- •About the author
- •Brief Contents
- •Contents
- •Preface
- •This Book’s Approach
- •What’s New in the Seventh Edition?
- •The Arrangement of Topics
- •Part One, Introduction
- •Part Two, Classical Theory: The Economy in the Long Run
- •Part Three, Growth Theory: The Economy in the Very Long Run
- •Part Four, Business Cycle Theory: The Economy in the Short Run
- •Part Five, Macroeconomic Policy Debates
- •Part Six, More on the Microeconomics Behind Macroeconomics
- •Epilogue
- •Alternative Routes Through the Text
- •Learning Tools
- •Case Studies
- •FYI Boxes
- •Graphs
- •Mathematical Notes
- •Chapter Summaries
- •Key Concepts
- •Questions for Review
- •Problems and Applications
- •Chapter Appendices
- •Glossary
- •Translations
- •Acknowledgments
- •Supplements and Media
- •For Instructors
- •Instructor’s Resources
- •Solutions Manual
- •Test Bank
- •PowerPoint Slides
- •For Students
- •Student Guide and Workbook
- •Online Offerings
- •EconPortal, Available Spring 2010
- •eBook
- •WebCT
- •BlackBoard
- •Additional Offerings
- •i-clicker
- •The Wall Street Journal Edition
- •Financial Times Edition
- •Dismal Scientist
- •1-1: What Macroeconomists Study
- •1-2: How Economists Think
- •Theory as Model Building
- •The Use of Multiple Models
- •Prices: Flexible Versus Sticky
- •Microeconomic Thinking and Macroeconomic Models
- •1-3: How This Book Proceeds
- •Income, Expenditure, and the Circular Flow
- •Rules for Computing GDP
- •Real GDP Versus Nominal GDP
- •The GDP Deflator
- •Chain-Weighted Measures of Real GDP
- •The Components of Expenditure
- •Other Measures of Income
- •Seasonal Adjustment
- •The Price of a Basket of Goods
- •The CPI Versus the GDP Deflator
- •The Household Survey
- •The Establishment Survey
- •The Factors of Production
- •The Production Function
- •The Supply of Goods and Services
- •3-2: How Is National Income Distributed to the Factors of Production?
- •Factor Prices
- •The Decisions Facing the Competitive Firm
- •The Firm’s Demand for Factors
- •The Division of National Income
- •The Cobb–Douglas Production Function
- •Consumption
- •Investment
- •Government Purchases
- •Changes in Saving: The Effects of Fiscal Policy
- •Changes in Investment Demand
- •3-5: Conclusion
- •4-1: What Is Money?
- •The Functions of Money
- •The Types of Money
- •The Development of Fiat Money
- •How the Quantity of Money Is Controlled
- •How the Quantity of Money Is Measured
- •4-2: The Quantity Theory of Money
- •Transactions and the Quantity Equation
- •From Transactions to Income
- •The Assumption of Constant Velocity
- •Money, Prices, and Inflation
- •4-4: Inflation and Interest Rates
- •Two Interest Rates: Real and Nominal
- •The Fisher Effect
- •Two Real Interest Rates: Ex Ante and Ex Post
- •The Cost of Holding Money
- •Future Money and Current Prices
- •4-6: The Social Costs of Inflation
- •The Layman’s View and the Classical Response
- •The Costs of Expected Inflation
- •The Costs of Unexpected Inflation
- •One Benefit of Inflation
- •4-7: Hyperinflation
- •The Costs of Hyperinflation
- •The Causes of Hyperinflation
- •4-8: Conclusion: The Classical Dichotomy
- •The Role of Net Exports
- •International Capital Flows and the Trade Balance
- •International Flows of Goods and Capital: An Example
- •Capital Mobility and the World Interest Rate
- •Why Assume a Small Open Economy?
