topic 6 electrochemistry
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TOPIC 6 ELECTROCHEMISTRY. By: Chemistry Lecturer School of Allied Health Sciences City University College of Science and Technology. Electrolytes and Non-electrolytes. Electrolytes: Chemical compound that can conduct electricity in the molten state or in aqueous solution - PowerPoint PPT PresentationTRANSCRIPT
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By:Chemistry Lecturer
School of Allied Health SciencesCity University College of Science and Technology
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Electrolytes: Chemical compound that can conduct electricity in the molten state or in aqueous solution◦ Electricity conducted by free moving ions
Non electrolytes: Chemical compound that cannot conduct electricity in any state
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ELECTROLYTES
NON-ELECTROLYTES
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• Electrolysis is a process whereby a compound is decomposed by electric current
• Electrolytic cell consists of two electrodesi. Anode – Positive terminal Anions (-ve charged ions) attracted to anode
ii. Cathode – Negative terminal Cations (+ve charged ions) attracted to
cathode
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• Generally a molten compound electrolytes AnBm produces Am+ cations and Bn- anions
AnBm Am+ Bn-
• Examples:i. PbBr2 Pb2+ + 2Br-
ii. NaCl Na+ + Cl-
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• Gives the anion and cation for the electrolytes:
i. PbCl2 -ii. AgCl -iii.CuCl2 -iv.CuBr2 -
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• Gives the anion and cation for the electrolytes:
i. PbCl2 - Pb2+ , Cl-ii. AgCl - Ag+ , Cl-iii.CuCl2 - Cu2+ , Cl-iv.CuBr2 - Cu2+ , Br-
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• Two steps occur during electrolysisi. Movement of ions to the electrodes
Cations (+ve) move towards the cathode Anions (-ve) move towards the anode
ii. Discharge of ions at the electrodes Cations discharged by receiving electrons
(losing positive charge to become neutral)An+ + ne- A
Anions discharged by releasing electrons (losing negative charge to become neutral)Bn- B + ne-
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Steps in writing half equation
Anode Cathode
Step 1 Ion to neutral Br- Br2 Cu2+ Cu
Step 2 Balance number of atoms
2Br- Br2 Cu2+ Cu
Step 3 Balance the charge by adding
the electrons
2Br- Br2 + 2e
Cu2+ + 2e Cu
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Balance the number of electrons from the half equation
Example:Half equationAt the Anode: 2Cl- Cl2 + 2eAt the cathode: Na+ + e Na
Overall equation2Cl- Cl2 + 2e(Na+ + e Na) x 2 = 2Na+ + 2e 2Na
= 2Cl- + 2Na+ Cl2 + 2Na
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In the electrolysis of a molten compound,◦ The metal component of the compound is formed
at the cathode
◦ The non-metal component is formed at the anode
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Example: NaCl molten electrolytes
NaCl Na+ + Cl-Anode: Cl-Cathode: Na+
Half equationAt the Anode: 2Cl- Cl2 + 2eAt the cathode: Na+ + e Na
Overall equation2Cl- Cl2 + 2e(Na+ + e Na) x 2 = 2Na+ + 2e 2Na2Cl- + 2Na+ Cl2 + 2Na
ProductAnode: Cl2 gasCathode: Na metal
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Example: PbBr2 molten electrolytesSolution
Equation PbBr2 Pb2+ + Br-
Anode: Br-
Cathode: Pb2+
Half equationAnode: 2Br- Br2 + 2eCathode: Pb2+ +2e Pb
Overall equation2Br- Br2 + 2ePb2+ +2e Pb2Br- + Pb2+ Br2 +Pb
ProductsAnode: Br2 gasCathode: Pb metal
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Aqueos solution consists of TWO types of cations and anions; H+ and OH-
Example: Aqueos sodium chloride (NaCl) solutionCations: Na+ and H+
Anions: Cl- and OH-
However only ONE type of cation and anion will be discharged at each electrode
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1. Positions of ions in the electrochemical series
The tendency of ions to be selectively discharged depends on their positions in a series known as electrochemical series (ES).
The lower the position of the ion in the ES, the easier the ion will be discharged.
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Example: Aqueos sodium chloride (NaCl) solution electrolytesCations: Na+ and H+
Anions: Cl- and OH-
Half equationAnode: 4OH- 2H2O + O2 + 4eCathode: 2H+ + 2e H2
Overall equation 4OH- 2H2O + O2 + 4e (2H+ + 2e H2 ) x 2 = 4H+ + 4e 2H2 4OH- + 4H+ 2H2O + O2 + 2H2
ProductsAnode: oxygen gasCathode: hydrogen gas
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Example 2: Aqueos sodium sulphate (Na2SO4) solution electrolytesCations: Na+ and H+
Anions: SO42- and OH-
Half equationAnode: 4OH- 2H2O + O2 + 4eCathode: 2H+ + 2e H2
Overall equation 4OH- 2H2O + O2 + 4e (2H+ + 2e H2 ) x 2 = 4H+ + 4e 2H2 4OH- + 4H+ 2H2O + O2 + 2H2
ProductsAnode: oxygen gasCathode: hydrogen gas
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2. Effect of ion concentration When the concentration of a particular
type of ion is higher, ion will more likely to be discharged in electrolysis
Usually concentrated halide (Cl- / Br- / I- ions)
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3. Effect of types of electrodes used The types of electrodes used can determined
the type of ions discharged in electrolysis Using metal electrodes at anode, ions are
not discharged instead the metal dissolves by releasing electrons to form metal ions.
Example: using copper (Cu) electrodes.Cu Cu2+ + 2eHence mass of anode decrease.
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1. Gives the diagram, anion, cation, half equation, overall equation, products and observation using electrolytes
i. PbBr2 moltenii. PbCl2 molteniii. CuSO4 solution
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