growth - week 4 - universitetet i oslo · growth - week 4 econ1910 - poverty and distribution in...
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Growth - Week 4ECON1910 - Poverty and distribution in developing countries
Readings: Ray chapter 3
25. January 2011
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Thinking About Development
Rates of growth of real per-capita income are . . . diverse, even over sustainedperiods . . . I do not see how one can look at �gures like those without seeingthem as representing possibilities. . .
The consequences for human welfare involved in [questions related todevelopment] are simply staggering: Once one starts thinking about them, it ishard to think about anything else.
�Robert Lucas
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Road map of today�s lecture
The Harrod-Domar model
The Solow model
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Rate of Growth
How long would it take for a quantity to double if it grows at acompounded rate of growth of 7 percent?
. . . of 10 percent?
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Rule of 70
Simple formula: Divide 70 by the rate of growth
At 7 percent compounded rate of growth, the doubling time is 10years, and vice versa.
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The Harrod-Domar model
Developed independently by Sir Roy Harrod in 1939 and Evsey Domar in1946
Explains growth in terms of the level of saving and productivity of capital.
Production = Consumption goods + Capital goods
Investment =)Capital formation
Saving means delaying present consumption
Growth depends on investing savings in increasing the capital stock
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The Harrod-Domar modelVariables
Y represents income (same as output or production)K represents capital stockδ represents depreciation rate of the capital stockS is total savingss is the savings rateI is investmentC is consumption
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Notation
I use slightly di¤erent notation than what is used in the book.
Instead of writing X (t), I write Xt
X (t) � Xt
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The Harrod-Domar modelAssumptions
Output (or income) is consumption plus savings
Yt= C t+S t (1)
The product of the savings rate and output equals saving, which equalsinvestment
sY t= S t= I t (2)
We can then write:
Yt= C t+I t (3)
Next periods capital stock equals investment less the depreciation of thecapital stock
Kt+1= (1� δ)K t+I t (4)
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The Harrod-Domar modelDe�nitions
Savings rate is s
s =SY
Capital-output ratio is θ = Amount of capital required to produce one unitof output
θ =KY
K = θY
Y =Kθ
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The Harrod-Domar modelDe�nitions
Rate of growth g
g =Yt+1 � Yt
Yt
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The Harrod-Domar modelDeriving the Harrod-Domar Equation
Lets go back to equation 4
Kt+1 = (1� δ)Kt + It
Replace K = θY and It = St = sYt
θYt+1 = (1� δ)θYt + sYt
We can then write
θYt+1 = θYt � δθYt + sYt
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The Harrod-Domar modelDeriving the Harrod-Domar Equation
From last slide
θYt+1 = θYt � δθYt + sYt
Subtract θYt from both sides
θYt+1 � θYt = sYt � δθYt
Divide by Yt on both sides
θYt+1 � θYtYt
= s � δθ
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The Harrod-Domar modelDeriving the Harrod-Domar Equation
From last slide:
θYt+1 � θYtYt
= s � δθ
Divide by θ on both sides
Yt+1 � YtYt
=sθ� δ
Replace g = Yt+1�YtYt
g =sθ� δ
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The Harrod-Domar modelThe Harrod-Domar Equation
From last slide
g =sθ� δ
Rearrange
sθ= g + δ (5)
Equation 5 is the Harrod-Domar Equation
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What the H-D equation means
g =sθ� δ
It links the growth rate to two other rates
1 The savings rate s2 The capital-output ratio θ
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Policy implications
Capital-uotput ratio is seen as exogenous, but technology-driven.
Savings rates can be a¤ected by policy.
It links the growth rate of the economy to two fundamental variables:
1 The ability of the economy to save2 Capital-output ratio
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Policy implications
By pushing up the rate of savings, it would be possible to acceleratethe rate of growth.
Likewise, by increasing the rate at which capital produces output (alower θ), growth would be enhanced.
