Lecture 5 _C26_week_5-7_2024-Growth Capital Accum Ideas.pptx

Full Transcript

MODERN PRINCIPLES OF ECONOMICS

Chapter 26
Growth, Capital
Accumulation, and
the Economics of
Ideas

© 2017 Worth Publishers. All Rights Reserved.
C
H
A
P Why growth matters - recap
T
E
R
7 Data on infant mortality rates:
– 20% in the poorest 1/5 of all countries
E
c
– 0.4% in the richest 1/5
o In Pakistan, 85% of people live on less than $2/day.
n
o One-fourth of the poorest countries have had
m famines during the past 3 decades.
Poverty is associated with oppression of women
c
G and minorities.
r
Economic growth raises living standards and
o
w reduces poverty….
© 2017 Worth Publishers. All Rights Reserved.
h
 Review
Lecture 4:
– What makes a country rich?
 Factors of Production
 Incentives and Institutions

Lecture 5:
– Turn this into an economic model!

© 2017 Worth Publishers. All Rights Reserved.
 Outline
The Solow Model and Catching-Up Growth
– Production function
– Marginal productivity
The Investment Rate and Conditional Convergence
New Ideas and Cutting-Edge Growth
The Economics of Ideas
The Future of Economic Growth
Takeaway

© 2017 Worth Publishers. All Rights Reserved.
 Introduction
In 2010:
– U.S. GDP per capita grew by 2.2%.
– China’s GDP per capita grew nearly 10%.
– How is this possible
China is growing much faster than the United States
because:
– The U.S. economy is on the cutting edge.
– The Chinese economy is catching up.

© 2017 Worth Publishers. All Rights Reserved.
 Definition (1 of 5)

Cutting-Edge Growth:
Growth due to new ideas.
Catching-Up Growth:
Growth due to capital accumulation.

© 2017 Worth Publishers. All Rights Reserved.
 Robert Solow

American economist
1924 – present
Developed best model
of long-run economic
growth in 1956
Nobel prize (1987)

Sometimes called Solow-Swan model, as a very similar
model was developed by Trevor Swan, an ANU economist,
in the same year

© 2017 Worth Publishers. All Rights Reserved.
The Solow Model and Catching-Up Growth
The Solow model begins with a production function.
The total output of an economy (Y) depends on:
– Physical capital (K)
– Human capital, or education × Labor (eL)
– Ideas (A)
A production function expresses a relationship
between output and the factors of production:
Y=F(A,K,eL)

© 2017 Worth Publishers. All Rights Reserved.
 The production function
denoted Y = F(A,K, eL)
shows how much output (Y ) the economy can produce
from
K units of capital and eL units of human capital and A
units of ideas

Example:
Y=A*K*eL
Y=A+K+eL
Most often: (Cobb-Douglas)

© 2017 Worth Publishers. All Rights Reserved.
 Marginal productivity
definition:
The extra output the firm can produce
using an additional unit of input
(holding other inputs fixed):
E.g. Marginal productivity of labour
MPL = F (K, L +1) – F (K, L)

© 2017 Worth Publishers. All Rights Reserved.
C
H
A
P Diminishing marginal product
T
E
R
3
As a factor input is increased,
its marginal product falls (other things equal).
N We assume this always holds
a
i Intuition:
o Suppose  L while holding K fixed
n fewer machines per worker
a
lower worker productivity

n
c
o
m
e
© 2017 Worth Publishers. All Rights Reserved.
C
H
A
P Check your understanding:
T
E
R
3
Which of these production functions have diminishing
marginal returns to labor?
N
a
i
o a¿ 𝐹 ( 𝐿)=15 𝐿
n
a b ¿ 𝐹 ( 𝐿)= √ 𝐿
n
c¿ 𝐹 (𝐾 , 𝐿)=2 √ 𝐾 +15 √ 𝐿
c
o
m
e
© 2017 Worth Publishers. All Rights Reserved.
 A simple Solow Model
If we assume that A, e, and L are constant, then we
can simplify our expression for output as:
Y=F(k)
Where k=K/L, capital per worker.
More capital per worker (k) should produce more
output (Y), but at a diminishing rate (diminishing
productivity of k).

© 2017 Worth Publishers. All Rights Reserved.
 Self-Check (1 of 6)

Catching-up growth is growth due to:
a. New ideas.
b. Capital accumulation.
c. Adoption of new technologies.

© 2017 Worth Publishers. All Rights Reserved.
 Self-Check (1 of 6) (Answer)

Catching-up growth is growth due to:
a. New ideas.
b. Capital accumulation.
c. Adoption of new technologies.
Answer: b. Capital accumulation.

© 2017 Worth Publishers. All Rights Reserved.
 Definition (2 of 5)

Marginal Product of Capital:
The increase in output caused by the addition of one more
unit of capital. The marginal product of capital diminishes
as more and more capital is added.

