Respuesta :
Answer: a) Cathode(-): [tex]Ba^+^2+2e^-\rightarrow Ba[/tex]
Anode(+): [tex]2Cl^-\rightarrow Cl_2+2e^-[/tex]
b) 0.640 grams of Ba will be deposited.
Explanation: a) The problem is based on Faraday law of electrolysis. Molten barium chloride has [tex]Ba^+^2[/tex] ion and [tex]Cl^-[/tex] ion. Barium ion is reduced and chloride is oxidized. Reduction takes place at cathode and oxidation at anode. So, the half reactions will be:
Cathode(-): [tex]Ba^+^2+2e^-\rightarrow Ba[/tex]
Anode(+): [tex]2Cl^-\rightarrow Cl_2+2e^-[/tex]
b) The question asks, how many grams of barium metal can be produced by supplying 0.50 ampere for 30 minutes.
From the Cathode half-reaction, 1 mole of Ba is deposited by 2 moles of electrons and we know that 1 mole of electron carries one Faraday that is 96485 Coulomb.
Coulombs for 2 moles of electrons will be = 2*96485 C = 192970 C
So, we can say that, 192970 C will deposit 1 mole of Ba metal.
Total available coulombs can be calculated using the formula:
q=i*t
where, q is electric charge in coulomb, i is current in ampere and t is time in seconds.
[tex]q=q=0.50A*30min(\frac{60sec}{1min})[/tex]
q = 900 C (note: 1 C = 1 A*sec)
Let's calculate how many moles of Ba will get deposited by 900 C.
[tex]900C(\frac{1molBa}{192970C})[/tex]
= 0.00466 mole Ba
Convert the moles of Ba to grams and for this we multiply by molar mass of Ba which is 137.33 gram per mol.
[tex]0.00466molBa(\frac{137.33g}{1mol})[/tex]
= 0.640 g Ba
So, 0.50 A for 30 minutes will deposit 0.640 grams of Ba metal.
