Calculate the cell potential and the equilibrium constant for the following reaction at 298 K: 2Fe3+(aq)...

Calculate the standard potential, E°, for this reaction from its equilibrium constant at 298 K. X(s)...

Calculate the standard potential, E°, for this reaction from its equilibrium constant at 298 K. X(s) + Y^2+(aq)----->X^2+(aq) + Y(s) K=6.11x10^-5 <--------

Consider the following reaction: 2Fe2+(aq) + Cu2+ → 2Fe3+(aq) + Cu. When the reaction comes to...

Consider the following reaction: 2Fe2+(aq) + Cu2+ → 2Fe3+(aq) + Cu. When the reaction comes to equilibrium, what is the cell voltage (Ecell)? A. 1.11 V B. –0.43 V C. 0.78 V D. 0.43 V

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C...

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C under each of the following conditions. A)   [Fe3+]= 3.05 M ; [Mg2+]= 2.5×10−3 M

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C...

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C under each of the following conditions. Part A: [Fe3+]= 1.3×10−3 M ; [Mg2+]= 2.95 M Part B: [Fe3+]= 2.95 M ; [Mg2+]= 1.3×10−3 M

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C...

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C under each of the following conditions. Part B: [Fe3+]= 1.6×10−3 M ; [Mg2+]= 3.30 M Part C: [Fe3+]= 3.30 M ; [Mg2+]= 1.6×10−3 M

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C...

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C under each of the following conditions. 1. [Fe3+]= 2.3×10−3 M ; [Mg2+]= 2.90 M Express your answer in units of volts. 2. [Fe3+]= 2.90 M ; [Mg2+]= 2.3×10−3 M Express your answer in units of volts.

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C...

A voltaic cell employs the following redox reaction: 2Fe3+(aq)+3Mg(s)→2Fe(s)+3Mg2+(aq) Calculate the cell potential at 25 ∘C under each of the following conditions. Part B [Fe3+]= 1.2×10−3 M ; [Mg2+]= 3.25 M Express your answer in units of volts. Part C [Fe3+]= 3.25 M ; [Mg2+]= 1.2×10−3 M Express your answer in units of volts.

1. Calculate the equilibrium constant, K, for the reaction in the Galvanic Pb-Cu cell. (Report your...

1. Calculate the equilibrium constant, K, for the reaction in the Galvanic Pb-Cu cell. (Report your answer in scientific notation to three significant figures. Use * for the multiplication sign and ^ to designate the exponent.) Cu+ (aq) + Pb (s) → Cu (s) + Pb2+ (aq) Eocell = 0.647 V K = 2. For the reaction Mg (s) + Ni2+ (aq) →→ Mg2+ (aq) + Ni (s),    Eocell = 2.629 V.   Calculate the cell potential at T = 50.0oC...

Given that: 2Hg2+(aq)+2e−→ Hg2+2(aq)   E∘=0.920V   Hg2+2(aq)+2e−→ 2Hg(l)   E∘=0.797V Calculate the values of ΔrG∘ and  K for the...

Given that: 2Hg2+(aq)+2e−→ Hg2+2(aq)   E∘=0.920V   Hg2+2(aq)+2e−→ 2Hg(l)   E∘=0.797V Calculate the values of ΔrG∘ and  K for the following process at  25∘C : Hg2+2(aq) →Hg2+(aq)+Hg(l) (The above reaction is an example of a disproportionation reaction, in which an element in one oxidation state is both oxidized and reduced.)​ A) ΔrG∘ = ________ B) K = _________

Calculate the equilibrium constant, K, for the following reaction at 25 °C. Fe^3+(aq)+B(s) + 6H2O(l) -->...

Calculate the equilibrium constant, K, for the following reaction at 25 °C. Fe^3+(aq)+B(s) + 6H2O(l) --> Fe(s) + H3BO3(s) + 3H3O+(aq) The balanced reduction half-reactions for the above equation and their respective standard reduction potential values (E°) are as follows: Fe3+(aq) + 3e- --> Fe (s)... E=-0.04V H3BO3(s) + 3H3O+(aq) + 3e- ---> B(s)+6H20 (l).....E=-0.8698 K=?