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3 Interdependence and the Gains from Trade
Ask your students in advance to bring calculators to class, as this PowerPoint requires them to do some calculations. Students are more likely to learn that trade allows both countries to consume more of both goods if they figure it out themselves rather than merely being told. And most students will be eager to try these problems if you tell them that they are good practice for the upcoming exam. While this PowerPoint chapter covers the same topics as Chapter 3 in the textbook (comparative & absolute advantage, the gains from trade), there is a difference in approach that is likely to benefit your students. In the textbook, students see these topics covered in the context of an example involving two individual producers (the farmer & rancher). After the example, the textbook states that the lessons from this example apply to countries as well as individual producers. This PowerPoint presentation takes the opposite approach, illustrating the concepts with an example that involves two countries, and then stating that that the lessons of the example apply to individuals as well as countries. Seeing the analysis both ways will help students learn it better. The example in this PowerPoint builds on the PPF example introduced in the Chapter 2 PowerPoint. (However, it is not essential to cover the Chapter 2 PowerPoint before this one.) This PowerPoint does not include “Should Tiger Woods Mow His Own Lawn?” That precious little section of the book provides an additional example of comparative advantage that students can easily understand on their own, and does not introduce any new concepts. This PowerPoint also excludes the very last item before the chapter’s conclusion, “Should the United States Trade with Other Countries?” In the textbook, the function of this last section is to assert that the concepts of comparative advantage and gains from trade apply to countries as well as individual producers. This is superfluous here, because the example in this PowerPoint involves trade between countries rather than between individuals.
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In this chapter, look for the answers to these questions:
Why do people – and nations – choose to be economically interdependent? How can trade make everyone better off? What is absolute advantage? What is comparative advantage? How are these concepts similar? How are they different? CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Interdependence Every day you rely on many people from around the world, most of whom you do not know, to provide you with the goods and services you enjoy. hair gel from Cleveland, OH cell phone from Taiwan dress shirt from China coffee from Kenya CHAPTER 3 INTERDEPENDENCE
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Interdependence One of the Ten Principles of Economics from Chapter 1:
One of the Ten Principles of Economics from Chapter 1: Trade can make everyone better off. We will now learn why people – and nations – choose to be interdependent, and how they gain from trade. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Our Example Two countries: the U.S. and Japan
Two countries: the U.S. and Japan Two goods: computers and wheat One resource: labor, measured in hours We will look at how much of both goods each country produces and consumes if the country chooses to be self-sufficient if it trades with the other country The lessons illustrated by this international trade example also apply to trade between two individual producers. Note that this chapter in the textbook does the reverse: It develops the lessons in the context of an example involving two individual producers, and then states that the lessons also apply to international trade. So, between this PowerPoint and the textbook chapter, students will see the same concepts and lessons developed in two different but entirely consistent approaches and examples. The example in this PowerPoint is highly contrived and unrealistic in order to illustrate complex concepts as simply as possible. The example has some qualities that make it especially valuable: * The two goods are fundamentally different (one is agricultural, the other manufactured), which makes gains from trade based on comparative advantage very likely. An example using more similar goods, say laptop computers and MP3 players, would not be appropriate for this chapter because it would more likely give rise to inter-industry trade, and the gains would likely arise from a source other than comparative advantage (probably increasing returns to scale). * In the example here, it turns out that the U.S. has an absolute advantage in both goods, yet both countries gain from trade. Students see, therefore, that comparative advantage, not absolute advantage, is what’s necessary for trade to be mutually beneficial. * In the real world, one often sees gains from trade based on comparative advantage occurring between countries that are very different – such as between rich industrialized countries and poor developing countries. This example shows that trade based on comparative advantage can also occur between countries that are at similar levels of industrialization and income. (Of course, the U.S. and Japan are very different; but they are far more similar than are the U.S. and, say, Botswana or Cameroon.) CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Production Possibilities in the U.S.