© 2017 Worth Publishers. All Rights Reserved.
C
H
A
P
T
E
The production function
R
7
Output per
worker, y
E f(k)
c
o MP_k = f(k +1) – f(k)
n 1
o
m
Note:
Note:this
this production
productionfunction
function
c exhibits
exhibitsdiminishing
diminishingMP_k.
MP_k.
G
r
o Capital per
w
worker, k
© 2017 Worth Publishers. All Rights Reserved.
h
The Solow Model: Capital, Production, and
Diminishing Returns
More capital per worker (k) should produce more
output (Y) but at a diminishing rate.
The MPk diminishes because the first unit of capital is
applied where it is most productive, the second where it
is slightly less productive, and so on.
The following graph shows the production function Y =
F (k)

© 2017 Worth Publishers. All Rights Reserved.
 Diminishing Returns
Output, Y
3.2 𝑌 =√ 𝑘
3
Creates just a
little output

1
Creates a lot
of output

0 Capital per
0 1 2 3 4 5 6 7 8 9 10 11 12 worker, k
The first unit of input The tenth unit of input

© 2017 Worth Publishers. All Rights Reserved.
 Growth in China and the United States
(1 of 2)
Chinese growth has been rapid because:
– China began with very little capital, so marginal product
of capital was high
– With new reforms the investment rate increased
dramatically.
– China has benefited by opening up to trade and
investment with the developed world.
– China has improved productivity in agriculture.

© 2017 Worth Publishers. All Rights Reserved.
 Growth in China and the United States
(2 of 2)
China’s growth rate will fall because:
– The marginal product of capital will fall
– It faces a poor banking system
– It lacks experience with the rule of law
– It has a poorly educated population.

© 2017 Worth Publishers. All Rights Reserved.
 Capital and Investment
Capital is output that is saved and invested rather than
consumed.
For example, out of 10 units produced, 7 are consumed
and 3 are invested in new capital.
We write the fraction of output that is invested in new
capital as s, and in the example just given, s = 3/10 =
0.3
Capital also depreciates, or wears out.
For example, if there are 100 units of capital, 2 units
might depreciate, leaving 98 for the next period.

© 2017 Worth Publishers. All Rights Reserved.
 Consumption and Investment
Output, Y

15
When k = 100, 𝑌 =√ 𝑘
Output = 10

10

Consumption = (1 – 0.3) × 10 = 7

5 Investment
= 0.3Y
3 Investment = (0.3) × 10 = 3
Capital/worker, k
0 0 100 200 300 400
© 2017 Worth Publishers. All Rights Reserved.
 Self-Check (2 of 6)

Output that is invested rather than consumed is called:
a. Capital.
b. Depreciation.
c. Marginal product.

© 2017 Worth Publishers. All Rights Reserved.
 Self-Check (2 of 6) Answer)

Output that is invested rather than consumed is called:
a. Capital.
b. Depreciation.
c. Marginal product.
Answer: a. Output that is invested is called capital.

© 2017 Worth Publishers. All Rights Reserved.
 Capital and Depreciation
We write the fraction of capital that wears out or
depreciates as delta (δ); in the example just given, δ =
2/100 = 0.02.
The greater the capital stock, the greater the
depreciation.
This will turn out to place another constraint on
economic growth.

© 2017 Worth Publishers. All Rights Reserved.
 Depreciation
Depreciation
8 Depreciation = 0.02 × k

6

4 4 −2
𝑆𝑙𝑜𝑝𝑒= =𝛿
200−100
2

Capital per
0 worker, k
0 100 200 300 400
© 2017 Worth Publishers. All Rights Reserved.
C
H
A
P
T Capital accumulation
E
R
7
The basic idea: Investment increases the capital
E
stock, depreciation reduces it.
c
o Change in capital stock = investment – depreciation
n k = i – 
k
o
m
Since i = sF(k) , this becomes:
c
G
r
o
k = s F(k) – 
 k
w
© 2017 Worth Publishers. All Rights Reserved.
h
 Steady-State Level of Capital (1 of 6)
At some point, the capital stock will reach a level such that
every unit of investment is needed just to replace the capital
that depreciates in that period.
When investment just covers capital depreciation, the
capital stock stops growing, and when the capital stock
stops growing, output stops growing as well.
Investment > Depreciation – The capital stock grows, and
output next period is bigger.
Investment = Depreciation – The capital stock and output
are constant (the steady state).
Investment < Depreciation – The capital stock shrinks and
output next period is smaller.

© 2017 Worth Publishers. All Rights Reserved.
 Definition (3 of 5)

Steady-State Level of Capital:
When the capital stock is neither increasing nor
decreasing.

© 2017 Worth Publishers. All Rights Reserved.
 Steady-State Level of Capital (2 of 6)
Output, Y Depreciation = 0.02 × k

At
At kk == 100,
100,
7 investment
investment >> depreciation
depreciation
→ Investment
→ increase
increase inin kk
= 0.3 × Y
5

3
2

Capital per
0
0 100 200 225 300 400 worker, k
© 2017 Worth Publishers. All Rights Reserved.
 Steady-State Level of Capital (3 of 6)
Output, Y Depreciation = 0.02 × k

7 Investment
= 0.3 × Y
5
At
At kk == 300,
300,
3 investment
investment