3 C H A P T E R C H E C K L I S TWhen you have completed your study of this chapter, you will be able to1 Define GDP and explain why the value of production, income, and expenditure are the same for an economy.2 Describe how economic statisticians measure GDP an distinguish between nominal GDP and real GDP.3 Describe and explain the limitations of real GDP as a measure of the standard of living.
4 21.1 GDP, INCOME, AND EXPENDITURE GDP DefinedGross domestic product or GDPThe market value of all the final goods and services produced within a country in a given time period.Value ProducedUse market prices to value production.
5 21.1 GDP, INCOME, AND EXPENDITURE What ProducedFinal good or service is a good or service that is produced for its final user and not as a component of another good or service.Intermediate good or service is a good or service that is produced by one firm, bought by another firm, and used as a component of a final good or service.GDP includes only those items that are traded in markets.
6 21.1 GDP, INCOME, AND EXPENDITURE Where ProducedWithin a countryWhen ProducedDuring a given time period.
7 21.1 GDP, INCOME, AND EXPENDITURE Circular Flows in the U.S. EconomyConsumption expenditure is the expenditure by households on consumption goods and services.Investment is the purchase of new capital goods (tools, instruments, machines, buildings, and other constructions) and additions to inventories.
8 21.1 GDP, INCOME, AND EXPENDITURE Government expenditure on goods and services is the expenditure by all levels of government on goods and services.Net exports of goods and services is the value of exports of goods and services minus the value of imports of goods and services.
9 21.1 GDP, INCOME, AND EXPENDITURE Exports of goods and services are the items that firms in in the United States produce and sell to the rest of the world.Imports of goods and services are the items that households, firms, and governments in the United States buy from the rest of the world.
10 21.1 GDP, INCOME, AND EXPENDITURE Total expenditure is the total amount received by producers of final goods and services.Consumption expenditure: CInvestment: IGovernment expenditure on goods and services: GNet exports: NXTotal expenditure = C + I + G + NX
11 21.1 GDP, INCOME, AND EXPENDITURE Labor earns wages.Capital earns interest.Land earns rent.Entrepreneurship earns profits.Households receive these incomes.
12 21.1 GDP, INCOME, AND EXPENDITURE Expenditure Equals IncomeBecause firms pay out everything they receive as incomes to the factors of production, total expenditure equals total income.That is:Y = C + I + G + NXThe value of production equals income equals expenditure.
13 21.1 GDP, INCOME, AND EXPENDITURE Figure 21.1 shows the circular flow of income and expenditure.The table shows the U.S. data for 2007.
14 The Expenditure Approach 21.2 MEASURING U.S. GDPThe Expenditure ApproachMeasures GDP by using data on consumption expenditure, investment, government expenditure on goods and services, and net exports.Table 21.1 on the next slide shows the calculation for 2007.
16 21.2 MEASURING U.S. GDP Expenditures Not in GDP Used Goods Expenditure on used goods is not part of GDP because these goods were part of GDP in the period in which they were produced and during which time they were new goods.Financial AssetsWhen households buy financial assets such as bonds and stocks, they are making loans, not buying goods and services.
17 The Income Approach 21.2 MEASURING U.S. GDP Measures GDP by summing the incomes that firms pay households for the factors of production they hire.The U.S. National Income and Product Account divide incomes into two big categories:WagesInterest, rent, and profits
18 21.2 MEASURING U.S. GDPWagesWages, called compensation of employees in the national accounts, is the payment for labor services.It includes net wages and salaries plus fringe benefits paid by employers such health care insurance, social security contributions, and pension fund contributions.
19 21.2 MEASURING U.S. GDP Interest, Rent, and Profit Interest, rent, and profit, called net operating surplus in the national account, is the sum of the incomes earned by capital, land, and entrepreneurship.Interest is the income households receive on loans they make minus the interest they pay on their borrowing.Rent includes payments for the use of land and other rented inputs.Profit includes the profits of corporations and small businesses.
