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So what we have here is a solution of a copper sulfate.
And copper sulfate is an ionic compound.
The copper loses two electrons to the sulfate.
So the copper has a positive 2 charge,
and the sulfate has a negative 2 charge.
This is a cation.
This is an anion.
So you could imagine it's very easy to dissolve it
in a polar solvent like water.
So this is an aqueous solution.
We are dissolving it in water, and it actually
does have this blue color.
So one way to think about it is this
is a bunch of copper cations dissolved
in water and a bunch of sulfate anions also dissolved
in this water right over here.
Now, we're going to do a little bit of an experiment.
We're going to take some solid zinc,
and solid zinc would have this kind of metallic gray color.
We're going to take a powder of solid zinc metal,
and throw it into this solution, and think
about what is going to happen.
So that's solid zinc right over there.
So zinc in the solid state plus inside
of this solution of copper sulfate, what do we think
is going to happen?
And I actually encourage you to pause the video,
look at this table of electronegativities,
and look at what's going on here.
Think about who has the electrons
and who might want the electrons,
and then think about what you think is going to happen.
Well, let's look at the electronegativities right
over here.
Copper is more electronegative than zinc is.
And so, if there was a way for copper to take electrons
from the zinc, it would, especially this copper right
over here.
These are positively charged coppers.
They would love nothing more than to take some electrons
and become neutral.
And look-- there's someone to take those electrons from.
And so what you get is a redox reaction.
And we'll look at the half reactions in a second.
You get a redox reaction where the copper takes electrons
from the zinc.
So it becomes neutral solid copper.
And the zinc loses those electrons to the copper.
And so those become zinc cations.
Or you could think of it as zinc sulfate dissolved
in the aqueous solution.
So let me write that down.
Zinc sulfate, and that has a negative charge still,
and it is in an aqueous solution.
So what will this actually look like?
Let me put another glass here.
So this is before the reaction starts.
After the reaction, it's going to look something like this.
Zinc sulfate is actually a clearish looking liquid.
So let me draw that.
The liquid will actually become clear.
So zinc sulfate is a clearish liquid.
And instead of having solid zinc here, now
you're going to have solid copper that
will have precipitated out of the solution.
So that's pretty neat.
And just to make sure that we understand it
in terms of oxidation and reduction,
let's think about the half reactions here.
So let's think about the half reaction for zinc.
So solid zinc right over here, it
has a neutral oxidation state.
It has no charge.
And then we end up right over here
with zinc that has a positive charge, a positive 2 charge.
So what happened right here?
It lost electrons.
It got oxidized.
So it lost two electrons.
The zinc got oxidized.
And then what happened to the copper?
Well, the copper started as a cation.
So it started in the aqueous solution.
And then it gained two electrons.
Each ion of copper gained two electrons.
And then we end up with neutral copper in the solid state.
So it's oxidation number was reduced.
It became more negative.
So we could say that the copper was reduced
by the zinc, the zinc oxidized by the copper.
And we see that the sulfate, its charge didn't change.
And when you're dealing with an actual ionic compound,
the oxidation state is its actual charge.
It's not hypothetical anymore.