MACROECONOMICS I
February 28th, 201
Class 2. National Accounts (Cont).
Introduction to Economic Growth

•  Real GDP: Chain-weighted approach
•  GDP deflator
•  Introduction to economic growth
•
Class Outline

1.
Why are they equivalent ?
GDP:  Three Equivalent Approaches
1.  Production approach (value-added)
2.  Income approach
3.  Expenditure approach

Firms
Households
Labor
THE CIRCULAR FLOW MODEL OF MARKET ECONOMY
Bicycles
Expenditure ($)
Income ($)
The rule of accounting: Expenditure of buyers = Income of sellers
Total production =
 =Total income =
=Total expenditure

GDP  by the Expenditure Approach
Source: Czech Statistical Office. Qatar Ministry of development planning and statistics.
Expenditure category
Czech Republic
Qatar
China
Consumption
71.1%
26.9%
?
Investment
23.3%
35.3%
?
Net export
5.6%
37.8%
?
GDP
100%
100%

GDP  by the Expenditure Approach
Source: Czech Statistical Office. Qatar Ministry of development planning and statistics.
Expenditure category
Czech Republic
Qatar
China
Consumption
71.1%
26.9%
49.1%
Investment
23.3%
35.3%
48.3%
Net export
5.6%
37.8%
2.6 %
GDP
100%
100%
100%

GDP Variations
GDP
• Expressed in current prices
• Expressed in constant prices
• Removing seasonal pattern
• Adjustment for differences in standards of living

Seasonally Adjusted GDP
• Quarter-to-quarter fluctuations
• A pronounced seasonal pattern:
Steady growth over the year -  peaking in Q4  - sharp drop in Q1
Source: IMF Financial Statistics Database

PPP Adjusted GDP
§ Comparing the standards of living (GDP per capita) across countries
• Converting GDP into common currency using  currency exchange rates
Issues:
 1. Variation of exchange rates
 2. Difference in prices of basic goods
Solution: using a common set of prices which reflects the purchasing power
Purchasing power parity: The price of a typical basket of goods is equal across countries being
converted into the common currency

Real GDP: The Chain-Weighted Approach
• GDP growth rate:
• The growth rate is affected by the choice of the base year
What year to choose?

Real GDP: The Chain-Weighted Approach
Popcorn
Movies
Year
Q
P ($)
Q
P($)
2010
10
5
5
3
2011
15
10
10
5
2012
10
15
12
10
TE
Real GDP (100=2010)?
Real GDP growth rate?

Real GDP: Example (Cont.)
Popcorn
Movies
Real GDP growth rate
Year
Q
P ($)
Q
P($)
2010
10
5
5
3
---
2011
15
10
10
5
   60 %
2012
10
15
12
10
-20%
Real GDP (100=2011)

Real GDP: Example (Cont.)
Popcorn
Movies
Real GDP growth rate
Year
Q
P ($)
Q
P($)
2010
10
5
5
3
---
2011
15
10
10
5
   62 %
2012
10
15
12
10
-16%
Real GDP (100=2012)

Real GDP: The Chain-Weighted Approach
Three step procedure: Step 1
Real GDP growth rate
(100=2010)
Real GDP growth rate
(100=2011)
Real GDP growth rate
(100=2012)
Year
2010
---
---
---
2011
   61 %
60%
62%
2012
-19%
-20%
-16%

Real GDP: The Chain-Weighted Approach
Real GDP growth rate
(100=2010)
Real GDP growth rate
(100=2011)
Real GDP growth rate
(100=2012)
Year
2010
---
2011
   61 %
60%
62%
2012
-19%
-20%
-16%
Three step procedure: Step 2

Real GDP: The Chain-Weighted Approach (Cont.)
• In order to calculate next year real GDP, we need to know the previous year figure
GDPCW2011= GDP2010 (1+gR2011)
GDPCW2012= GDPCW2011 (1+gR2012)
Three step procedure: Step 3
•  If we start from year 2011, real GDP for 2010 is
GDPCW2010= GDP2011 /(1+gR2011)

The GDP Deflator
• Changes in the overall  price level between the base year and the current year
• The price of output relative to ithe price in a base year
GDP Deflator(t) = Nominal GDP (t)/Real GDP(t)
•
• It is an index
• Equals to 1 or 100 in the base year
• Its  level has no economic interpretation
• Removes the inflation out of nominal GDP

