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Cost MinimizationMolly W. DahlGeorgetown UniversityEcon 101 – Spring 2009
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Cost Minimization
A firm is a cost-minimizer if it produces a given output level y 0 at smallest possible total cost.
When the firm faces given input prices w = (w1,w2,…,wn) the total cost function will be written as
c(w1,…,wn,y).
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The Cost-Minimization Problem
Consider a firm using two inputs to make one output.
The production function isy = f(x1,x2).
Take the output level y 0 as given. Given the input prices w1 and w2, the cost of an
input bundle (x1,x2) is
w1x1 + w2x2.
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The Cost-Minimization Problem
For given w1, w2 and y, the firm’s cost-minimization problem is to solve
min,x x
w x w x1 2 0
1 1 2 2
subject to f x x y( , ) .1 2
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The Cost-Minimization Problem
The levels x1*(w1,w2,y) and x1*(w1,w2,y) in the least-costly input bundle are the firm’s conditional factor demands for inputs 1 and 2.
The (smallest possible) total cost for producing y output units is thereforec w w y w x w w y
w x w w y
( , , ) ( , , )
( , , ).
*
*1 2 1 1 1 2
2 2 1 2
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Conditional Factor Demands
Given w1, w2 and y, how is the least costly input bundle located?
And how is the total cost function computed?
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Iso-cost Lines
A curve that contains all of the input bundles that cost the same amount is an iso-cost curve.
E.g., given w1 and w2, the $100 iso-cost line has the equation
w x w x1 1 2 2 100 .
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Iso-cost Lines
Generally, given w1 and w2, the equation of the $c iso-cost line is
Rearranging…
Slope is - w1/w2.
xwwx
cw2
1
21
2 .
w x w x c1 1 2 2
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Iso-cost Lines
c’ w1x1+w2x2
c” w1x1+w2x2
c’ < c”
x1
x2 Slopes = -w1/w2.
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The y’-Output Unit Isoquant
x1
x2 All input bundles yielding y’ unitsof output. Which is the cheapest?
f(x1,x2) y’
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The Cost-Minimization Problem
x1
x2 All input bundles yielding y’ unitsof output. Which is the cheapest?
f(x1,x2) y’
x1*
x2*
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The Cost-Minimization Problem
x1
x2
f(x1,x2) y’
x1*
x2*
At an interior cost-min input bundle:(a) and(b) slope of isocost = slope of isoquant
f x x y( , )* *1 2
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The Cost-Minimization Problem
x1
x2
f(x1,x2) y’
x1*
x2*
At an interior cost-min input bundle:(a) and(b) slope of isocost = slope of isoquant; i.e.
f x x y( , )* *1 2
ww
TRSMPMP
at x x1
2
1
21 2( , ).* *
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A Cobb-Douglas Ex. of Cost Min.
A firm’s Cobb-Douglas production function is
Input prices are w1 and w2. What are the firm’s conditional factor
demand functions?
y f x x x x ( , ) ./ /1 2 1
1 322 3
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A Cobb-Douglas Ex. of Cost Min.
At the input bundle (x1*,x2*) which minimizesthe cost of producing y output units:(a)
(b)
y x x( ) ( )* / * /11 3
22 3 and
ww
y xy x
x x
x x
x
x
1
2
1
2
12 3
22 3
11 3
21 3
2
1
1 3
2 3
2
//
( / )( ) ( )
( / )( ) ( )
.
* / * /
* / * /
*
*
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A Cobb-Douglas Ex. of Cost Min.
y x x( ) ( )* / * /11 3
22 3 w
wx
x1
2
2
12
*
*.(a) (b)
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A Cobb-Douglas Ex. of Cost Min.
y x x( ) ( )* / * /11 3
22 3 w
wx
x1
2
2
12
*
*.(a) (b)
From (b), xww
x21
21
2* * .
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A Cobb-Douglas Ex. of Cost Min.
y x x( ) ( )* / * /11 3
22 3 w
wx
x1
2
2
12
*
*.(a) (b)
From (b), xww
x21
21
2* * .
Now substitute into (a) to get
y xww
xww
x
( ) .* / */ /
*11 3 1
21
2 31
2
2 3
12 2
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A Cobb-Douglas Ex. of Cost Min.
y x x( ) ( )* / * /11 3
22 3 w
wx
x1
2
2
12
*
*.(a) (b)
From (b), xww
x21
21
2* * .
Now substitute into (a) to get
y xww
xww
x
( ) .* / */ /
*11 3 1
21
2 31
2
2 3
12 2
xww
y12
1
2 3
2*
/
So is the firm’s conditionaldemand for input 1.
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A Cobb-Douglas Ex. of Cost Min.
xww
x21
21
2* * xww
y12
1
2 3
2*
/
is the firm’s conditional demand for input 2.
Since and
xww
ww
yww
y21
2
2
1
2 31
2
1 32
22*
/ /
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A Cobb-Douglas Ex. of Cost Min.
So the cheapest input bundle yielding y output units is
x w w y x w w y
ww
yww
y
1 1 2 2 1 2
2
1
2 31
2
1 3
22
* *
/ /
( , , ), ( , , )
, .
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A Cobb-Douglas Ex. of Cost Min.
So the firm’s total cost function is
c w w y w x w w y w x w w y( , , ) ( , , ) ( , , )* *1 2 1 1 1 2 2 2 1 2
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A Cobb-Douglas Ex. of Cost Min.