- •The Model
- •How Policies Influence the Trade Balance
- •Evaluating Economic Policy
- •Nominal and Real Exchange Rates
- •The Real Exchange Rate and the Trade Balance
- •The Determinants of the Real Exchange Rate
- •How Policies Influence the Real Exchange Rate
- •The Effects of Trade Policies
- •The Special Case of Purchasing-Power Parity
- •Net Capital Outflow
- •The Model
- •Policies in the Large Open Economy
- •Conclusion
- •Causes of Frictional Unemployment
- •Public Policy and Frictional Unemployment
- •Minimum-Wage Laws
- •Unions and Collective Bargaining
- •Efficiency Wages
- •The Duration of Unemployment
- •Trends in Unemployment
- •Transitions Into and Out of the Labor Force
- •6-5: Labor-Market Experience: Europe
- •The Rise in European Unemployment
- •Unemployment Variation Within Europe
- •The Rise of European Leisure
- •6-6: Conclusion
- •7-1: The Accumulation of Capital
- •The Supply and Demand for Goods
- •Growth in the Capital Stock and the Steady State
- •Approaching the Steady State: A Numerical Example
- •How Saving Affects Growth
- •7-2: The Golden Rule Level of Capital
- •Comparing Steady States
- •The Transition to the Golden Rule Steady State
- •7-3: Population Growth
- •The Steady State With Population Growth
- •The Effects of Population Growth
- •Alternative Perspectives on Population Growth
- •7-4: Conclusion
- •The Efficiency of Labor
- •The Steady State With Technological Progress
- •The Effects of Technological Progress
- •Balanced Growth
- •Convergence
- •Factor Accumulation Versus Production Efficiency
- •8-3: Policies to Promote Growth
- •Evaluating the Rate of Saving
- •Changing the Rate of Saving
- •Allocating the Economy’s Investment
- •Establishing the Right Institutions
- •Encouraging Technological Progress
- •The Basic Model
- •A Two-Sector Model
- •The Microeconomics of Research and Development
- •The Process of Creative Destruction
- •8-5: Conclusion
- •Increases in the Factors of Production
- •Technological Progress
- •The Sources of Growth in the United States
- •The Solow Residual in the Short Run
- •9-1: The Facts About the Business Cycle
- •GDP and Its Components
- •Unemployment and Okun’s Law
- •Leading Economic Indicators
- •9-2: Time Horizons in Macroeconomics
- •How the Short Run and Long Run Differ
- •9-3: Aggregate Demand
- •The Quantity Equation as Aggregate Demand
- •Why the Aggregate Demand Curve Slopes Downward
- •Shifts in the Aggregate Demand Curve
- •9-4: Aggregate Supply
- •The Long Run: The Vertical Aggregate Supply Curve
- •From the Short Run to the Long Run
- •9-5: Stabilization Policy
- •Shocks to Aggregate Demand
- •Shocks to Aggregate Supply
- •10-1: The Goods Market and the IS Curve
- •The Keynesian Cross
- •The Interest Rate, Investment, and the IS Curve
- •How Fiscal Policy Shifts the IS Curve
- •10-2: The Money Market and the LM Curve
- •The Theory of Liquidity Preference
- •Income, Money Demand, and the LM Curve
- •How Monetary Policy Shifts the LM Curve
- •Shocks in the IS–LM Model
- •From the IS–LM Model to the Aggregate Demand Curve
- •The IS–LM Model in the Short Run and Long Run
- •11-3: The Great Depression
- •The Spending Hypothesis: Shocks to the IS Curve
- •The Money Hypothesis: A Shock to the LM Curve
- •Could the Depression Happen Again?