The GDP Deflator (Cont.)
• US GDP deflator (100=2005)
GDP Deflator (2006) = 103
Þ Increase in overall prices by 3 % relative
to the base year
• GDP Deflator (2000) = 88.7
•
Year
Deflator
2000
88.723
2001
90.727
2002
92.196
2003
94.135
2004
96.786
2005
100
2006
103.231
2007
106.227
2008
108.582
2009
109.529
2010
110.993
2011
113.359
2012
115.36
ÞIncrease in overall prices between 2000 and 2005 by 11.3 % compared
N!B! Deflator shows the change in prices relative to the base year

The GDP Deflator (Cont.)
Year
Deflator
Inflation rate
2000
88.723
2.17
2001
90.727
2.26
2002
92.196
1.62
2003
94.135
2.10
2004
96.786
2.82
2005
100
3.32
2006
103.231
3.23
2007
106.227
2.90
2008
108.582
2.22
2009
109.529
0.87
2010
110.993
1.34
2011
113.359
2.13
2012
115.36
1.77
•Inflation – a change in aggregate price level from one year to another
•

GDP as a Measure of  Well-Being
GDP does not account for:
• Non-marker transactions
• Leisure
• Improved product quality
• Distribution of income
• Quality of environment
• Depletion of resources
§ Developed by Simon Kuznets in 1930 for BEA as a tool which allows to monitor the effect of
government policy

Czech Republic: Czech statistical office
Český statistický úřad (CSU)
www.czso.cz
Czech National Bank: Global Economics Outlook
USA
U.S. Bureau of Economic Analysis (BEA)
www.bea.gov
European Union
Directorate General on Economic and Financial Affairs of the European Commission
http://ec.europa.eu/economy_finance/eu/index_en.htm
OECD
www.oecd.org
Data Sources

Long Run: Economic Growth
Definition: Increase in real GDP per capita
Two aspects
•  Changes in GDP per capita within one country over time
•  Tremendous differences in GDP per capital across countries
•
The World Bank Classification based on GNP per capita
• Low income: < $1,005
• Middle income: $1,006 –$12,000
• High income: >$12,000
•

Cross-Country Income Differences



Source: Mankiw (2011)
Economic Growth
Changes over time

Economic Growth (Cont.)
§ Distribution of countries according to PPP-adjusted real GDP per capita
Source: Acemoglu, D.  (2009)
Distribution shift to the right => Increasing inequality across countries

Economic Growth (Cont.)
How can the US be 32 times richer than Bangladesh?
• Different growth rate
TE If we take two countries with the same GDP per capita
One country is growing at 2 % per year
Another country is not growing (0% per year)
Þ In 200 years
Þ

The evolution of GDP per capita, 1960-2010
USA
UK
Singapore
Guatemala
S. Korea
India
Nigeria
Botswana
Log GDP

Logarithmic Scale
• If GPD per capita grows at a constant rate of 2 % per year, the value of GDP per capita increases
by larger and larger increments over time
TE

Time
X
Exponential growth

Logarithmic Scale (Cont.)
• The same proportional increase in GDP per capita is represented by the same vertical distance on
the scale (constant growth rate)

Time
LogX
Linear
growth

Fundamental Causes
• The factors potentially affecting why societies make different technology and capital
accumulation choices
ü Geographical differences
   Nature, physical, ecological, and geographical environment
ü Institution
Laws, regulations, enforcement of  property rights
ü Culture
Values, preferences, and believes
ü Luck (multiple equilibrium): divergent passes of the economies which are otherwise identical

The Vicious Circle of Poverty
GDP
Low savings
Scarce investment capital
Scarce jobs,
Poor capital
Low output and income
POVERTY

Breaking the Cycle
GDP
Better institutions
Investment
capital
Better jobs,
Technology
Higher output
ECONOMIC GROWTH

Correlates of Economic Growth
Source: Acemoglu, D.  (2009)
• Investment in physical capital

Correlates of Economic Growth (Cont.)
Source: Acemoglu, D.  (2009)
• Investment in human capital

Economic and Population Growth



Savings and Economic Growth



Next class: Solow-Swan Growth Model
N!B! Reading Assignment: Handout “Theories that don’t work”