To calculate the current density, we can use the Butler-Volmer equation, which relates the current density i to the exchange current density i , the overpotential , and the transfer coefficient . The equation is as follows:i = i * exp * F * / R / T - exp - 1 - * F * / R / T where:i = current density A/cm i = exchange current density = 10 A/cm = transfer coefficient assumed to be 0.5 for a one-electron transfer process F = Faraday's constant = 96485 C/mol = overpotential = 20 mV = 0.02 VR = gas constant = 8.314 J/molKT = temperature = 25C = 298.15 KNow, we can plug in the values and calculate the current density:i = 10 * exp 0.5 * 96485 * 0.02 / 8.314 / 298.15 - exp - 1 - 0.5 * 96485 * 0.02 / 8.314 / 298.15 i 10 * exp 0.392 - exp -0.392 i 10 * 1.480 - 0.675 i 10 * 0.805i 8.05 10 A/cmSo, the current density of the copper electrode in contact with a 1 M solution of CuSO at 25C is approximately 8.05 10 A/cm.