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The Harrod-Domar modelAdding population growth
Population P grows at rate n
Pt+1 = Pt (1+ n)
Per capita income is yt
yt =YtPt
Per capita income growth rate is g �
yt+1 = yt (1+ g �)
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The Harrod-Domar modelAdding population growth
Lets go back to
θYt+1 = (1� δ)θYt + sYt
Replace Y = yP
θyt+1Pt+1 = (1� δ)θYt + sYt
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The Harrod-Domar modelAdding population growth
From last slide
θyt+1Pt+1 = (1� δ)θYt + sYt
Divide both sides by Pt
θyt+1Pt+1Pt
= (1� δ)θyt + syt
Divide both sides by ytθ
yt+1yt
Pt+1Pt
= (1� δ) +sθ
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The Harrod-Domar modelAdding population growth
From last slide
yt+1yt
Pt+1Pt
= (1� δ) +sθ
Note that yt+1yt = g� + 1 and Pt+1
Pt= n+ 1
We then get:
(g � + 1)(n+ 1) = (1� δ) +sθ
Rearrange:
sθ= (1+ g �)(n+ 1)� (1� δ) (6)
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The Harrod-Domar modelAdding population growth
From last slide
sθ= (1+ g �)(n+ 1)� (1� δ)
Write out:
sθ= g � + n+ δ� g �n
Both g � and n are small numbers, so their product is very smallrelative to the other terms and can be ignored as an approximation.
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The Harrod-Domar modelThe Harrod-Domar equation with population growth
sθ' g � + n+ δ (7)
or
g � =sθ� n� δ
1 Per capita growth rate is reduced by the population growth rate andby the capital depreciation rate
2 Per capita growth rate is increased by the savings rate and by moree¢ cient use of capital
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Are the variables exogenous?
In the H-D model; s, n and θ are treated as constants, and nota¤ected by the growth of the economy
In the H-D model; s, n and θ are treated as exogenous
What if the savings rate is a function of per capita income?
Poor people cannot save at the same rate as those who are rich
Distribution of income �and not just per capita income �a¤ects thesaving rate
Therefore the savings rate may rise with rising incomes
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Are the variables exogenous?Population growth
There is an enormous body of evidence that suggests that populationgrowth rates systematically change with income.
Demographic transition:
In poor countries the net population growth rate is low.
With an increase in living standards, death rates starts to fall.
Birth rates adjust relatively slowly to this transformation in death rates.
This causes the population growth rate to initially shoot up.
In the longer run, and with further development, birth rates starts togo down, and the population growth rate falls to a low level.
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The endogeneity of population growth
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The endogeneity of population growth
The growth rate of per capita income is the growth rate of income (net ofdepreciation) minus the rate of population growth.
This is the vertical distance between the two curves.
The rate of growth of per capita income turns out to depend on the currentincome level.
The growth rate is positive at low levels of per capita income (up to thelevel marked "Trap")
The growth rate is then negative (up to per capita income marked"Threshold")
The growth rate is again positive at income per capita levels above"Threshold".
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The endogeneity of population growth
1 If we start from a low level of per capita income, left of "Trap",growth is positive and per capita income will rise over time toward thepoint marked "Trap".
2 If we start at medium per capita income, between "Trap" and"Threshold", growth is negative and per capita income will fall overtime to point marked "Trap".
3 If we start at a high per capita income, left of "Threshold", growth ispositive and per capita income will rise over time and the economywill be in a phase of sustained growth.
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The endogeneity of population growth
In the absence of some policy that pushes the economy to the right ofthe threshold, the economy will be caught in the trap.
The diagram suggests that there are situations in which a temporaryboost to certain economic parameters, perhaps through governmentpolicy, may have sustained long-run e¤ects.
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The endogeneity of population growthA jump in the savings rate
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The endogeneity of population growthA jump in the savings rate
The policy that boosts savings does not have to be permanent.
Once the economy crosses a certain level of per capita income, theold savings rate will su¢ ce to keep it from sliding back, becausepopulation growth rates are lower.
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The endogeneity of population growthStrong family planning
A strong family planning or the provision of incentives to have lesschildren can pull down the population curve, converting a seeminglyhopeless situation into one that can permit long-run growth.
As the economy becomes richer, population growth rates willendogenously induce to fall, so that policy becomes super�uous.
