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Part I: Balancing Oxidation Reduction Reactions

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Title: Part I: Balancing Oxidation Reduction Reactions

1
Part I Balancing Oxidation Reduction Reactions

2
Redox Reactions

What do we typically conserve in non-redox
reaction?
Now weve got to take into account the number
electrons transferred!
If we dont balance a redox reaction properly,
what were going to end up with is electrons
being created or destroyed, and that isnt going
to happen!

3
Redox Reactions

What weve already said is that when a reduction
process occurs, it is always paired to an
oxidation process.
A redox reaction can be effectively split into
two half-reactions- the reduction half, and the
oxidation half.

4
half-reactions

Take the redox reaction below
Sn2(aq) 2Fe3(aq) ? Sn4(aq) 2Fe2(aq)
What is being oxidized? Reduced? Which is the
reducing agent? Which is the oxidizing agent?
The reaction can be split into two halves
Oxidation Sn2(aq) ? Sn4(aq) 2e-
Reduction Fe3(aq) e- ? Fe2(aq)
Why did we need two irons per tin?

5
Now we get to balancing!

6
Part II Volatic Cells, Cell EMF, and
Spontaneity of Redox Reactions

7
Voltaic Cells

Voltaic cells contain substances that go through
a spontaneous redox reaction that releases energy
that can be used to do work.
Voltaic cells power your car, cell phone, and
your everyday electronic gadgetry.

8
Voltaic Cells
9
Why does the salt bridge matter?

The salt bridge retains electrical neutrality in
the solutions the electrodes are sitting in.
For example, Zn2 ions are dissolving off of the
anode, and sulfate ions from the salt bridge will
flow into the anode half of the cell to remain
charge neutrality in the solution.

10
What does the voltmeter measure?

The voltmeter measures electromotive force, or
EMF, and is measured in volts.
Cell EMF is abbreviated further as Ecell.
A positive potential corresponds to a voltaic
cell.
The EMF is the force that drives the electrons
through the circuit from the anode to the
cathode.
Demo Pouring water and Potential.

11
Standard cell potential

The standard cell potential is the cell EMF
measured under standard conditions.
Standard conditions are at 250C where
concentration of reactants and products in
solution are 1 M and pressure of gaseous
reactants and products are 1 atm.
Standard cell potential is abbreviated as Eocell.

12
Calculating Eocell

To calculate standard cell potentials, we use
tables called standard reduction potential
tables.
Standard reduction potential is the potential
associated with a given half-reaction.
The more positive the reduction potential, the
easier the substance is to reduce, and the
stronger the oxidizing agent it is!

13
Why arent oxidation potentials tabulated?

We could sit down and tabulate the reduction
potentials, but that would be a huge waste of
time! The standard oxidation potential is just
the negative of the standard reduction potential!

14
Lets try one!

15
Practice Problem

Youve got the cell
In(aq) ? In3(aq) 2e-
Cl2(l) 2e- ? 2Cl-(aq)
Which is the oxidation half? Which is the
reduction half? (Eocell 1.76 V) What is the
standard reduction
potential for In3(aq) being
reduced to In(aq)?

16
Cell potential and Stoichiometry

Youve got the copper-zinc cell
Zn(s) Cu2(aq) ? Zn2(aq) Cu(s)
So our cell potential is 1.10 V for this cell
What if we had a cell and just tripled all the
materials in the cell?
3Zn(s) 3Cu2(aq) ? 3Zn2(aq) 3Cu(s)
It wouldnt affect the cell potential! Think of
our waterfall view of potential. If you add more
water, it doesnt change how far the water drops!

17
Tying it all together