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Advanced Microeconomic Theory
Chapter 4: Production Theory
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Outline
• Production sets and production functions • Profit maximization and cost minimization • Cost functions • Aggregate supply • Efficiency (1st and 2nd FTWE)
Advanced Microeconomic Theory 2
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Production Sets and Production Functions
Advanced Microeconomic Theory 3
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Production Sets
• Let us define a production vector (or plan) 𝑦𝑦 = (𝑦𝑦1, 𝑦𝑦2, … , 𝑦𝑦𝐿𝐿) ∈ ℝ𝐿𝐿
– If, for instance, 𝑦𝑦2 > 0, then the firm is producing positive units of good 2 (i.e., good 2 is an output).
– If, instead, 𝑦𝑦2 < 0, then the firms is producing negative units of good 2 (i.e., good 2 is an input).
• Production plans that are technologically feasible are represented in the production set 𝑌𝑌.
𝑌𝑌 = 𝑦𝑦 ∈ ℝ𝐿𝐿: 𝐹𝐹(𝑦𝑦) ≤ 0 where 𝐹𝐹(𝑦𝑦) is the transformation function.
Advanced Microeconomic Theory 4
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Production Sets • 𝐹𝐹(𝑦𝑦) can also be
understood as a production function.
• Firm uses units of 𝑦𝑦1 as an input in order to produce units of 𝑦𝑦2 as an output.
• Boundary of the production function is any production plan 𝑦𝑦 such that 𝐹𝐹 𝑦𝑦 = 0. – Also referred to as the
transformation frontier. Advanced Microeconomic Theory 5
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Production Sets
• For any production plan 𝑦𝑦� on the production frontier, such that 𝐹𝐹 𝑦𝑦� = 0 , we can totally differentiate 𝐹𝐹 𝑦𝑦� as follows
𝜕𝜕𝐹𝐹 𝑦𝑦�𝜕𝜕𝑦𝑦𝑘𝑘
𝑑𝑑𝑦𝑦𝑘𝑘 +𝜕𝜕𝐹𝐹 𝑦𝑦�
𝜕𝜕𝑦𝑦𝑙𝑙𝑑𝑑𝑦𝑦𝑙𝑙 = 0
solving
𝑑𝑑𝑦𝑦𝑙𝑙𝑑𝑑𝑦𝑦𝑘𝑘
= −𝜕𝜕𝐹𝐹 𝑦𝑦�𝜕𝜕𝑦𝑦𝑘𝑘
𝜕𝜕𝐹𝐹 𝑦𝑦�𝜕𝜕𝑦𝑦𝑙𝑙
, where 𝜕𝜕𝐹𝐹 𝑦𝑦�𝜕𝜕𝑦𝑦𝑘𝑘
𝜕𝜕𝐹𝐹 𝑦𝑦�𝜕𝜕𝑦𝑦𝑙𝑙
= 𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑦𝑦�
– 𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑦𝑦� measures how much the (net) output 𝑘𝑘 can increase if the firm decreases the (net) output of good 𝑙𝑙 by one marginal unit.
Advanced Microeconomic Theory 6
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Production Sets
• What if we denote input and outputs with different letters?
𝑞𝑞 = (𝑞𝑞1, 𝑞𝑞2, … , 𝑞𝑞𝑀𝑀) ≥ 0 outputs 𝑧𝑧 = (𝑧𝑧1, 𝑧𝑧2, … , 𝑧𝑧𝐿𝐿−𝑀𝑀) ≥ 0 inputs
where 𝐿𝐿 ≥ 𝑀𝑀.
• In this case, inputs are transformed into outputs by the production function, 𝑓𝑓(𝑧𝑧1, 𝑧𝑧2, … , 𝑧𝑧𝐿𝐿−𝑀𝑀), i.e., 𝑓𝑓: ℝ𝐿𝐿−𝑀𝑀 → ℝ𝑀𝑀.
