Chapter 14 - Further Redox (L)

Question 1

How are storage cells (batteries) recharged?

Answer 1

An external potential difference is applied that reverses the reactions of the storage cell

Question 2

How do fuel cells work?

Answer 2

Fuel cells produce a voltage from the chemical reaction of a fuel with oxygen

Question 3

What is the most common fuel cell?

Answer 3

Hydrogen-oxygen fuel cell

Question 4

What is an advantage of using a methanol fuel cell compared to a hydrogen fuel cell?

Answer 4

Methanol is a liquid so is easier to store and transport than hydrogen (a gas)

Question 5

Give 2 advantages of using fuel cells compared with the combustion of petrol or diesel

Answer 5

Less CO2 produced

Greater efficiency

Question 6

Give 3 disadvantages of hydrogen fuel cells

Answer 6

Explosive
Hard to transport as it is a gas
Difficult supply

Question 7

Give 2 ways in which hydrogen could be stored

Answer 7

Compressing the gas

Absorbed onto or into a solid

Question 8

Why do some consider hydrogen as a fuel that uses more energy than petrol or diesel as a fuel?

Answer 8

Because energy is needed in order to produce the hydrogen

Question 9

What is the difference between standard redox potential and standard electrode potential?

Answer 9

They are the same thing

Question 10

What can you work out when comparing the standard electrode potentials of two reactions?

Answer 10

The relative positions of equilibrium. In reaction with the more smaller E value the equilibrium will shift to the left (releasing electrons), and in the higher E value the equilibrium will shift to the right (accepting electrons)

Question 11

How can you work out if a reaction is thermodynamically feasible from electrode potentials?

Answer 11

If the positions of equilibrium which can be worked out from the relative electrode potentials match the proposed reaction equation, the reaction is feasible.
For example, is Zn + Cu2+ -> Zn2+ + Cu feasible.
The electrode potential of Zn2+ + 2e- -> Zn is lower, meaning more Zn2+ ions will be produced in the reaction.
The electrode potential of Cu2+ +2e- -> Cu is higher, meaning more Cu will be produced.
These match the products in the proposed equation, therefore the reaction is feasible.

Question 12

In the reaction between manganese oxide and hydrochloric acid, why is it important to use concentrated HCl?

Answer 12

Because if you use 1 mol dm-3 HCl (standard conditions), the reaction is not thermodynamically feasible, but if you use conc HCl it is feasible.

Question 13

Why does using conc HCl make the reaction between manganese oxide and hydrochloric acid feasible?

Answer 13

Because if you don’t use conc HCl, the E value of the Cl2 -> 2Cl- will be higher than the other one, meaning the equilibrium will shift to the right for Cl2 -> 2Cl-, which is not what we want.
However if you use conc HCl, the E value of the Cl2 -> 2Cl- is lower than the other one, meaning the equilibrium will shift to the left for Cl2 -> 2Cl-, making the reaction feasible

Question 14

What are two reasons why reactions may not take place despite the electrode potentials indicating that they are thermodynamically feasible?

Answer 14

• The reactants may be kinetically stable because the activation energy is very larger
• The reaction may not be taking place under standard conditions