- •11-4: Conclusion
- •12-1: The Mundell–Fleming Model
- •The Goods Market and the IS* Curve
- •The Money Market and the LM* Curve
- •Putting the Pieces Together
- •Fiscal Policy
- •Monetary Policy
- •Trade Policy
- •How a Fixed-Exchange-Rate System Works
- •Fiscal Policy
- •Monetary Policy
- •Trade Policy
- •Policy in the Mundell–Fleming Model: A Summary
- •12-4: Interest Rate Differentials
- •Country Risk and Exchange-Rate Expectations
- •Differentials in the Mundell–Fleming Model
- •Pros and Cons of Different Exchange-Rate Systems
- •The Impossible Trinity
- •12-6: From the Short Run to the Long Run: The Mundell–Fleming Model With a Changing Price Level
- •12-7: A Concluding Reminder
- •Fiscal Policy
- •Monetary Policy
- •A Rule of Thumb
- •The Sticky-Price Model
- •Implications
- •Adaptive Expectations and Inflation Inertia
- •Two Causes of Rising and Falling Inflation
- •Disinflation and the Sacrifice Ratio
- •13-3: Conclusion
- •14-1: Elements of the Model
- •Output: The Demand for Goods and Services
- •The Real Interest Rate: The Fisher Equation
- •Inflation: The Phillips Curve
- •Expected Inflation: Adaptive Expectations
- •The Nominal Interest Rate: The Monetary-Policy Rule
- •14-2: Solving the Model
- •The Long-Run Equilibrium
- •The Dynamic Aggregate Supply Curve
- •The Dynamic Aggregate Demand Curve
- •The Short-Run Equilibrium
- •14-3: Using the Model
- •Long-Run Growth
- •A Shock to Aggregate Supply
- •A Shock to Aggregate Demand
- •A Shift in Monetary Policy
- •The Taylor Principle
- •14-5: Conclusion: Toward DSGE Models
- •15-1: Should Policy Be Active or Passive?
- •Lags in the Implementation and Effects of Policies
- •The Difficult Job of Economic Forecasting
- •Ignorance, Expectations, and the Lucas Critique
- •The Historical Record
- •Distrust of Policymakers and the Political Process
- •The Time Inconsistency of Discretionary Policy
- •Rules for Monetary Policy
- •16-1: The Size of the Government Debt
- •16-2: Problems in Measurement
- •Measurement Problem 1: Inflation
- •Measurement Problem 2: Capital Assets
- •Measurement Problem 3: Uncounted Liabilities
- •Measurement Problem 4: The Business Cycle
- •Summing Up
- •The Basic Logic of Ricardian Equivalence
- •Consumers and Future Taxes
- •Making a Choice
- •16-5: Other Perspectives on Government Debt
- •Balanced Budgets Versus Optimal Fiscal Policy
- •Fiscal Effects on Monetary Policy
- •Debt and the Political Process
- •International Dimensions
- •16-6: Conclusion
- •Keynes’s Conjectures
- •The Early Empirical Successes
- •The Intertemporal Budget Constraint
- •Consumer Preferences
- •Optimization
- •How Changes in Income Affect Consumption
- •Constraints on Borrowing
- •The Hypothesis
- •Implications
- •The Hypothesis
- •Implications
- •The Hypothesis
- •Implications
- •17-7: Conclusion
- •18-1: Business Fixed Investment
- •The Rental Price of Capital
- •The Cost of Capital
- •The Determinants of Investment
- •Taxes and Investment
- •The Stock Market and Tobin’s q
- •Financing Constraints
- •Banking Crises and Credit Crunches
- •18-2: Residential Investment
- •The Stock Equilibrium and the Flow Supply
- •Changes in Housing Demand
- •18-3: Inventory Investment
- •Reasons for Holding Inventories
- •18-4: Conclusion
- •19-1: Money Supply
- •100-Percent-Reserve Banking
- •Fractional-Reserve Banking
- •A Model of the Money Supply
- •The Three Instruments of Monetary Policy
- •Bank Capital, Leverage, and Capital Requirements
- •19-2: Money Demand
- •Portfolio Theories of Money Demand
- •Transactions Theories of Money Demand
- •The Baumol–Tobin Model of Cash Management
- •19-3 Conclusion
- •Lesson 2: In the short run, aggregate demand influences the amount of goods and services that a country produces.
- •Question 1: How should policymakers try to promote growth in the economy’s natural level of output?
- •Question 2: Should policymakers try to stabilize the economy?
- •Question 3: How costly is inflation, and how costly is reducing inflation?
- •Question 4: How big a problem are government budget deficits?
- •Conclusion
- •Glossary
- •Index
C H A P T E R 2 The Data of Macroeconomics | 25
The GDP Deflator
From nominal GDP and real GDP we can compute a third statistic: the GDP deflator. The GDP deflator, also called the implicit price deflator for GDP, is the ratio of nominal GDP to real GDP:
|
Nominal GDP |
|
GDP Deflator = |
|
. |
|
||
|
Real GDP |
The GDP deflator reflects what’s happening to the overall level of prices in the economy.