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The endogeneity of the capital-output ratio.
Endogeneity may fundamentally alter the way we think about theeconomy.
We have seen how this might happen in the case of endogenouspopulation growth.
The most startling and in�uential example of all is the endogeneity ofthe capital-output ratio �> The Solow model.
The Solow model (1956) has had a major impact on the wayeconomist think about economic growth.
It relies on the possible endogeneity of the capital-output ratio.
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The Solow ModelProduction Function
De�nitions:
yt=YtPt
kt=KtPt
In the Solow model, production is explicitly a result of two productionfactors: Labor/Population and Capital
Y = F (K ,P)
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The Solow ModelProduction Function
It is assumed that the production function has constant returns toscale.
By this we mean that if we increase both factors by the same fraction,total output will increase by the same.
2Y = F (2K , 2P)
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The Solow ModelProduction Function
More generally
αY = F (αK , αP)
where α is any constant.
Note that if you increase only one of the factors, production increases by less.
For our application: It we keep the number of people constant, addingcapital will increase production, but with smaller and smaller increases for agiven amount of capital.
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The Solow ModelProduction Function
Setting α = 1P
YP= F (
KP, 1)
y = F (k, 1) = f (k)
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The Solow ModelThe Solow equations
As before:
sYt = St = It
∆K = sYt � δKt
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The Solow ModelThe Solow equations
Recall that
k =KP
∆kk=
∆KK� ∆PP
Insert ∆K = sY (t)� δK (t)
∆kk=sYt � δKt
K� ∆PP
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The Solow ModelThe Solow equations
Write out:
∆kk= s
YtKt� δ� n
Finally:
∆k = sy � (δ+ n)k (8)
∆k = sf (k)� (δ+ n)k (9)
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The Solow ModelThe equation of motion
∆k = sf (k)Actual Investment
� (δ+ n)kBreak Even investment
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The Solow ModelThe equation of motion
(δ+ n)k = break-even investment, the amount of investmentnecessary to keep k constant.
Break-even investment includes:
1 δk to replace capital as it wears out
2 nk to equip new workers with capital
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The Solow ModelThe equation of motion
Equation 9 tells us how capital per population/worker changes.
If sf (k) > (δ+ n)k �> ∆k > 0If sf (k) < (δ+ n)k �> ∆k < 0If sf (k) = (δ+ n)k �> ∆k = 0
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The Solow Model
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The Solow ModelPaths of movement in the Solow model
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The Solow ModelSteady State
At the point where both (k) and (y) are constant it must be the case that
∆k = sf (k�)� (δ+ n)k� = 0or
sf (k�) = (δ+ n)k�
This occurs at our equilibrium point k�
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The Solow ModelSteady State
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The Solow ModelThe impact of population growth
Suppose population growth increases
This shifts the line representing population growth and depreciationupward
At the new steady state capital per worker and output per worker arelower
The model predicts that economies with higher rates of populationgrowth will have lower levels of capital per worker and lower levels ofincome.
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The Solow ModelThe impact of the savings rate
Suppose the savings rate increases
This shifts the curve representing investment/savings upward
At the new steady state capital per worker and output per worker arehigher
The model predicts that economies with higher rates of savings willhave higher levels of capital per worker and higher levels of income.
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The Solow ModelPredictions
Higher n �> lower k��> and lower y �
Higher δ �> lower k��> and lower y �
Higher s �> higher k��> and higher y �
No growth in the steady state - only level e¤ect
Positive or negative growth along the transition path:
∆k = sf (k)� (δ+ n)k
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The Solow ModelPredictions
Why are some countries rich (have high per worker GDP) and othersare poor (have low per worker GDP)?
Solow model: if all countries are in their steady states, then:
1 Rich countries have higher saving (investment) rates than poorcountries
2 Rich countries have lower population growth rates than poor countries
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The Di¤erence Between H-D and Solow
In a world with constant returns to scale, the savings rate does havegrowth e¤ects (The H-D model)
In a world with diminishing returns to scale, the savings rate does nothave growth e¤ects (The Solow model)
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