chapter eighteen technology. technologies a technology is a process by which inputs are converted...
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![Page 1: Chapter Eighteen Technology. Technologies A technology is a process by which inputs are converted to an output E.g. seed, chemical fertilizer, pesticides,](https://reader035.vdocuments.net/reader035/viewer/2022062516/56649d595503460f94a38910/html5/thumbnails/1.jpg)
Chapter Eighteen
Technology
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Technologies
A technology is a process by which inputs are converted to an output
E.g. seed, chemical fertilizer, pesticides, herbicides, labour, land, machinery, fuel are combined to grow wheat
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Technologies
Usually several technologies will produce the same product –
e.g. wheat can be grown with conventional technology or organically without chemicals, using animal fertilizer and more labour instead
How do economists analyse technologies?
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Production Functions
y denotes the output levelxi denotes the amount used of input i; i.e. the level of input i
The technology’s production function states the maximum amount of output possible from an input bundle
y f x xn ( , , )1
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Production Functions
y = f(x) is theproductionfunction.
x’ xInput Level
Output Level
y’y’ = f(x’) is the maximal output level obtainable from x’ input units.
One input, one output
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Technology Sets
A production plan is an input bundle and an output level: (x1, … , xn, y).
A production plan is feasible if
The collection of all feasible
production plans is the technology set.
y f x xn ( , , )1
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Technology Sets
y = f(x) is theproductionfunction.
x’ xInput Level
Output Level
y’
y”
y’ = f(x’) is the maximum output level obtainable from x’ input units.
One input, one output
y” = f(x’) is an output level that is feasible from x’ input units.
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Technology Sets
x’ xInput Level
Output Level
y’
One input, one output
y”
The technologyset
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Technology Sets
x’ xInput Level
Output Level
y’
One input, one output
y”
The technologysetTechnically
inefficientplans
Technicallyefficient plans
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Technologies with Multiple Inputs
What does a technology look like when there is more than one input?
The two input case: Input levels are x1 and x2. Output level is y.
Suppose the production function is
y f x x x x ( , ) .1 2 11/3
21/32
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Technologies with Two InputsE.g. the maximal output level possible
from the input bundle(x1, x2) = (1, 8) is
And the maximal output level possible from (x1,x2) = (8,8) is
y x x 2 2 1 8 2 1 2 411/3
21/3 1/3 1/3 .
y x x 2 2 8 8 2 2 2 811/3
21/3 1/3 1/3 .
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Technologies with Two Inputs
Output, y
x1
x2
(8,1)(8,8)
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Technologies with Two Inputs
An isoquant shows all input bundles that yield at most the same output level, say y=y1
An isoquant is drawn on a graph where the axes measure the levels of the two inputs
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Isoquants with Two Variable Inputs
y
y
x1
x2
y
y
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Isoquants with Two Variable Inputs
Output, y
x1
x2
y
y
y
y
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Technologies with Two InputsThe complete collection of isoquants
is the isoquant mapThe isoquant map is equivalent to
the production function – they each contain the same information about the technology
E.g. 3/12
3/1121 2),( xxxxfy
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Technologies with Two Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
x2
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Technologies with Multiple Inputs
x1
y
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Cobb-Douglas Technology
A Cobb-Douglas production function is of the form
E.g.
with
y Ax x xa anan 1 2
1 2 .
y x x 11/3
21/3
n A a and a 2 113
131 2, , .
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x2
x1
All isoquants are hyperbolic,asymptoting to, but nevertouching any axis.
Cobb-Douglas Technology
y x xa a 1 21 2
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x2
x1
All isoquants are hyperbolic,asymptoting to, but nevertouching any axis.
Cobb-Douglas Technology
x x ya a1 21 2 '
x x ya a1 21 2 "
y" y'>y x xa a 1 2
1 2
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Fixed-Proportions TechnologyA fixed-proportions production
function is of the form
E.g. y = lectures per hour in the Leeuwenborch, x1 = lecturer, x2 = lecture room
with
y a x a x a xn nmin{ , , , }.1 1 2 2
},min{ 21 xxy
1 1 ,2 21 aandan
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Fixed-Proportions Technology
x2
x1
min{x1,2x2} = 14
4 8 14
247
min{x1,2x2} = 8min{x1,2x2} = 4
x1 = 2x2
y x xmin{ , }1 22
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Perfect-Substitutes Technology
A perfect-substitutes production function is of the form
E.g.
with
y a x a x a xn n 1 1 2 2 .
y x x 1 23
n a and a 2 1 31 2, .
