Calculate the Cd2+ concentration in the following cell if Ecell = 0.23 V. Cd(s)|Cd2+(x M)||Ni2+(1.00 M)|Ni...

The emf of Cd|Cd2+ (? M) || Ni2+ (1.0 M) | Ni is 0.24 V. What...

The emf of Cd|Cd2+ (? M) || Ni2+ (1.0 M) | Ni is 0.24 V. What is the concentration of Cd2+?

A voltaic cell consists of an Ni/Ni2+ half-cell and a Co/Co2+ half-cell. Calculate Ecell when [Ni2+]...

A voltaic cell consists of an Ni/Ni2+ half-cell and a Co/Co2+ half-cell. Calculate Ecell when [Ni2+] = 0.0019 M and [Co2+] = 1.265 M. You should use the reduction potentials for Ni2+ is -0.247 V and for Co2+ is -0.277 V.

For a spontaneous Ni, Al galvanic cell, calculate Ecell if [Al3+] = 2.15 M, and [Ni2+]...

For a spontaneous Ni, Al galvanic cell, calculate Ecell if [Al3+] = 2.15 M, and [Ni2+] = 9.99*10-3 M.

A voltaic cell is constructed from an Ni2+(aq)−Ni(s) half-cell and an Ag+(aq)−Ag(s) half-cell. The initial concentration...

A voltaic cell is constructed from an Ni2+(aq)−Ni(s) half-cell and an Ag+(aq)−Ag(s) half-cell. The initial concentration of Ni2+(aq) in the Ni2+−Ni half-cell is [Ni2+]= 1.00×10−2 M . The initial cell voltage is +1.12 V . a. By using data in Table 20.1 in the textbook, calculate the standard emf of this voltaic cell. b. Will the concentration of Ni2+(aq) increase or decrease as the cell operates? c. What is the initial concentration of Ag+(aq) in the Ag+−Ag half-cell?

Calculate ΔG o (kJ/mol) and equilibrium constant (K) for the following electrochemical cell: Cd(s) | Cd2+(...

Calculate ΔG o (kJ/mol) and equilibrium constant (K) for the following electrochemical cell: Cd(s) | Cd2+( aq) || Ni2+(aq)| Ni(s)

Use the following cell to answer the questions: Cr / Cr3+ (1.00 M) // Ni2+ (1.00...

Use the following cell to answer the questions: Cr / Cr3+ (1.00 M) // Ni2+ (1.00 M) / Ni. a) How many milligrams of Ni would be plated on the cathode if a current of 0.26 A is drawn for 1.5 hrs? mg Ni b) What is [Cr3+] when [Ni2+] has dropped to 10-4 M? [Cr3+] =  M c) What is the cell potential at the conditions described in Part b? E =  V

Use the following cell to answer the questions: Cr / Cr3+ (1.00 M) // Ni2+ (1.00...

Use the following cell to answer the questions: Cr / Cr3+ (1.00 M) // Ni2+ (1.00 M) / Ni. a) How many milligrams of Ni would be plated on the cathode if a current of 0.18 A is drawn for 2.9 hrs? mg Ni b) What is [Cr3+] when [Ni2+] has dropped to 10-4 M? [Cr3+] =  M c) What is the cell potential at the conditions described in Part b? E =  V

Given the measured cell potential, Ecell, is -0.3635 V at 25'C. In the following cell, calculate...

Given the measured cell potential, Ecell, is -0.3635 V at 25'C. In the following cell, calculate the H+ concentration. Pt(s)/H2(g, 0.829 atm)/H+(aq, ?M)//Cd+2(aq,1.00M)/Cd(s) The balanced reduction half-reactions for the cell, and their respective standard reduction potential values, E' are as followed. 2H+(aq)+2e- -> H2(g) E= 0.00V Cd+2(aq) +2e- ->Cd(s) E= -0.403V [H+]= ?

A) A galvanic cell Zn(s)|Zn2+(aq) || Ni2+(aq)|Ni(s) is constructed using a completely immersed Zn electrode that...

A) A galvanic cell Zn(s)|Zn2+(aq) || Ni2+(aq)|Ni(s) is constructed using a completely immersed Zn electrode that weighs 43.2 g and a Ni electrode immersed in 503 mL of 1.00 M Ni2+(aq) solution. A steady current of 0.0555 A is drawn from the cell as the electrons move from the Zn electrode to the Ni electrode. Which reactant is the limiting reactant in this cell? Enter symbol ___________ How long does it take for the cell to be completely discharged? _____s...

Ni(s) + 2 H+(? M) ----> Ni2+(1.00 M) + H2(g)(1.00 atm) If the cell potential at...

Ni(s) + 2 H+(? M) ----> Ni2+(1.00 M) + H2(g)(1.00 atm) If the cell potential at 298 K is 0.119 volts, what is the pH of the hydrogen electrode? pH =____