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Current time:0:00Total duration:9:56

AP.MACRO:

MKT‑1 (EU)

, MKT‑1.B (LO)

, MKT‑1.B.1 (EK)

, MKT‑1.B.2 (EK)

AP.MICRO: MKT‑2 (EU)

, MKT‑2.B (LO)

, MKT‑2.B.1 (EK)

, MKT‑2.B.2 (EK)

- [Instructor] Let's
imagine a very simple world, as we tend to do in economics, that has two countries that
are each capable of producing either pants or shirts,
or some combination. And so what we have here are the production possibility curves for each of those countries, and this is in per worker per day. So, for example, in country
A, per worker per day, they could, if they put all
of their energy into pants, they could produce 20. If they put all of their
energy into shirts, they could produce 10. Or there could be some combination that would sit on this line. Now, to help us digest the
production possibility curves for these two countries, let me construct an output table. So this will be, this column will be the
output for country A. This column will be the
output for country B. And we're gonna think about
the maximum number of pants, maximum pants, the maximum output of
pants per worker per day. The input is the worker per day. And then let's think about
the maximum number of shirts. So pause this video, and see
if you can fill this out. What are the max pants and shirts in country A and country B? Well, in country A, I
already talked about it, the maximum pants is 20, 20 pants. And then the maximum shirts, if they didn't make any pants, are 10. And in country B, the maximum pants are 30, and the maximum shirts, it
looks like that is about 45. Now, from either of these
production possibility curves or from this output table, because we have a
constant opportunity cost, these production possibility curves are straight lines with a fixed slope, we can calculate the opportunity costs. So let's do that next. So this is country A, and then this is country B. And let me calculate the
opportunity cost of pants, and let's calculate the
opportunity cost of shirts. So pause this video, and see
if you can figure that out. What are the opportunity
costs of pants and shirts in countries A and B? And fill out this table. Well, one way to think about it, in country A, I could put
all of my energy into pants and produce 20 pants, or I could put all of
my energy into shirts and produce 10 shirts. 10 shirts, s for shirts, p for pants. And so if I want the cost of pants, I could just divide both sides by 20, and I would get pants, the amount of energy per pant is equal to, well, 10 divided by 20 is 1/2 a shirt. So the energy for pant is 1/2 for, is the same as the energy for 1/2 a shirt. And so we could say the opportunity cost of producing a pant is 1/2 a shirt. If we want the opportunity
cost for shirts, we could take the
reciprocal of this number. We could say it's going
to be two over one pant. Or we could start with this
equation right over here, and instead of solving for
p, we could solve for s. How much energy, in terms of pants, does it take for us to produce one shirt? So if you divide both sides
of this equation by 10, you would get, you would get two p is equal to s. Or another way of thinking about it, the energy to create one shirt is equal to the energy
to create two pants. So the opportunity cost of
producing a shirt is two pants. With that same energy of the shirt, you could produce two pants. Now, let's also fill it out for country B. And if you haven't done so already, try to use the same method to fill this, the opportunity costs for
pants and shirts for country B. Well, in country B, I could
put all of my energy into pants and produce 30 pants or all of my energy into
shirts and produce 45 shirts. So the opportunity cost per pant, if I divide both sides by 30, it'd be 45 over 30,
which would be equal to, they're both divisible by 15, 3/2 of a shirt. The energy for one pair of pants is the same as the
energy for 1 1/2 shirts, I guess I could say. So let me write it that way. So the opportunity cost of pants is, for each pair, I'm giving up 1 1/2 shirts. And then, in the
opportunity cost for shirts, well, I could just solve for s here. If I divide both sides by 45, I get the same energy for
one shirt would be 30/45 of a pair of pants, which is the same thing
as 2/3 of a pair of pants. And so I could write that
as 2/3 of a pair of pants, or, if I want, oh, let me
just write it that way, 2/3 of a pair of pants. So given the opportunity costs, what should each of
these countries focus on? Pause this video, and
try to figure that out. Well, let's first compare their
opportunity costs in pants. So let's first compare their
opportunity cost in pants. It is clear that country A
has a lower opportunity cost for producing a pair of pants. It's only giving up 1/2 a shirt while country B is giving up 1 1/2 shirts. So country A has the comparative
advantage right over here, so comparative advantage, right over here, in pants. And so it should focus all of its energy, according to the theory
of comparative advantage, it should focus all of
its energy on pants. And likewise, if we look at, so here we compared this to this, and likewise, if we try to look at shirts, right over here, if we look at their opportunity cost, country B is only giving
up 2/3 of a pair of pants while country A would be
giving up two pairs of pants. So country B has the
lower opportunity cost or the comparative advantage in shirts. So country B should put all
of their focus here on shirts. Now, I know what you might be thinking. People can't just walk
around wearing only shirts. People might get cold below their waist. Or people don't want to only wear pants. They might get cold above their waist. And so how can people in these countries get the other type of garment? Well, the obvious answer is,
if they focus in this way, they can trade. And what would be an
acceptable trading price, let's say, for pants? Let's focus on pants for a second. So if we're thinking about
the market for pants, so if you're country A, what would you be
willing to sell pants for in terms of shirts? Well, a good price, so to speak, would be something higher
than your opportunity cost. So A willing to sell, sell pants at price, I'll put that in quotes
'cause we're really thinking of price in terms of another good, at price greater than
their opportunity cost, greater than 1/2 of a shirt. And you could think of this
willing to trade or sell. I'll put that in quotes. They're really trading
in our everyday language, right over here. And likewise, what about country B? Well, B willing to buy pants, they need pants, otherwise they
would just be walking around with only shirts on, willing to buy pants at a price, at a price less than their
opportunity cost for pants. And so that would be less than 1.5 of a shirt. So what would be a price that
is greater than 1/2 a shirt and less than 1 1/2 of a shirt? And really any price in between
these two values would work. Well, a nice round number is, well, they could trade at one
pair of pants for one shirt. So a clearing price, a price that would work could be one p, one pants, for one shirt. And now, let's appreciate
the gains from trade that they would both have here. So let's imagine this
world where country A is producing 20 pants per worker per day. But let's say they decide that they want, instead of those 20 pants, they would want to trade
15 of them away for shirts. And so they would get, at this price, they would get 15 shirts. So they're gonna give up 15 pants. They're giving up 15 pants, so they'll only have five
pants right over here. But they're going to get 15 shirts. So they're gonna get 15 shirts. And they're going to end right over here. This is where country
A is going to end up. And what's cool about this is we've gone beyond the
production possibilities curve. So you see, very clearly,
the gain from trade. Country A could not have gotten
to this point on its own. This is above the production
possibilities curve. Likewise, country B was over here, with 45 shirts. It gave up 15 of those shirts. It now has 30 shirts. But it now has 15 pants. At least some of the people in the country are going to be able to wear pants now. So it now has 15 pants. Once again, it, too, is in a point beyond its production possibilities curve. It would not have been able
to get here without the trade. So they are both better off. So the key thing, the key
takeaway from this video is we now appreciate why
comparative advantage is valuable, once again, making all the assumptions for these simplified economic models, because we can calculate
out opportunity cost from that comparative advantage. And then we could think
about what's a good price that they'd be willing to trade at and see that when they trade, they both are able to get beyond their production possibilities curve.

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