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Perfect-Substitution Technology
9
3
18
6
24
8
x1
x2
x1 + 3x2 = 9
x1 + 3x2 = 18
x1 + 3x2 = 24
All are linear and parallel
y x x 1 23
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Recap on Isoquants
Isoquants are generally downward- sloping from left to right (inputs are substitutes) and convex to the origin
Limiting cases: Straight line (perfect substitutes)Right angle (perfect complements)
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Marginal (Physical) Products
The marginal product of input i is the rate-of-change of the output level as the level of input i changes, holding all other input levels fixed.
That is,
y f x xn ( , , )1
ii x
yMP
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Marginal (Physical) Products
E.g. ify f x x x x ( , ) /
1 2 11/3
22 3
then the marginal product of input 1 is
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Marginal (Physical) Products
E.g. ify f x x x x ( , ) /
1 2 11/3
22 3
then the marginal product of input 1 is
MPyx
x x11
12 3
22 31
3
/ /
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Marginal (Physical) Products
E.g. ify f x x x x ( , ) /
1 2 11/3
22 3
then the marginal product of input 1 is
MPyx
x x11
12 3
22 31
3
/ /
and the marginal product of input 2 is
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Marginal (Physical) Products
E.g. ify f x x x x ( , ) /
1 2 11/3
22 3
then the marginal product of input 1 is
MPyx
x x11
12 3
22 31
3
/ /
and the marginal product of input 2 is
MPy
xx x2
211/3
21/32
3
.
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Marginal (Physical) Products
Typically the marginal product of oneinput depends upon the amount used of other inputs. E.g. if
MP x x1 12 3
22 31
3 / / then,
MP x x1 12 3 2 3
12 31
38
43
/ / /
and if x2 = 27 then
if x2 = 8,
MP x x1 12 3 2 3
12 31
327 3 / / / .
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Marginal (Physical) Products
The marginal product of input i is diminishing if it becomes smaller as the level of input i increases. That is, if
.02
2
iiii
i
x
y
x
y
xx
MP
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Marginal (Physical) Products
MP x x1 12 3
22 31
3 / / MP x x2 1
1/321/32
3
and
E.g. if y x x 11/3
22 3/ then
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Marginal (Physical) Products
MP x x1 12 3
22 31
3 / / MP x x2 1
1/321/32
3
and
so MPx
x x1
115 3
22 32
90 / /
E.g. if y x x 11/3
22 3/ then
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Marginal (Physical) Products
MP x x1 12 3
22 31
3 / / MP x x2 1
1/321/32
3
and
so MPx
x x1
115 3
22 32
90 / /
MPx
x x2
211/3
24 32
90 / .
and
E.g. if y x x 11/3
22 3/ then
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Marginal (Physical) Products
MP x x1 12 3
22 31
3 / / MP x x2 1
1/321/32
3
and
so MPx
x x1
115 3
22 32
90 / /
MPx
x x2
211/3
24 32
90 / .
and
Both marginal products are diminishing.
E.g. if y x x 11/3
22 3/ then
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Elasticity of Production
The value of the marginal physical product depends on the units of measurement of output and inputs
The elasticity of production is a unit-free measure of how the responsiveness of output to a change in an input
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Elasticity of Production
Elasticity of production of input i is
i
i
ii
i
iyx
APMP
xy
xy
xx
yy
i
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Elasticity of Production: Example Cobb-Douglas
For the Cobb-Douglas production function, the elasticity of production of each input is the power to which that input is raised in the function
y x xa a 1 21 2
Production elasticity of x1 is a1, production elasticity of x2 is a2
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Returns to Scale
Marginal products describe the change in output level as a single input level changes
‘Returns to scale’ describe how the output level changes as all input levels change by the same proportion (e.g. all input levels doubled, or halved)
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Returns to Scale
If, for any input bundle (x1,…,xn),
f kx kx kx kf x x xn n( , , , ) ( , , , )1 2 1 2
then the technology described by theproduction function f exhibits constantreturns to scale.
E.g. (k = 2) doubling all input levelsdoubles the output level.