The U.S. has 50,000 hours of labor available for production, per month. Producing one computer requires 100 hours of labor. Producing one ton of wheat requires 10 hours of labor. If you just covered Chapter 2, point out to your students that the U.S. PPF here is the same as in the Chapter 2 PowerPoint. In a few moments, students will be asked to derive Japan’s PPF. Warning them of this now may increase their attention, because they will have to follow the same steps that you are about to show them in your derivation of the U.S. PPF on the next slide. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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The U.S. PPF The U.S. has enough labor to produce 500 computers,
4,000 100 5,000 2,000 1,000 3,000 500 200 300 400 Computers Wheat (tons) The U.S. has enough labor to produce 500 computers, or 5000 tons of wheat, or any combination along the PPF. Deriving the intercepts, or endpoints of the PPF: The U.S. has 50,000 labor hours. It takes 100 hours to produce a computer. If the U.S. uses all its labor to produce computers, then it will produce 50,000/100 = 500 computers. Hence, the horizontal intercept is (500 computers, 0 wheat). It takes 10 hours to produce a ton of wheat. If the U.S. uses all its labor to produce wheat, then it will produce 50,000/10 = 5000 tons of wheat. Hence, the vertical intercept is (0 computers, 5000 tons of wheat). The PPF is the straight line that connects the two endpoints. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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The U.S. Without Trade 4,000 100 5,000 2,000 1,000 3,000 500 200 300 400 Computers Wheat (tons) Suppose the U.S. uses half its labor to produce each of the two goods. Then it will produce and consume 250 computers and 2500 tons of wheat. Of course, the U.S. could choose a different point. The actual choice will depend on the preferences of society. It’s important to note that, without trade, a country consumes what it produces. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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A C T I V E L E A R N I N G 1: Derive Japan’s PPF
Use the following information to draw Japan’s PPF. Japan has 30,000 hours of labor available for production, per month. Producing one computer requires 125 hours of labor. Producing one ton of wheat requires 25 hours of labor. ** Using this information to draw Japan’s PPF requires a calculator (or the ability to do long division). ** If your students have a “gutted handout” of these slides, have them draw their PPF on the axes provided on the following slide. This activity should take only 3 minutes of class time. It’s good practice & review for students, and helps break up the lecture. Your graph should measure computers on the horizontal axis. 8
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Japan’s PPF Japan has enough labor to produce 240 computers,
Computers Wheat (tons) 2,000 1,000 200 100 300 Japan has enough labor to produce 240 computers, or 1200 tons of wheat, or any combination along the PPF. Horizontal intercept: (30,000 labor-hours)/(125 hours per computer) = 240 computers. Vertical intercept: (30,000 labor-hours)/(25 hours per ton of wheat) = 1200 tons of wheat. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Japan Without Trade Computers Wheat (tons) 2,000 1,000 200 100 300 Suppose Japan uses half its labor to produce each of the two goods. Then it will produce and consume 120 computers and 600 tons of wheat. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Consumption With and Without Trade
Without trade, U.S. consumers get 250 computers and 2500 tons wheat. Japanese consumers get 120 computers and 600 tons wheat. We will compare consumption without trade to consumption with trade. First, we need to see how much of each good is produced and traded by the two countries. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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A C T I V E L E A R N I N G 2: Production under trade
1. Suppose the U.S. produces 3400 tons of wheat. How many computers would the U.S. be able to produce with its remaining labor? Draw the point representing this combination of computers and wheat on the U.S. PPF. 2. Suppose Japan produces 240 computers. How many tons of wheat would Japan be able to produce with its remaining labor? Draw this point on Japan’s PPF. Give your students a few minutes to solve these problems before showing the answers on the next slides. This will break up the lecture, get the students involved, and give them practice with “word problems.” It is not necessary that all students finish both problems before moving on. It’s fine if most finish the first, and a few finish the second. Note that most students will need a calculator to solve these problems. 12
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U.S. Production With Trade
Computers Wheat (tons) 4,000 100 5,000 2,000 1,000 3,000 500 200 300 400 Producing 3400 tons of wheat requires 34,000 labor hours. The remaining 16,000 labor hours are used to produce 160 computers. Point out to students that the red dot represents the combination (160 computers, 3400 tons of wheat). We will assume that this is the combination the U.S. produces in the scenario in which the U.S. trades. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Japan’s Production With Trade
Computers Wheat (tons) 2,000 1,000 200 100 300 Producing 240 computers requires all of Japan’s 30,000 labor hours. So, Japan would produce 0 tons of wheat. The red dot represents the combination (240 computers, 0 tons wheat). We will assume this is the combination that Japan produces. Point out that, just because Japan is not producing any wheat does not mean that Japan’s consumers must all go on the Atkins diet (which shuns bread and other foods made from wheat). When trade is allowed, Japan can trade some of its computers for wheat produced in another country. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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International Trade Exports: goods produced domestically and sold abroad Imports: goods produced abroad and sold domestically You might want to see if your students can figure out that consumption is the difference between the amount produced and the amount traded. Giving them a hint might be helpful. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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A C T I V E L E A R N I N G 3: Consumption under trade
Suppose the U.S. exports 700 tons of wheat to Japan, and imports 110 computers from Japan. (So, Japan imports 700 tons wheat and exports 110 computers.) How much of each good is consumed in the U.S.? Plot this combination on the U.S. PPF. How much of each good is consumed in Japan? Plot this combination on Japan’s PPF. Some students need help figuring out that consumption of a good is the difference between the amount produced and the amount exported. 16
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U.S. Consumption With Trade
Computers Wheat (tons) computers wheat produced 160 3400 + imported 110 – exported 700 = amount consumed 270 2700 4,000 100 5,000 2,000 1,000 3,000 500 200 300 400 CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Japan’s Consumption With Trade
computers wheat produced 240 + imported 700 – exported 110 = amount consumed 130 Computers Wheat (tons) 2,000 1,000 200 100 300 CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Trade Makes Both Countries Better Off
U.S. consumption without trade consumption with trade gains from trade computers 250 270 20 wheat 2,500 2,700 200 Japan consumption without trade consumption with trade gains from trade computers 120 130 10 wheat 600 700 100 CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Where Do These Gains Come From?
