redox reaction.
Consider the following unbalanced equation. H1+(aq) + Fe(s) → H2(g) + Fe2+ (aq) (a) What are the following standard voltages? Includeţthe sign. Change the sign as allowed by the data in the table. standard oxidation potential for the oxidation half-cell .00 X V reduction potential for the reduction half-cell .44 X V potential for the entire cell (b) Select all that apply for the reaction under standard conditions. Hl+ is the substance being oxidized. Fe is the substance being oxidized....
1. A voltaic cell is constructed based on the following redox reaction: Sn2+ (aq) + Mn (s)àSn (s) + Mn2+ (aq) Calculate Ecell at 25 oC under the following conditions: (a) Standard conditions (b) [Sn2+] = 0.0200 M; [Mn2+] = 4.00 M (c) [Sn2+] = 0.500 M; [Mn2+] = 0.00250 M 2. Consider the following redox reaction at 25oC: MnO2 (s)àMn2+ (aq) + MnO4- (aq) (a) Balance the equation in acid (b) Calculate Eocell (c) CalculateDGorxn (d) Calculate K Hint!!!...
Consider the following unbalanced equation. H1+(aq) + Fe(s) H2(g) + Fe2+(aq) (a) What are the following standard voltages? Include the sign. Change the sign as appropriate. Use the standard reduction potentials in these Reference Tables. Enter the number of decimal places allowed by the data in the table. standard oxidation potential for the oxidation half-cell V reduction potential for the reduction half-cell V potential for the entire cell V (b) Select all that apply for the reaction under standard conditions....
Consider the unbalanced redox reaction: Cr2O2−7(aq)+Cu(s)→Cr3+(aq)+Cu2+(aq) Part A Balance the equation. Part B: Determine the volume of a 0.750 M K2Cr2O7 solution required to completely react with 4.25 g of Cu.
Consider the unbalanced redox reaction: MnO−4(aq)+Zn(s)→Mn2+(aq)+Zn2+(aq) Balance the equation in acidic solution. Part B- Determine the volume of a 0.475 M KMnO4 solution required to completely react with 3.35 g of Zn.
1. Balance the following reaction in acidic solution. I-(aq) + MnO4-(aq) Mn2+(aq) + I2(s) 2. Write a balanced net ionic equation for the following reaction in basic solution using both methods for balancing a redox reaction: Zn(s) + NO3-(aq) à NH3 (aq) + Zn(OH)42- (aq) 3. Write a balanced net ionic equation for the following reaction in basic solution using both methods for balancing a redox reaction: MnO4-(aq) + C2H5OH(aq) à Mn2+(aq) + HC2H3O2 (aq)
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)