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Returns to Scale
y = f(x)
x’ xInput Level
Output Level
y’
One input, one output
2x’
2y’
Constantreturns to scale
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Returns to Scale
),,,(),,,( 2121 nt
n xxxfkkxkxkxf
In general, for any input bundle (x1,…,xn),
If t < 1, then the technology exhibits decreasing returns to scaleE.g. (k = 2) all input levels double, but output increases by less than double
If t > 1, then the technology exhibits increasing returns to scale
),,,(),,,( nt
n xxxfkkxkxkxf 2121
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Returns to Scale
y = f(x)
x’ xInput Level
Output Level
f(x’)
One input, one output
2x’
f(2x’)
2f(x’)
Decreasingreturns to scale
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Returns to Scale
y = f(x)
x’ xInput Level
Output Level
f(x’)
One input, one output
2x’
f(2x’)
2f(x’)
Increasingreturns to scale
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Returns to Scale
y = f(x)
xInput Level
Output Level
One input, one output
Decreasingreturns to scale
Increasingreturns to scale
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Examples of Returns to Scale
y a x a x a xn n 1 1 2 2 .
The perfect-substitutes productionfunction is
Expand all input levels proportionatelyby k. The output level becomes
a kx a kx a kx
k a x a x a x
ky
n n
n n
1 1 2 2
1 1 2 2
( ) ( ) ( )
( )
.
The perfect-substitutes productionfunction exhibits constant returns to scale.
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Examples of Returns to Scale
y x x xa anan 1 2
1 2 .The Cobb-Douglas production function is
Expand all input levels proportionatelyby k. The output level becomes
( ) ( ) ( )kx kx kxa an
an1 2
1 2
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Examples of Returns to Scale
y x x xa anan 1 2
1 2 .The Cobb-Douglas production function is
Expand all input levels proportionatelyby k. The output level becomes
( ) ( ) ( )kx kx kx
k k k x x x
a an
a
a a a a a a
n
n n
1 21 2
1 2 1 2
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Examples of Returns to Scale
y x x xa anan 1 2
1 2 .The Cobb-Douglas production function is
Expand all input levels proportionatelyby k. The output level becomes
nn
nn
n
an
aaaaa
aaaaaa
an
aa
xxxk
xxxkkk
kxkxkx
2121
2121
21
21)(
21 )()()(
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Examples of Returns to Scale
nan
aa xxxy 21
21The Cobb-Douglas production function is
Expand all input levels proportionatelyby k. The output level becomes
yk
xxxk
xxxkkk
kxkxkx
n
nn
nn
n
aa
an
aaaaa
aaaaaa
an
aa
)(
21)(
21
1
2121
2121
21 )()()(
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Examples of Returns to Scale
y x x xa anan 1 2
1 2 .The Cobb-Douglas production function is
( ) ( ) ( ) .kx kx kx k ya an
a a an n1 2
1 2 1
The Cobb-Douglas technology’s returns to scale areconstant if a1+ … + an = 1increasing if a1+ … + an > 1decreasing if a1+ … + an < 1
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Returns to Scale
Q: Can a technology exhibit increasing returns-to-scale even though all of its marginal products are diminishing?
A: Yes, because…..
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Returns to Scale
A marginal product is the rate-of-change of output as one input level increases, holding all other input levels fixed, and so
the marginal product diminishes because the other input levels are fixed, so the increasing input’s units have each less and less of other inputs with which to work.
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Returns to Scale
BUT when all input levels are increased proportionately, there need be no diminution of marginal products since each input will always have proportionately the same amount of other inputs to work with. Input productivities need not fall and so returns-to-scale can be constant or increasing.
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Technical Rate of Substitution
At what rate can a firm substitute one input for another without changing its output level?
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Technical Rate of Substitution
x2
x1
y
x2'
x1'
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Technical Rate of Substitution
x2
x1
y
The slope is the rate at which input 2 must be given up as input 1’s level is increased so as not to change the output level. The slope of an isoquant is its technical rate of substitutionx2
'
x1'
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Technical Rate of Substitution
How is a technical rate of substitution computed?
The production function isA small change (dx1, dx2) in the input
bundle causes a change to the output level of
y f x x ( , ).1 2
dyyx
dxy
xdx
1
12
2 .
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Technical Rate of Substitution
dyyx
dxy
xdx
1
12
2 .
But dy = 0 as we move around an isoquant, so the changes dx1and dx2 to the input levels must satisfy
01
12
2
yx
dxy
xdx .
