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 work.
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The following is an unbalanced redox reaction: Unbalanced Reaction: Al(s) + Co2+(aq) --> Al3+(aq) + Co(s)...
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. Given this information calculate the maximum amount of work, in kJ/mol rxn for the balanced redox reaction from 2Al(s)+3Co2+(aq)----> 2Al3+(aq)+3Co(s) (T = 25.0 °C). Is this a spontaneous reaction? why or why not
Al3 (aq) + Ni(s). 3. Consider the unbalanced reaction Al(s)+ Ni2 (aq) > a. write balanced cathode half reaction b. write the balanced anode half reaction C. Write the balanced overall reaction d. Calculate E。, the cell potential. Is the reaction spontaneous as written? e Calculate Eolf [AP ] = 4.00 M, [Ni2+] = 2.00 x 10-5 M.
what is the reduction potential for the half reaction AL3+(aq)+3e-+AL(s) at 25C if AL3+=0.18M and E=-1.66v
consider the following standard reduction potentials. Reduction Half-Reaction Eo (volts) Al3+(aq) + 3e− → Al(s) − 1.66 Fe2+(aq) + 2e− → Fe(s) − 0.44 Sn2+(aq) + 2e− → Sn(s) − 0.14 The Al/Al3+ half-reaction can be paired with the other two to produce voltaic cells because ________ A) Al is a more powerful oxidizing agent B) Fe and Sn are readily oxidized Al is a more powerful reducing agent C) Al3+ is a more powerful oxidizing agent D) Al3+...
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 reaction at 298 K: 3Cu2+(aq) + 2Al(s) + 3Cu(s) + 2 A13+ (aq) and the standard reduction potential values: Cu2+(aq) + 2e + Cu(3) E° = +0.342 v Al3+ (aq) + 3e + Al(s) E° = -1.662 v No files uploaded (Submit 6.1 and 6.2 as a single file) Q6.1 8 Points Calculate the standard Gibbs energy of reaction (A,G), in kJ/mol. Q6.2 8 Points Calculate the emf (E) when [Cu2+] = 1.0 x 10-2 M and...
Consider the following unbalanced reaction: Co3+(aq) + Cu(s) → Co2+(aq) + Cu2+(aq) The reduction potentials are as follows: Co3+/2+Eº = +1.92 V; Cu2+/0Eº = +0.34 V. Identify the OXIDANT Identify the REDUCTANT Co3+ Co3+ Cu Cu Write the individual half-reactions and show how they provide the redox equation above. Note that the stoichiometry will be different than above: make sure your equation is balanced. What is the ∆Gº of the reaction? What is ∆Eº of the reaction?
Calculate the standard cell potential for the following reaction: Co ()| Co2+ (aq) || 2Ag+ (aq) | 2Ag (). Standard Reduction Potentials Co2+ (aq) Ered = -0.277 V Ag+ (aq) + 6 → Ered = 0.799 V + 2e → Co (8) → Ag (3) A. 1.32 V B. 1.88 V C. 0.522 V D. 1.08 V
Consider the following UNBALANCED reaction IN ACIDIC SOLUTION: Cu(s) + NO3(aq) - -Cu2+ (aq) + NO() Provide the following information with the requested information. Make sure to show any work that is required for full credit. You may use the Eºcell potential table found here. a. (5) Species that is oxidized (be specific - i.e.identify which atom and if there are multiple atoms with different charges, identify the correct one) b. (5) Species that is reduced (same instructions as above)...
1. Consider the unbalanced redox reaction taking place in an acidic aqueous solution VO,* (aq) + S0,- (aq) → VO" (aq) + S0,- (aq) The unbalanced oxidative half-reaction for this redox reaction is: VO,* (aq) → VO" (aq) (la) Because the reaction takes place in aqueous solution, the reaction can be balanced by adding water. a. Add water to reaction (la) to balance the oxygen. This will give reaction (1b). (1b) Because the reaction takes place in an acidic solution,...