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Working with the Solow Growth Model

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C h a p t e r 4 Working with the Solow Growth Model Key Equations Solow Growth Model k/k= s (y/k) s n k is capital per worker y is real gross domestic ... – PowerPoint PPT presentation

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Title: Working with the Solow Growth Model


1
C h a p t e r 4
Working with the Solow Growth Model
2
Key EquationsSolow Growth Model
  • ?k/k s (y/k) - sd - n
  • k is capital per worker
  • y is real gross domestic product (real GDP) per
    worker
  • y/k is the average product of capital
  • s is the saving rate
  • d is the depreciation rate
  • n is the population growth rate.

3
Solow Growth ModelSteady State
s(y/k)sdn
  • We assumed that everything on the right-hand side
    was constant except for y/k.
  • In the transition to the steady state, the rise
    in k led to a fall in y/k and, hence, to a fall
    in ?k/k.
  • In the steady state, k was constant and,
    therefore, y/k was constant. Hence, ?k/k was
    constant and equal to zero.

4
Solow Growth ModelChange in savings rate (s)
5
Solow Growth ModelChange in savings rate (s)
  • In the short run, an increase in the saving rate
    raises the growth rate of capital per worker.
  • This growth rate remains higher during the
    transition to the steady state.

6
Solow Growth ModelChange in savings rate (s)
  • In the long run, the growth rate of capital per
    worker is the samezerofor any saving rate.
  • In this long-run or steady-state situation, a
    higher saving rate leads to higher steady state
    capital per worker, k, not to a change in the
    growth rate (which remains at zero).
  • Af(k)/kdn/s

7
Solow Growth Modelthe effect of s on consumptions
  • In the short run, consumption decreases and k
    arises.
  • cy-dk-s(y-dk) y-dk-nk
  • ?c ?y-(dn) ?k (MPK-d-n) ?k
  • In the long run, whether the consumption in the
    steady state increases depends on MPK.
  • Golden Rule

8
Solow Growth ModelChange in technology level (A)
9
Solow Growth ModelChange in technology level (A)
  • In the short run, an increase in the technology
    level, A, raises the growth rates of capital and
    real GDP per worker.
  • These growth rates remain higher during the
    transition to the steady state.

10
Solow Growth ModelChange in technology level (A)
  • In the long run, the growth rates of capital and
    real GDP per worker are the samezerofor any
    technology level.
  • In this long-run or steady state situation, a
    higher technology level leads to higher
    steady-state capital and real GDP per worker, k
    and y, not to changes in the growth rates (which
    remain at zero).
  • Af(k)/kdn/s

11
Solow Growth ModelChange in the labor input
12
Solow Growth Model Change in the labor input
  • In the short run, an increase in labor input,
    L(0), raises the growth rates of capital and real
    GDP per worker.
  • These growth rates remain higher during the
    transition to the steady state.

13
Solow Growth Model Change in the labor input
  • In the long run, the growth rates of capital and
    real GDP per worker are the samezerofor any
    level of labor input, L(0).
  • The steady-state capital and real GDP per worker,
    k and y, are the same for any L.
  • In the long run an economy with twice as much
    labor input has twice as much capital and real
    GDP.

14
Solow Growth Model Change in population growth
rate
15
Solow Growth Model Change in population growth
rate
16
Solow Growth Model Change in population growth
rate
  • In the short run, a higher n lowers ?k/k and ?
    y/y.
  • These growth rates remain lower during the
    transition to the steady state.

17
Solow Growth Model Change in population growth
rate
  • In the steady state, ?k/k and ?y/y are zero for
    any n.
  • A higher n leads to lower steady-state capital
    and real GDP per worker, k and y, not to
    changes in the growth rates, ?k/k and ?y/y (which
    remain at zero).
  • A change in n does affect the steady-state
  • growth rates of the levels of capital and real
    GDP, ? K/K and ?Y/Y.

18
Solow Growth ModelSum up
  • k k s, A, n, d, L(0)
  • () () (-) (-) (0)

19
Solow Growth Model Convergence
  • One of the most important questions about
    economic growth is
  • whether poor countries tend to converge or
    catch up to rich countries.