Advanced Microeconomic Theory 7
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Production Sets
• Example: When 𝑀𝑀 = 1 (one single output), the production set 𝑌𝑌 can be described as
𝑌𝑌 = (−𝑧𝑧1, −𝑧𝑧2, … , −𝑧𝑧𝐿𝐿−1, 𝑞𝑞):𝑞𝑞 ≤ 𝑓𝑓(𝑧𝑧1, 𝑧𝑧2, … , 𝑧𝑧𝐿𝐿−1)
• Holding the output level fixed, 𝑑𝑑𝑞𝑞 = 0, totally differentiate production function
𝜕𝜕𝑓𝑓 𝑧𝑧𝜕𝜕𝑧𝑧𝑘𝑘
𝑑𝑑𝑧𝑧𝑘𝑘 +𝜕𝜕𝑓𝑓 𝑧𝑧
𝜕𝜕𝑧𝑧𝑙𝑙𝑑𝑑𝑧𝑧𝑙𝑙 = 0
Advanced Microeconomic Theory 8
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Production Sets
• Example (continued): and rearranging
𝑑𝑑𝑧𝑧𝑙𝑙𝑑𝑑𝑧𝑧𝑘𝑘
= −𝜕𝜕𝑓𝑓 𝑧𝑧�𝜕𝜕𝑧𝑧𝑘𝑘
𝜕𝜕𝑓𝑓 𝑧𝑧�𝜕𝜕𝑧𝑧
, where 𝜕𝜕𝑓𝑓 𝑧𝑧�𝜕𝜕𝑧𝑧𝑘𝑘
𝜕𝜕𝑓𝑓 𝑧𝑧�𝜕𝜕𝑧𝑧
= 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧
• 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 measures the additional amount of input 𝑘𝑘 that must be used when we marginally decrease the amount of input 𝑙𝑙, and we want to keep output level at 𝑞𝑞� = 𝑓𝑓 𝑧𝑧 .
• 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 in production theory is analogous to the 𝑀𝑀𝑀𝑀𝑀𝑀 in consumer theory, where we keep utility constant, 𝑑𝑑𝑢𝑢 = 0.
Advanced Microeconomic Theory 9
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Production Sets • Combinations of (𝑧𝑧1, 𝑧𝑧2)
that produce the same total output 𝑞𝑞0, i.e., (𝑧𝑧1, 𝑧𝑧2 : 𝑓𝑓(𝑧𝑧1, 𝑧𝑧2) = 𝑞𝑞0}
is called isoquant.
• The slope of the isoquant at (𝑧𝑧1, 𝑧𝑧2) is 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 .
• Remember: – 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 refers to
isoquants (and production function).
– 𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 refers to the transformation function.
Advanced Microeconomic Theory 10
z2
z1
Isoquant,
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Production Sets
• Example: Find the 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 for the Cobb-Douglas production function 𝑓𝑓 𝑧𝑧1, 𝑧𝑧2 =𝑧𝑧1
𝛼𝛼𝑧𝑧2𝛽𝛽, where 𝛼𝛼, 𝛽𝛽 > 0.
• The marginal product of input 1 is 𝜕𝜕𝑓𝑓 𝑧𝑧1, 𝑧𝑧2
𝜕𝜕𝑧𝑧1= 𝛼𝛼𝑧𝑧1
𝛼𝛼−1𝑧𝑧2𝛽𝛽
and that of input 2 is 𝜕𝜕𝑓𝑓 𝑧𝑧1, 𝑧𝑧2
𝜕𝜕𝑧𝑧1= 𝛽𝛽𝑧𝑧1
𝛼𝛼𝑧𝑧2𝛽𝛽−1
Advanced Microeconomic Theory 11
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Production Sets
• Example (continued): Hence, the 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 is
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 =𝛼𝛼𝑧𝑧1
𝛼𝛼−1𝑧𝑧2𝛽𝛽
𝛽𝛽𝑧𝑧1𝛼𝛼𝑧𝑧2
𝛽𝛽−1 =𝛼𝛼𝑧𝑧2
𝛽𝛽−(𝛽𝛽−1)
𝛽𝛽𝑧𝑧1𝛼𝛼−(𝛼𝛼−1) =
𝛼𝛼𝑧𝑧2𝛽𝛽𝑧𝑧1
• For instance, for a particular vector 𝑧𝑧 =𝑧𝑧1, 𝑧𝑧2 = (2,3), and 𝛼𝛼 = 𝛽𝛽 = 1
2, then
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 𝑧𝑧 =32
= 1.5
i.e., the slope of the isoquant evaluated at input vector 𝑧𝑧 = 𝑧𝑧1, 𝑧𝑧2 = (2,3) is −1.5.
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Properties of Production Sets
1) Y is nonempty: We have inputs and/or outputs.