22 21.2 MEASURING U.S. GDPNet domestic product at factor cost is the sum of wages, interest, rent, and profit.Net domestic product at factor cost is not GDP.We need to make two adjustments to arrive at GDP:One from factor cost to market pricesOne from net product to gross product
23 21.2 MEASURING U.S. GDP From Factor Cost to Market Price The expenditure approach values goods at market prices; the income approach values them at factor cost.Indirect taxes (such as sales taxes) make market prices exceed factor cost.Subsidies (payments by government to firms) make factor cost exceed market prices.To convert the value at factor cost to the value at market prices, we must:Add indirect taxes and subtract subsidies
25 21.2 MEASURING U.S. GDPFrom Gross to NetThe expenditure approach measures gross product; the income approach measures net product.Gross profit is a firm’s profit before subtracting the depreciation of capital.Net profit is a firm’s profit after subtracting the depreciation of capital.Depreciation is the decrease in the value of capital that results from its use and from obsolescence.
26 21.2 MEASURING U.S. GDPIncome includes net profit, so the income approach gives a net measure.Expenditure includes investment. Because some new capital is purchased to replace depreciated capital, the expenditure approach gives a gross measure.To get gross domestic product from the income approach, we must add depreciation to total income.After making these two adjustments the income approach almost gives the same estimate of GDP as the expenditure approach.
28 21.2 MEASURING U.S. GDPStatistical DiscrepancyThe income approach and the expenditure approach do not deliver exactly the same estimate of GDP—there is a statistical discrepancy.Statistical discrepancy is the discrepancy between the expenditure approach and income approach estimates of GDP, calculated as the GDP expenditure total minus the GDP income total.
30 GDP and Related Measures of Production and Income 21.2 MEASURING U.S. GDPGDP and Related Measures of Production and IncomeGross national product or GNP is the market value of all the final goods and services produced anywhere in the world in a given time period by the factors of production supplied by residents of the country.U.S. GNP = U.S. GDP + Net factor income from abroad
31 Disposable Personal Income 21.2 MEASURING U.S. GDPDisposable Personal IncomeConsumption expenditure is one of the largest components of aggregate expenditure and one of the main influences on it is disposable personal income.Disposable personal income is the income received by households minus personal income taxes paid.
32 21.2 MEASURING U.S. GDPFigure 21.2 shows the relationship between GDP, GNP, and disposable personal income.
33 Real GDP and Nominal GDP 21.2 MEASURING U.S. GDPReal GDP and Nominal GDPReal GDP is the value of the final goods and services produced in a given year expressed in the prices of the base year.Nominal GDP is the value of the final goods and services produced in a given year expressed in the prices of that same year.The method of calculating real GDP changed in recent years. Here we describe the essence of the calculation. The appendix gives the technical details.
34 Calculating Real GDP 21.2 MEASURING U.S. GDP The goal of calculating real GDP is to measure the extent to which total production has increasedReal GDP removes the influence of price changes from the nominal GDP numbers.To focus on the principles and keep the numbers easy to work with, we’ll calculate real GDP for an economy that produces only one consumption good, one capital good, and one government service.
35 21.2 MEASURING U.S. GDPTable 21.3 shows the calculation with 2000 (base year) and 2008.To find the total expenditure in 2000 multiply the quantity of each item produced in 2000 by its price in 2000.Then sum the expenditures to find nominal GDP in 2000.The next slide shows the data.
36 Nominal GDP in 2000 is $100 million. Because 2000 is the base year, real GDP in 2000 is also $100 million.
37 21.2 MEASURING U.S. GDPIn part (b) of Table 21.3, we calculate nominal GDP in 2008.Again, we calculate nominal GDP by multiplying the quantity of each item produced by its price and then sum the expenditures to find nominal GDP in 2008.
39 21.2 MEASURING U.S. GDPNominal GDP in 2000 is $100 million and in 2008 it is $300 million.Nominal GDP in 2008 is three times its value in 2000.But by how much has the quantity of final goods and services produced increased?
40 21.2 MEASURING U.S. GDPThe increase in real GDP will tell by how much the quantity of good and services has increased.Real GDP in 2008 is what the total expenditure would have been in 2008 if prices had remained the same as they were in 2000.To calculate real GDP in 2008 multiply the quantities produced in 2008 by the price in 2000 and the sum these expenditures to find real GDP in 2008.Part (c) of Table 21.3 shows the details.