To better understand this, consider again an economy with only one good, bread. If P is the price of bread and Q is the quantity sold, then nominal GDP is the total number of dollars spent on bread in that year, P × Q. Real GDP is the number of loaves of bread produced in that year times the price of bread in some base year, Pbase × Q. The GDP deflator is the price of bread in that year relative to the price of bread in the base year, P/Pbase.
The definition of the GDP deflator allows us to separate nominal GDP into two parts: one part measures quantities (real GDP) and the other measures prices (the GDP deflator). That is,
Nominal GDP = Real GDP × GDP Deflator.
Nominal GDP measures the current dollar value of the output of the economy. Real GDP measures output valued at constant prices. The GDP deflator measures the price of output relative to its price in the base year. We can also write this equation as
Nominal GDP
Real GDP = GDP Deflator .
In this form, you can see how the deflator earns its name: it is used to deflate (that is, take inflation out of) nominal GDP to yield real GDP.
Chain-Weighted Measures of Real GDP
We have been discussing real GDP as if the prices used to compute this measure never change from their base-year values. If this were truly the case, over time the prices would become more and more dated. For instance, the price of computers has fallen substantially in recent years, while the price of a year at college has risen. When valuing the production of computers and education, it would be misleading to use the prices that prevailed ten or twenty years ago.
To solve this problem, the Bureau of Economic Analysis used to update periodically the prices used to compute real GDP. About every five years, a new base year was chosen. The prices were then held fixed and used to measure year-to- year changes in the production of goods and services until the base year was updated once again.
26 | P A R T I Introduction
FYI
Two Arithmetic Tricks for Working With Percentage Changes
For manipulating many relationships in economics, there is an arithmetic trick that is useful to know: the percentage change of a product of two variables is approximately the sum of the percentage changes in each of the variables.
To see how this trick works, consider an example. Let P denote the GDP deflator and Y denote real GDP. Nominal GDP is P × Y. The trick states that
Percentage Change in (P × Y)
≈(Percentage Change in P)
+(Percentage Change in Y).
For instance, suppose that in one year, real GDP is 100 and the GDP deflator is 2; the next year, real GDP is 103 and the GDP deflator is 2.1. We can calculate that real GDP rose by 3 percent and that the GDP deflator rose by 5 percent. Nominal GDP rose from 200 the first year to 216.3 the second year, an increase of 8.15 percent. Notice that the growth in nominal GDP (8.15 percent) is
approximately the sum of the growth in the GDP deflator (5 percent) and the growth in real GDP (3 percent).1
A second arithmetic trick follows as a corollary to the first: The percentage change of a ratio is approximately the percentage change in the numerator minus the percentage change in the denominator. Again, consider an example. Let Y denote GDP and L denote the population, so that Y/L is GDP per person. The second trick states that
Percentage Change in (Y/L)
≈(Percentage Change in Y)
−(Percentage Change in L).
For instance, suppose that in the first year, Y is 100,000 and L is 100, so Y/L is 1,000; in the second year, Y is 110,000 and L is 103, so Y/L is 1,068. Notice that the growth in GDP per person (6.8 percent) is approximately the growth in income (10 percent) minus the growth in population (3 percent).
In 1995, the Bureau announced a new policy for dealing with changes in the base year. In particular, it now uses chain-weighted measures of real GDP. With these new measures, the base year changes continuously over time. In essence, average prices in 2009 and 2010 are used to measure real growth from 2009 to 2010; average prices in 2010 and 2011 are used to measure real growth from 2010 to 2011; and so on. These various year-to-year growth rates are then put together to form a “chain” that can be used to compare the output of goods and services between any two dates.
This new chain-weighted measure of real GDP is better than the more traditional measure because it ensures that the prices used to compute real GDP are never far out of date. For most purposes, however, the differences are not significant. It turns out that the two measures of real GDP are highly
1. Mathematical note: The proof that this trick works begins with the product rule from calculus:
d(PY ) = Y dP + P dY.
Now divide both sides of this equation by PY to obtain:
d(PY )/(PY ) = dP/P + dY/Y. Notice that all three terms in this equation are percentage changes.