20
Solow Growth Model Convergence
21
Solow Growth Model Convergence
  • Economy 1 starts with lower capital per worker
    than economy 2k(0)1 is less than k(0)2.
  • Economy 1 grows faster initially because the
    vertical distance between the s(y/k) curve and
    the sdn line is greater at k(0)1 than at k(0)2.

22
Solow Growth Model Convergence
  • That is, the distance marked by the red arrows is
    greater than that marked by the blue arrows.
  • Therefore, capital per worker in economy 1, k1,
    converges over time toward that in economy 2, k2.

23
Solow Growth Model Convergence
24
Solow Growth Model Convergence
  • Economy 1 starts at capital per worker k(0)1 and
    economy 2 starts at k(0)2, where k(0)1 is less
    than k(0)2.
  • The two economies have the same steady-state
    capital per worker, k, shown by the dashed blue
    line.
  • In each economy, k rises over time toward k.
    However, k grows faster in economy 1 because
    k(0)1 is less than k(0)2.
  • Therefore, k1 converges over time toward k2.

25
Solow Growth Model Convergence
  • y A f(k) and ?y/y a(?k/k)
  • ?k/k was higher initially in economy 1 than in
    economy 2.
  • Therefore, ?y/y is also higher initially in
    economy 1. Hence, economy 1s real GDP per
    worker, y, converges over time toward economy 2s
    real GDP per worker.

26
Solow Growth Model Convergence
  • The Solow model says that a poor economywith low
    capital and real GDP per workergrows faster than
    a rich one. The reason is the diminishing average
    product of capital, y/k.
  • The Solow model predicts that poorer economies
    tend to converge over time toward richer ones in
    terms of the levels of capital and real GDP per
    worker.

27
Solow Growth Model Convergence
28
Solow Growth Model Convergence
29
Solow Growth Model Convergence
30
Solow Growth Model Convergence
31
Solow Growth Model Convergence
  • Economy 1 starts with lower capital per worker
    than economy 2
  • k(0)1 lt k(0)2.
  • Assume that economy 1 also has a lower saving
    rate
  • s1 lt s2.
  • The two economies have the same technology
    levels, A, and population growth rates, n.
  • Therefore, k1 is less than k2 .
  • It is uncertain which economy grows faster
    initially. The vertical distance marked with the
    blue arrows may be larger or smaller than the one
    marked with the red arrows.

32
Solow Growth Model Convergence
33
Solow Growth Model Convergence
  • Economy 1 starts with lower capital per worker
    than economy 2
  • k(0)1 lt k(0)2.
  • The two economies now have the same saving rates,
    s, and technology levels, A, but economy 1 has a
    higher population growth rate, n
  • n1 gt n2.
  • Therefore, k1 is less than k2 .
  • It is again uncertain which economy grows faster
    initially. The vertical distance marked with the
    blue arrows may be larger or smaller than the one
    marked with the red arrows.

34
Solow Growth Model Convergence
35
Solow Growth Model Convergence
  • Economy 1 has a lower starting capital per
    workerk(0)1 lt k(0)2and also has a lower
    steady-state capital per worker k1 (the dashed
    brown line) is less than k2 (the dashed blue
    line).
  • Each capital per worker converges over time
    toward its own steady-state value k1 (the red
    curve) toward k1 ,
  • And k2 (the green curve) toward k2 . However,
    since k1 is less than k2 , k1 does not converge
    toward k2.

36
Solow Growth Model Convergence
  • Key Results
  • k k s, A, n, d, L(0)
  • () () (-) (-) (0)
  • ?k/k ? k(0) , k
  • (-) ()

37
Solow Growth Model Convergence
  • Conditional convergence
  • a lower k(0) predicts a higher ?k/k, conditional
    on k.
  • Absolute convergence
  • the prediction that a lower k(0) raises ?k/k
    without any conditioning is called.

38
Solow Growth Model the speed of Convergence
39
Solow Growth Model the speed of Convergence
  • Calibration
  • The half-life is roughly 18 years.

40
Solow Growth Model Endogenous population growth
  • Malthus (1798)
  • the increase of y (or k) leads to a higher
    growth rate of population, which reduces the
    level of income per capita.
  • Modern growth theory
  • the higher income per capita reduces the
    population growth rate.
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