AG = AG° + RT · In(Q) AE = AE° - () · In(Q) Half Reaction (Note: All given as reduction) E° (V) 02 (g) + 4 H*(aq) + 4 e 2z° (aq) 2 H20 (I) 1.229 > Z2 (s) + 2 e 3+ 0.426 |A (aq) + 3 е A (s) 0.292 2 H20 (1) + 2 e - G2* (aq) + 2 e H2 (g) + 2 OH¯ (aq) - 0.828 2+ G (s) - 1.245 M2+ (aq) + 2 e M (s) - 1.893 A student constructs a voltaic electrochemical cell with two metal electrodes [metal G and metal A] in their respective aqueous nitrate solutions [G(NO3)2 and A(NO3)3]. Use this information, as well as the reduction potentials in the table above to complete each statement below. The number of electrons transferred per mole of reaction in this cell is... Your answer should be a number with no units.

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J R = 8.314 mol·K F = 96,485 mol AG = AG° + RT · In(Q) ΔΕ ΔΕ-).In(Q) Half Reaction (Note: All given as reduction) E° (V) 02 (g) + 4 H"(aq) + 4 e¯ → 2 H20 (1) 1.229 Z2 (s) + 2 e 2z° (aq) 0.426 (aq) + 3 е A (s) 0.292 2 H20 (1) + 2 e G2* (aq) + 2 e → H2 (g) + 2 OH¯ (aq) - 0.828 2+ G (s) - 1.245 M2+ (aq) + 2 e → M (s) - 1.893 A student constructs a voltaic electrochemical cell with two metal electrodes [metal G and metal A] in their respective aqueous nitrate solutions [G(NO3)2 and A(NO3)3]. Use this information, as well as the reduction potentials in the table above to complete each statement below. The number of electrons transferred per mole of reaction in this cell is.. Your answer should be a number with no units. Question 6 Diluting the half-cell solution will decrease the measured cell potential. o cathode O anode