Econ 3
If the production possibilities frontiers shown are each for one day of production, then which of the following combinations of coffee and soybeans could Chile and Colombia together make in a given day? a. 4 pounds of coffee and 16 pounds of soybeans b. 8 pounds of coffee and 15 pounds of soybeans c. 16 pounds of coffee and 10 pounds of soybeans d. 24 pounds of coffee and 4 pounds of soybeans
a. 4 pounds of coffee and 16 pounds of soybeans
If the production possibilities frontiers shown are each for one day of production, then which of the following combinations of pounds of coffee and pounds of soybeans could Chile and Colombia together not make in a given day? a. 4 pounds of coffee and 17 pounds of soybeans b. 8 pounds of coffee and 14 pounds of soybeans c. 16 pounds of coffee and 9 pounds of soybeans d. 24 pounds of coffee and 3 pounds of soybeans
a. 4 pounds of coffee and 17 pounds of soybeans
Assume that the farmer and the rancher each has 24 labor hours available. If each person divides his time equally between the production of meat and potatoes, then total production is a. 6 pounds of meat and 4.5 pounds of potatoes. b. 5.5 pounds of meat and 8 pounds of potatoes. c. 12 pounds of meat and 9 pounds of potatoes. d. 5 pounds of meat and 5.5 pounds of potatoes.
a. 6 pounds of meat and 4.5 pounds of potatoes.
Abby bakes brownies and Liam grows flowers. In which of the following cases is it impossible for both Abby and Liam to benefit from trade? a. Abby does not like flowers and Liam does not like brownies. b. Abby is better than Liam at baking brownies and Liam is better than Abby at growing flowers. c. Liam is better than Abby at baking brownies and at growing flowers. d. Both Abby and Liam can benefit from trade in all of the above cases.
a. Abby does not like flowers and Liam does not like brownies.
We could use the information in the table to draw a production possibilities frontier for England and a second production possibilities frontier for France. If we were to do this, measuring wine along the horizontal axis, then a. the slope of England's production possibilities frontier would be -4 and the slope of France's production possibilities frontier would be -0.4. b. the slope of England's production possibilities frontier would be 0.25 and the slope of France's production possibilities frontier would be -2.5. c. the slope of England's production possibilities frontier would be 0.25 and the slope of France's production possibilities frontier would be 2.5. d. the slope of England's production possibilities frontier would be 4 and the slope of France's production possibilities frontier would be 0.4.
a. the slope of England's production possibilities frontier would be -4 and the slope of France's production possibilities frontier would be -0.4.
Which of the following combinations of meat and potatoes could the farmer produce in 24 hours? a. 1 pound of meat and 8 pounds of potatoes. b. 2 pounds of meat and 2 pounds of potatoes. c. 1 pounds of meat and 5 pounds of potatoes. d. 3 pounds of meat and 2 pounds of potatoes.
b. 2 pounds of meat and 2 pounds of potatoes.
We could use the information in the table to draw a production possibilities frontier for England and a second production possibilities frontier for France. If we were to do this, measuring cheese along the horizontal axis, then a. the slope of England's production possibilities frontier would be 4 and the slope of France's production possibilities frontier would be -0.4. b. the slope of England's production possibilities frontier would be 0.25 and the slope of France's production possibilities frontier would be -2.5. c. the slope of England's production possibilities frontier would be 0.25 and the slope of France's production possibilities frontier would be 2.5. d. the slope of England's production possibilities frontier would be 4 and the slope of France's production possibilities frontier would be 0.4.
b. the slope of England's production possibilities frontier would be 0.25 and the slope of France's production possibilities frontier would be -2.5.
milk oats England 10. 4 Holland 8 6 We could use the information in the table to draw a production possibilities frontier for England and a second production possibilities frontier for Holland. If we were to do this, measuring milk along the horizontal axis, then a. the slope of England's production possibilities frontier would be 10/4 and the slope of Holland's production possibilities frontier would be -4/3. b. the slope of England's production possibilities frontier would be 4/10 and the slope of Holland's production possibilities frontier would be -3/4. c. the slope of England's production possibilities frontier would be 10/4 and the slope of Holland's production possibilities frontier would be 4/3. d. the slope of England's production possibilities frontier would be 4/10 and the slope of Holland's production possibilities frontier would be 3/4.
b. the slope of England's production possibilities frontier would be 4/10 and the slope of Holland's production possibilities frontier would be -3/4.
Which of the following combinations of meat and potatoes could the rancher not produce in 24 hours? a. 5 pounds of meat and 1 pounds of potatoes. b. 2 pounds of meat and 2 pounds of potatoes. c. 1 pounds of meat and 3 pounds of potatoes. d. 4 pounds of meat and 1 pound of potatoes.
c. 1 pounds of meat and 3 pounds of potatoes.
Which of the following combinations of cheese and wine could France produce in 40 hours? a. 2 units of cheese and 20 units of wine b. 4 units of cheese and 15 units of wine c. 6 units of cheese and 5 units of wine d. 8 units of cheese and 20 units of wine
c. 6 units of cheese and 5 units of wine
A production possibilities frontier is a straight line when a. the more resources the economy uses to produce one good, the fewer resources it has available to produce the other good. b. an economy is interdependent and engaged in trade instead of self-sufficient. c. the rate of tradeoff between the two goods being produced is constant. d. the rate of tradeoff between the two goods being produced depends on how much of each good is being produced.
c. the rate of tradeoff between the two goods being produced is constant.
Which of the following combinations of cheese and wine could England not produce in 40 hours? a. 12 units of cheese and 7 units of wine b. 16 units of cheese and 6 units of wine c. 20 units of cheese and 5 units of wine d. 26 units of cheese and 4 units of wine
d. 26 units of cheese and 4 units of wine
When can two countries gain from trading two goods? a. when the first country can only produce the first good and the second country can only produce the second good b. when the first country can produce both goods, but can only produce the second good at great cost, and the second country can produce both goods, but can only produce the first good at great cost c. when the first country is better at producing both goods and the second country is worse at producing both goods d. Two countries could gain from trading two goods under all of the above conditions.
d. Two countries could gain from trading two goods under all of the above conditions.
A production possibilities frontier is bowed outward when a. the more resources the economy uses to produce one good, the fewer resources it has available to produce the other good. b. an economy is self-sufficient instead of interdependent and engaged in trade. c. the rate of tradeoff between the two goods being produced is constant. d. the rate of tradeoff between the two goods being produced depends on how much of each good is being produced.
d. the rate of tradeoff between the two goods being produced depends on how much of each good is being produced.
Suppose there are only two people in the world. Each person's production possibilities frontier also represents his or her consumption possibilities when a. neither person faces trade-offs. b. the frontiers are straight lines. c. the frontiers are bowed out. d. they choose not to trade with one another.
d. they choose not to trade with one another.