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Summary Electrochemistry Notes - AQA Chemistry A Level

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Detailed notes of the Electrochemistry topic for AQA Chemistry A Level Papers 1 and 3.

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Electrochemistry
Electrode Potentials
 When a piece of metal is dipped into a solution of its metal ions, an equilibrium is set up
o Mn+(aq) + ne– ⇋ M(s)
o There is a tendency for the metal to form positive ions and go into solution
o There is also a tendency for the metal ions in solution to gain electrons and form metal
 If the equilibrium lies to the left, the metal acquires a negative charge due to the build up of
eletrons on the metal (electrode has a negative potential)
 If the equilibrium lies to the right, the metal acquires a positive charge as electrons have been
used up to form metal from the metal ions (eletrode has positive potential)
 The position of the equilibrium depends on the metal
o Reactive metals tend to form Mn+ ions so negative charge builds up on the metal and
they have negative potentials
o Unreactive metals tend to have a positive charge on the metal and have positive
potentials
 A metal dipping into a solution of its ions is called a half-cell or electrode
 There are other types of half cell where there is no solid metal involved in the half-equation
o For these half cells, a metal electrode is required and usually platinum is used as it is so
unreactive
 Metal electrodes – consist of a metal surrounded by a solution of its ions
o Zn(s)|Zn2+(aq)
 Gas electrodes – inert metal (usually platinum) is the actual electrode to allow the flow of
electrodes
o Pt(s)|H2(g)|H+(aq)




o
 Redox electrodes – two different ions of the same element, two types of ions are present in
solution with an inert metal electrode (usually platinum) to allow the flow of electrons
o Pt(s)|Fe2+(aq), Fe3+(aq)




o

, Measuring the Electrode Potential
 The actual potential (E) of a half cell cannot be measured directly
o To measure it, it has to be connected to another half cell of known potential, and the
potential difference between the two half cells measured
 Combining two half cells together produces an electrochemical cell
 Before the potential of any half cells can be measured, a potential had to be assigned to one
particular half cell so the potential of all the other electrodes could be measured against it
o The electrode chosen was the standard hydrogen electrode (SHE) and this electrode is
assigned the potential of 0 volts by definition
o The SHE is known as the primary standard as it is the potential to which all others are
compared

Setting Up an Electrochemical Cell





 The two half cells are joined together to give a complete circuit
o The two metals are joined with a wire (electrons flow through the wire)
o The two solutions are joined with a salt bridge (ions flow through the salt bridge)
o A voltmeter is often included to allow the potential difference to be measured
 A salt bridge is either a piece of filter paper soaked with a solution of unreactive ions or a tube
containing unreactive ions in an agar gel
o Compounds such as KNO3 are often used in the salt bridge as K + and NO3– ions are quite
unreactive

Standard Conditions
 Cell concentration – 1.0 mol dm-3 of ions involved in the half equation
 Cell temperature – 298K
 Cell pressure – 100kPa (only affects half cells with gases)
 The potential should be measured under 0 current conditions
o To measure the full potential difference (emf), no current must be drawn from the cell
o Can be achieved by using a high resistance voltmeter
 A standard potential is witten as Eo
 Standard conditions are required because the position of the redox equilibrium will change with
conditions and thus alter the measured potential

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