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a) Which statement is true for an electrolytic cell? O a. It produces electrical current from...
A voltaic cell consumes electrical current to drive a nonspontaneous chemical reaction produces electrical current from a spontaneous chemical reaction Oproduces electrical current from electricity O produces electrical current from a nonspontaneous chemical reaction consumes electrical current to drive a spontaneous chemical reaction
Electrolytic cells use electricity to cause a nonspontaneous redox reaction to occur. An electrolytic cell is constructed using the following components: . a power source, such as a battery, • the substance that will undergo electrolysis, and • two inert electrodes (usually platinum), which serve as the electrical connection between the power source and the substance undergoing electrolysis. As with any cell, oxidation occurs at the anode and reduction occurs at the cathode. The oxidation of water, which produces oxygen...
A galvanic cell is powered by the following redox reaction: MnO 2 (s) + 4 H + (aq) + Zn (s) → Mn + 2 (aq) + 2 H 2 O (l) + Zn + 2 (aq) Cathode half reaction: Anode half reaction: Cell potential under standard conditions:
Determine the mass (g) of aluminum deposited in an electrolytic cell using a current of 0.750 A for 1.2 hour (1 hour = 3,600 s) A13+ (aq) + 3e - Al(s) O 0.000839 g 0 2.20 g 0 0.3029 O 0.906 g O 0.625 g
1. Determine the mass (g) of aluminum deposited in an electrolytic cell using a current of 0.750 A for 1.2 hour (1 hour = 3,600 s) Al3+(aq) + 3e- ⟶ Al(s) 0.302 g 0.000839 g 0.625 g 0.906 g 2.20 g 2. The change in Gibbs free energy, ∆G°, for the following reaction at 298 K is 70.6 kJ/mol. 2NO₂(g) ⟶ 2NO(g) + O₂(g) What is Keqfor this reaction? 1.03 0.971 4.30 2.00 0.936 3.
Given the following electrolytic cell: The current is discharged into the electrolytic cell containing the solution CuSO4(aq) 1.0M at 25 oC. During the operation of the cell, copper Cu(s) is deposited on one electrode and oxygen O2(g) gas is released, near the second electrode. O2(g) + 4H3O+(aq) + 4e- 6H2O(l) Eo= 1.23V Cu2+(aq) + 2e- Cu(s) Eo= 0.34V A. The current in the cell is 1.5 amperes. The current is streamed in 40 minutes. i. Calculate the mass of copper...
UESTION 3 onsider the hydrogen-axygen fuel cell where Which of the fellowing statemeets is true? o A Al standard condihions, the maximum work the fuel cell could do on the sumoundings is 237. 18 k.Jmo BIn the real world, the actual anort of usehd work the cㆋ cand is less ha, 237 te ku C Moro energy is dssipated waste heal the fuel cd than in reversale path ay O D.A B, and C are all true E, A B,...
(a) Choose all of the statements from below which correctly describe issues pertaining to the relationship between the emf of a reaction and its Gibbs free energy change. The Gibbs free energy change and emf values of a reaction have opposite algebraic signs (+ VS.-). Electron stoichiometry need not be used to interconvert a Gibbs free energy change and a reaction emf. A spontaneous reaction has a negative Gibbs free energy change and a positive emf. A coulomb of particles...
A electrolytic cell similar to that shown in the figure above is constructed. The electronic device shown at the top of the figure is a power supply. One electrode compartment consists of a manganese strip placed in a 1.0 M Mn(NO3)2 solution, and the other has a cobalt strip placed in a 0.5 M Co2(SO4)3 solution. The overall cell reaction is: 3 Mn2+(aq) + 2 Co(s) 3 Mn(s) + 2 Co3+(aq) (a) Fill in the information necessary to complete the...
Part 1.) Choose all of the statements from below which correctly describe issues pertaining to the relationship between the emf of a reaction and its Gibbs free energy change. 1. The Gibbs free energy change and emf values of a reaction have opposite algebraic signs (+ vs. -). 2. A mole of particles is more particles than a coulomb of particles. 3. A spontaneous reaction has a positive Gibbs free energy change and a negative emf. 4. A Gibbs free...