41 Real GDP in 2000 is $100 million.Real GDP in 2008 is $160 million—only 1.6 times real GDP in 2000.
42 21.3 THE USE AND LIMITATIONS OF REAL GDP We use estimates of real GDP for two main purposes:To compare the standard of living over timeTo compare the standard of living among countriesThe Standard of Living Over TimeTo compare living standards we calculate real GDP per person—real GDP divided by the population.Table 21.4 shows two calculations
43 21.3 THE USE AND LIMITATIONS OF REAL GDP In 1967, real GDP in the United States was $3,485 billion and the population of the United States was million.Real GDP per person = $3,485 billion ÷ millionReal GDP per person = $17,536In most years, real GDP per person increases, but sometimes it doesn’t change.
44 21.3 THE USE AND LIMITATIONS OF REAL GDP Long-Term TrendFigure 21.3 shows the long-term trend in U.S. real GDP per person.Real GDP per person doubled in the 36 years from 1967 to 2002.
45 21.3 THE USE AND LIMITATIONS OF REAL GDP Short-Term FluctuationsFluctuations in the pace of expansion of real GDP is called the business cycle.The business cycle is a periodic irregular up-and down movement of total production and other measure of economic activity.The four stages of a business cycle are expansion, peak, recession, and trough.
46 21.3 THE USE AND LIMITATIONS OF REAL GDP The shaded periods show the recessions—periods of falling production that lasts for at least six months.
47 21.3 THE USE AND LIMITATIONS OF REAL GDP Standard of Living Across CountriesTo compare living standards across countries, we must convert real GDP into a common currency and common set of prices, called purchasing power parity.Goods and Services Omitted from GDPHousehold productionUnderground productionLeisure timeEnvironment quality
48 21.3 THE USE AND LIMITATIONS OF REAL GDP Household ProductionReal GDP omits household production, it underestimates the value of the production of many people, most of them women.Underground ProductionHidden from government to avoid taxes and regulations or illegal.Because underground economic activity is unreported, it is omitted from GDP.
49 21.3 THE USE AND LIMITATIONS OF REAL GDP Leisure TimeOur working time is valued as part of GDP, but our leisure time is not.Environment QualityPollution is not subtracted from GDP.We do not count the deteriorating atmosphere as a negative part of GDP.If our standard of living is adversely affected by pollution, our GDP measure does not show this fact.
50 21.3 THE USE AND LIMITATIONS OF REAL GDP Other Influences on the Standard of LivingHealth and Life ExpectancyGood health and a long life do not show up directly in real GDP.Political Freedom and Social JusticeA country might have a very large real GDP per person but have limited political freedom and social justice.A lower standard of living than one that had the same amount of real GDP but in which everyone enjoyed political freedom.
51 APPENDIX: MEASURING REAL GDP The Problem with Base-Year PricesWe’ll calculate real GDP in 2008 using 2000 as the base year and found that real GDP in 2008 was 1.6 percent greater than in 2000—an increase of 60%.But if we had used 2008 prices rather than 2000, real GDP would have increased from $150 million (2008 dollars) in 2000 to $300 million in 2008—an increase of 100%.So did real GDP increase by 60% or 100%?
52 APPENDIX: MEASURING REAL GDP The BEA method uses the prices of both years.The three steps in the method areValue production in the prices of adjacent years.Find the average of the two percentage changes.Link (chain) back to the base year.
53 APPENDIX: MEASURING REAL GDP Value Production in the Prices of Adjacent YearsLet’s take as the two adjacent years 2008 and its preceding year 2007.Value the quantities produced in 2007 and 2008 at both the prices of 2007 and the prices of 2008.Table A21.1 shows the calculations.
55 APPENDIX: MEASURING REAL GDP The table givesValue of production in 2007 at 2007 prices is $145.Value of production in 2008 at 2007 prices is $160.Value of production in 2007 at 2008 prices is $158.Value of production in 2008 at 2008 prices is $172.The next step is the find the percentage increases using 2007 prices and 2008 prices and then average these two percentages.
56 APPENDIX: MEASURING REAL GDP Find the Average of Two Percentage ChangesTable A21.1 sets out the calculation:Value of production in 2007 at 2007 prices is $145.Value of production in 2008 at 2007 prices is $160.Using 2007 prices, production increased by 10.3%.Value of production in 2007 at 2008 prices is $158.Value of production in 2008 at 2008 prices is $172.Using 2008 prices, production increased by 8.9%.The average percentage increase in production is 9.6%.
58 APPENDIX: MEASURING REAL GDP Link (Chain) Back to the Base YearStarting in the base year, apply the calculated average percentage increase each year to obtain the chained-dollar real GDP.Figure A21.1 illustrates the calculation with assumed data.