C H A P T E R 2 The Data of Macroeconomics | 27
correlated with each other. As a practical matter, both measures of real GDP reflect the same thing: economy-wide changes in the production of goods and services.
The Components of Expenditure
Economists and policymakers care not only about the economy’s total output of goods and services but also about the allocation of this output among alternative uses. The national income accounts divide GDP into four broad categories of spending:
■Consumption (C )
■Investment (I )
■Government purchases (G )
■Net exports (NX ).
Thus, letting Y stand for GDP,
Y = C + I + G + NX.
GDP is the sum of consumption, investment, government purchases, and net exports. Each dollar of GDP falls into one of these categories. This equation is an identity—an equation that must hold because of the way the variables are defined. It is called the national income accounts identity.
Consumption consists of the goods and services bought by households. It is divided into three subcategories: nondurable goods, durable goods, and services. Nondurable goods are goods that last only a short time, such as food and clothing. Durable goods are goods that last a long time, such as cars and TVs. Services include the work done for consumers by individuals and firms, such as haircuts and doctor visits.
Investment consists of goods bought for future use. Investment is also divided into three subcategories: business fixed investment, residential fixed investment, and inventory investment. Business fixed investment is the purchase of new plant and equipment by firms. Residential investment is the purchase of new housing by households and landlords. Inventory investment is the increase in firms’ inventories of goods (if inventories are falling, inventory investment is negative).
Government purchases are the goods and services bought by federal, state, and local governments. This category includes such items as military equipment, highways, and the services provided by government workers. It does not include transfer payments to individuals, such as Social Security and welfare. Because transfer payments reallocate existing income and are not made in exchange for goods and services, they are not part of GDP.
The last category, net exports, accounts for trade with other countries. Net exports are the value of goods and services sold to other countries (exports) minus the value of goods and services that foreigners sell us (imports). Net
28 | P A R T I Introduction
FYI
What Is Investment?
Newcomers to macroeconomics are sometimes confused by how macroeconomists use familiar words in new and specific ways. One example is the term “investment.” The confusion arises because what looks like investment for an individual may not be investment for the economy as a whole. The general rule is that the economy’s investment does not include purchases that merely reallocate existing assets among different individuals. Investment, as macroeconomists use the term, creates new capital.
Let’s consider some examples. Suppose we observe these two events:
Smith buys himself a 100-year-old Victorian house.
Jones builds herself a brand-new contemporary house.
What is total investment here? Two houses, one house, or zero?
A macroeconomist seeing these two transactions counts only the Jones house as investment.
Smith’s transaction has not created new housing for the economy; it has merely reallocated existing housing. Smith’s purchase is investment for Smith, but it is disinvestment for the person selling the house. By contrast, Jones has added new housing to the economy; her new house is counted as investment.
Similarly, consider these two events:
Gates buys $5 million in IBM stock from Buffett on the New York Stock Exchange.
General Motors sells $10 million in stock to the public and uses the proceeds to build a new car factory.
Here, investment is $10 million. In the first transaction, Gates is investing in IBM stock, and Buffett is disinvesting; there is no investment for the economy. By contrast, General Motors is using some of the economy’s output of goods and services to add to its stock of capital; hence, its new factory is counted as investment.
exports are positive when the value of our exports is greater than the value of our imports and negative when the value of our imports is greater than the value of our exports. Net exports represent the net expenditure from abroad on our goods and services, which provides income for domestic producers.
CASE STUDY
GDP and Its Components
In 2007 the GDP of the United States totaled about $13.8 trillion. This number is so large that it is almost impossible to comprehend. We can make it easier to understand by dividing it by the 2007 U.S. population of 302 million. In this way, we obtain GDP per person—the amount of expenditure for the average American—which equaled $45,707 in 2007.
How did this GDP get used? Table 2-1 shows that about two-thirds of it, or $32,144 per person, was spent on consumption. Investment was $7,052 per person. Government purchases were $8,854 per person, $2,192 of which was spent by the federal government on national defense.
The average American bought $7,846 of goods imported from abroad and produced $5,503 of goods that were exported to other countries. Because the average American imported more than he exported, net exports were negative. Furthermore, because the average American earned less from selling to foreign-