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Technical Rate of Substitution
2
1
2
1
1
2
MPMP
xyxy
dxdx
//
01
12
2
yx
dxy
xdx
rearranges to
yx
dxyx
dx2
21
1
so
2
1
2
1
1
2
//
MPMP
xyxy
dxdx
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Technical Rate of Substitutiondxdx
y xy x
2
1
1
2
//
is the rate at which input 2 must be givenup as input 1 increases so as to keepthe output level constant. It is the slopeof the isoquant.
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Technical Rate of Substitution; A Cobb-Douglas Example
y f x x x xa b ( , )1 2 1 2
so
yx
ax xa b
1112
y
xbx xa b
21 2
1 .and
The technical rate-of-substitution is
dxdx
y xy x
ax x
bx x
axbx
a b
a b2
1
1
2
112
1 21
2
1
//
.
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Diminishing TRS when inputs are less-than-perfect substitutes
As we substitute more x1 for x2 (i.e. a move to the right around an isoquant), the TRS decreases (moves closer to zero): the slope of the isoquant becomes flatter. That is, we need ever-larger increase in x1 to substitute for a given reduction in x2, if we wish to keep output constant
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Well-Behaved Technologies
A well-behaved technology is
monotonic, and
convex
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Well-Behaved Technologies - Monotonicity
Monotonicity: More of any input generates more output.
y
x
y
x
monotonic notmonotonic
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Well-Behaved Technologies - Convexity
Convexity: If the input bundles x’ and x” both provide y units of output then the mixture tx’ + (1-t)x” provides at least y units of output, for any 0 < t < 1.
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Well-Behaved Technologies - Convexity
x2
x1
x2'
x1'
x2"
x1"
y
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Well-Behaved Technologies - Convexity
x2
x1
x2'
x1'
x2"
x1"
tx t x tx t x1 1 2 21 1' " ' "( ) , ( )
y
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Well-Behaved Technologies - Convexity
x2
x1
x2'
x1'
x2"
x1"
tx t x tx t x1 1 2 21 1' " ' "( ) , ( )
yy
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Well-Behaved Technologies - Convexity
x2
x1
x2'
x1'
x2"
x1"
Convexity implies that the TRSincreases (becomes lessnegative) as x1 increases.
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Well-Behaved Technologies
x2
x1
yy
y
higher output
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The Long Run and the Short Run(s)
The long run is the situation in which a firm is unrestricted in its choice of all input levels
There are many possible short runs.A short run is a situation in which a
firm is restricted in some way in its choice of at least one input level
Read p.339 on fixed and variable factors
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The Long Run and the Short Runs
Examples of restrictions that cause a short-run situation:temporarily being unable to
install, or remove, machinerybeing unable to increase the
number of dairy cows quicklytotal farm area is fixed in the
‘short run’
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The Long Run and the Short Runs
What do short-run restrictions imply for a firm’s technology?
Suppose the short-run restriction is fixing the level of input 2
Input 2 is thus a fixed input in the short-run. Input 1 remains variable
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The Long Run and the Short Runsx2
x1
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The Long Run and the Short Runs
x2
x1y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2
x1
y
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The Long Run and the Short Runs
x2 x1
y
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The Long Run and the Short Runs
x1
y
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The Long Run and the Short Runs
x1
y
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The Long Run and the Short Runs
x1
y
Four short-run production functions.
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The Long-Run and the Short-Runs
y x x 11/3
21/3
is the long-run productionfunction (both x1 and x2 are variable).
The short-run production function whenx2 1 is .x1xy 3/1
13/13/1
1
The short-run production function when x2 10 is .x15210xy 3/1
13/13/1
1
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The Long-Run and the Short-Runs
x1
y
Four short-run production functions.
3/13/11 10xy
3/13/11 5xy
3/13/11 2xy
3/13/11 1xy
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x2
x1
Technical Rate of Substitution; A Cobb-Douglas Example
TRSaxbx
xx
xx
2
1
2
1
2
1
1 32 3 2( / )( / )
y x x a and b 11/3
22 3 1
323
/ ;
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x2
x1
Technical Rate of Substitution; A Cobb-Douglas Example
TRSaxbx
xx
xx
2
1
2
1
2
1
1 32 3 2( / )( / )
y x x a and b 11/3
22 3 1
323
/ ;
8
4
TRSxx
2
1282 4
1
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x2
x1
Technical Rate of Substitution; A Cobb-Douglas Example
TRSaxbx
xx
xx
2
1
2
1
2
1
1 32 3 2( / )( / )
y x x a and b 11/3
22 3 1
323
/ ;
6
12
TRSxx
2
126
2 1214