So the firm’s total cost function is
c w w y w x w w y w x w w y
www
y www
y
( , , ) ( , , ) ( , , )* *
/ /1 2 1 1 1 2 2 2 1 2
12
1
2 3
21
2
1 3
22
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A Cobb-Douglas Ex. of Cost Min.
c w w y w x w w y w x w w y
www
y www
y
w w y w w y
w wy
( , , ) ( , , ) ( , , )
.
* *
/ /
// / / / /
/
1 2 1 1 1 2 2 2 1 2
12
1
2 3
21
2
1 3
2 3
11 3
22 3 1 3
11 3
22 3
1 22 1 3
22
12
2
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So the firm’s total cost function is
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A Perfect Complements Ex.: Cost Min.
The firm’s production function is
Input prices w1 and w2 are given. What are the firm’s conditional demands
for inputs 1 and 2? What is the firm’s total cost function?
y x xmin{ , }.4 1 2
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A Perfect Complements Ex.: Cost Min.
x1
x2
min{4x1,x2} y’
4x1 = x2
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A Perfect Complements Ex.: Cost Min.
x1
x2 4x1 = x2
min{4x1,x2} y’
Where is the least costlyinput bundle yieldingy’ output units?
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A Perfect Complements Ex.: Cost Min.
x1
x2
x1*= y/4
x2* = y
4x1 = x2
min{4x1,x2} y’
Where is the least costlyinput bundle yieldingy’ output units?
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A Perfect Complements Ex.: Cost Min.
y x xmin{ , }4 1 2The firm’s production function is
and the conditional input demands are
x w w yy
1 1 2 4*( , , ) x w w y y2 1 2
* ( , , ) .and
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A Perfect Complements Ex.: Cost Min.
y x xmin{ , }4 1 2The firm’s production function is
and the conditional input demands are
x w w yy
1 1 2 4*( , , ) x w w y y2 1 2
* ( , , ) .and
So the firm’s total cost function isc w w y w x w w y
w x w w y
( , , ) ( , , )
( , , )
*
*1 2 1 1 1 2
2 2 1 2
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A Perfect Complements Ex.: Cost Min.
y x xmin{ , }4 1 2The firm’s production function is
and the conditional input demands are
x w w yy
1 1 2 4*( , , ) x w w y y2 1 2
* ( , , ) .and
So the firm’s total cost function isc w w y w x w w y
w x w w y
wyw y
ww y
( , , ) ( , , )
( , , )
.
*
*1 2 1 1 1 2
2 2 1 2
1 21
24 4
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Average Total Costs
For positive output levels y, a firm’s average total cost of producing y units is
AC w w yc w w y
y( , , )
( , , ).1 2
1 2
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RTS and Average Total Costs
The returns-to-scale properties of a firm’s technology determine how average production costs change with output level.
Our firm is presently producing y’ output units.
How does the firm’s average production cost change if it instead produces 2y’ units of output?
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Constant RTS and Average Total Costs
If a firm’s technology exhibits constant returns-to-scale then doubling its output level from y’ to 2y’ requires doubling all input levels.
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Constant RTS and Average Total Costs
If a firm’s technology exhibits constant returns-to-scale then doubling its output level from y’ to 2y’ requires doubling all input levels.
Total production cost doubles. Average production cost does not change.
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Decreasing RTS and Avg. Total Costs
If a firm’s technology exhibits decreasing returns-to-scale then doubling its output level from y’ to 2y’ requires more than doubling all input levels.
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Decreasing RTS and Avg. Total Costs
If a firm’s technology exhibits decreasing returns-to-scale then doubling its output level from y’ to 2y’ requires more than doubling all input levels.
Total production cost more than doubles. Average production cost increases.
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Increasing RTS and Avg. Total Costs
If a firm’s technology exhibits increasing returns-to-scale then doubling its output level from y’ to 2y’ requires less than doubling all input levels.
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Increasing RTS and Avg. Total Costs
If a firm’s technology exhibits increasing returns-to-scale then doubling its output level from y’ to 2y’ requires less than doubling all input levels.
Total production cost less than doubles. Average production cost decreases.
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Short-Run & Long-Run Total Costs
In the long-run a firm can vary all of its input levels.
Consider a firm that cannot change its input 2 level from x2’ units.
How does the short-run total cost of producing y output units compare to the long-run total cost of producing y units of output?
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Short-Run & Long-Run Total Costs
The long-run cost-minimization problem is
The short-run cost-minimization problem is
min,x x
w x w x1 2 0
1 1 2 2
subject to f x x y( , ) .1 2
minx
w x w x1 0
1 1 2 2
subject to f x x y( , ) .1 2
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Short-Run & Long-Run Total Costs The short-run cost-min. problem is the
long-run problem subject to the extra constraint that x2 = x2’.
If the long-run choice for x2 was x2’ then the extra constraint x2 = x2’ is not really a constraint at all and so the long-run and short-run total costs of producing y output units are the same.
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Short-Run & Long-Run Total Costs
But, if the long-run choice for x2 x2’ then the extra constraint x2 = x2’ prevents the firm in this short-run from achieving its long-run production cost, causing the short-run total cost to exceed the long-run total cost of producing y output units.
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Short-Run & Long-Run Total Costs
Short-run total cost exceeds long-run total cost except for the output level where the short-run input level restriction is the long-run input level choice.
This says that the long-run total cost curve always has one point in common with any particular short-run total cost curve.
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Short-Run & Long-Run Total Costs
y
$
c(y)
yyy
cs(y)
Fw x
2 2
A short-run total cost curve always hasone point in common with the long-runtotal cost curve, and is elsewhere higherthan the long-run total cost curve.