Absolute advantage: the ability to produce a good using fewer inputs than another producer The U.S. has an absolute advantage in the production of wheat: producing a ton of wheat uses 10 labor hours in the U.S. vs. 25 in Japan. If each country has an absolute advantage in one good and specializes in that good, then both countries can gain from trade. This definition of absolute advantage is new to the 4th edition. The definition from the 3rd edition read “the comparison among producers of a good according to their productivity.” The new definition is more precise. The last bullet point states that gains from trade will arise if each country has an absolute advantage in something. We will see next, though, that absolute advantage is not required for both countries to gain from trade. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Where Do These Gains Come From?
Which country has an absolute advantage in computers? Producing one computer requires labor hours in Japan, but only 100 in the U.S. The U.S. has an absolute advantage in both goods! So why does Japan specialize in computers? Why do both countries gain from trade? CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Two Measures of the Cost of a Good
Two countries can gain from trade when each specializes in the good it produces at lowest cost. Absolute advantage measures the cost of a good in terms of the inputs required to produce it. Recall: Another measure of cost is opportunity cost. In our example, the opportunity cost of a computer is the amount of wheat that could be produced using the labor needed to produce one computer. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Opportunity Cost and Comparative Advantage
Comparative advantage: the ability to produce a good at a lower opportunity cost than another producer Which country has the comparative advantage in computers? To answer this, must determine the opp. cost of a computer in each country. This definition of comparative advantage is new to the 4th edition. The definition from the 3rd edition read “the comparison among producers of a good according to their opportunity cost.” The new definition is more precise. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Opportunity Cost and Comparative Advantage
The opp. cost of a computer is 10 tons of wheat in the U.S., because producing one computer requires 100 labor hours, which instead could produce 10 tons of wheat. 5 tons of wheat in Japan, because producing one computer requires 125 labor hours, which instead could produce 5 tons of wheat. So, Japan has a comparative advantage in computers. (Absolute advantage is not necessary for comparative advantage!) CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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Comparative Advantage and Trade
Differences in opportunity cost and comparative advantage create the gains from trade. When each country specializes in the good(s) in which it has a comparative advantage, total production in all countries is higher, the world’s “economic pie” is bigger, and all countries can gain from trade. The same applies to individual producers (like the farmer and the rancher) specializing in different goods and trading with each other. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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A C T I V E L E A R N I N G 4: Absolute & comparative advantage
Argentina and Brazil each have 10,000 hours of labor per month, and the following technologies: Argentina producing one pound coffee requires 2 hours producing one bottle wine requires 4 hours Brazil producing one pound coffee requires 1 hour producing one bottle wine requires 5 hours Which country has an absolute advantage in the production of coffee? Which country has a comparative advantage in the production of wine? 26
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A C T I V E L E A R N I N G 4: Answers
Brazil has an absolute advantage in coffee: Producing a pound of coffee requires only one labor-hour in Brazil, but two in Argentina. Argentina has a comparative advantage in wine: Argentina’s opp. cost of wine is two pounds of coffee, because the four labor-hours required to produce a bottle of wine could instead produce two pounds of coffee. Brazil’s opp. cost of wine is five pounds of coffee. 27
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Unanswered Questions….
We made a lot of assumptions about the quantities of each good that each country produces, trades, and consumes, and the price at which the countries trade wheat for computers. In the real world, these quantities and prices would be determined by the preferences of consumers and the technology and resources in both countries. We will begin to study this in the next chapter. For now, though, our goal was only to see that trade, indeed, can make everyone better off. The second bullet point mentions technology and resources. In our example, the technology is how many labor-hours are required to produce each good. The resources are simply the quantity of labor-hours available in each country. In the following chapter (supply & demand), students will begin their study of how prices and quantities are determined. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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CHAPTER SUMMARY Interdependence and trade allow everyone to enjoy a greater quantity and variety of goods & services. Comparative advantage means being able to produce a good at a lower opportunity cost. Absolute advantage means being able to produce a good with fewer inputs. When people – or countries – specialize in the goods in which they have a comparative advantage, the economic “pie” grows and trade can make everyone better off. CHAPTER 3 INTERDEPENDENCE AND THE GAINS FROM TRADE
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