2) Y is closed: The
production set 𝑌𝑌 includes its boundary points.
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y2
y1
Y
2 y
Properties of Production Sets
The firm uses amounts of input 𝑦𝑦1 in order to produce positive amounts of output 𝑦𝑦2.
Advanced Microeconomic Theory 14
3) No free lunch: No production with no resources.
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y2
y1
Y
2y Y R+∈ ∩
Properties of Production Sets
The firm produces positive amounts of good 1 and 2 (𝑦𝑦1 > 0 and 𝑦𝑦2 > 0) without the use of any inputs.
Advanced Microeconomic Theory 15
3) No free lunch: violation
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y2
y1
Y
2y Y R+∈ ∩
Properties of Production Sets
The firm produces positive amounts of good 2 (𝑦𝑦2 > 0) with zero inputs, i.e., 𝑦𝑦1 = 0 .
Advanced Microeconomic Theory 16
3) No free lunch: violation
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Properties of Production Sets
Firm can choose to be inactive, using no inputs, and obtaining no output as a result (i.e., 0 ∈ 𝑌𝑌).
Advanced Microeconomic Theory 17
4) Possibility of inaction
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Properties of Production Sets
Inaction is still possible when firms face fixed costs (i.e., 0 ∈ 𝑌𝑌).
Advanced Microeconomic Theory 18 y2
y2
y1
Y 0 Y∈Set up non-sunk cost
4) Possibility of inaction
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Properties of Production Sets
Inaction is NOT possible when firms face sunk costs (i.e., 0 ∉ 𝑌𝑌).
Advanced Microeconomic Theory 19
y2
y1
Y0 Y∉
Sunk cost
4) Possibility of inaction
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Properties of Production Sets
5) Free disposal: if 𝑦𝑦 ∈ 𝑌𝑌 and 𝑦𝑦′ ≤ 𝑦𝑦, then 𝑦𝑦′ ∈ 𝑌𝑌. 𝑦𝑦′ is less efficient than 𝑦𝑦:
– Either it produces the same amount of output with more inputs, or less output using the same inputs.
Then, 𝑦𝑦′ also belongs to the firm’s production set. That is, the producer can use more inputs
without the need the reduce his output: – The producer can dispose of (or eliminate) this
additional inputs at no cost.
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Properties of Production Sets
5) Free disposal (continued)
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Properties of Production Sets
6) Irreversibility Suppose that 𝑦𝑦 ∈ 𝑌𝑌
and 𝑦𝑦 ≠ 0. Then, − 𝑦𝑦 ∉ 𝑌𝑌. “No way back”
Advanced Microeconomic Theory 22
y2
Y
y
-y ∉ Yy1
y1
-y1
y2
-y2
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Properties of Production Sets
7) Non-increasing returns to scale: If 𝑦𝑦 ∈ 𝑌𝑌, then 𝛼𝛼𝑦𝑦 ∈ 𝑌𝑌 for any 𝛼𝛼 ∈ 0,1 . That is, any feasible vector can be scaled down.
Advanced Microeconomic Theory 23
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Properties of Production Sets
7) Non-increasing returns to scale The presence of fixed or sunk costs violates
non-increasing returns to scale.
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Properties of Production Sets
8) Non-decreasing returns to scale: If 𝑦𝑦 ∈ 𝑌𝑌, then 𝛼𝛼𝑦𝑦 ∈ 𝑌𝑌 for any 𝛼𝛼 ≥ 1. That is, any feasible vector can be scaled up.
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Properties of Production Sets
8) Non-decreasing returns to scale The presence of fixed or sunk costs do NOT
violate non-increasing returns to scale.
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Properties of Production Sets
• Returns to scale: – When scaling up/down
a given production plan 𝑦𝑦 = −𝑦𝑦1, 𝑦𝑦2 : We connect 𝑦𝑦 with a ray
from the origin.
Then, the ratio 𝑦𝑦2𝑦𝑦1
must be maintained in all points along the ray. Note that the angle of
the ray is exactly this ratio 𝑦𝑦2
𝑦𝑦1.
Advanced Microeconomic Theory 27
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y2
y1
Y
y
, 1y ifα α <
, 1y ifα α >
Properties of Production Sets
CRS is non-increasing and non-decreasing.
Advanced Microeconomic Theory 28
9) Constant returns to scale (CRS): If 𝑦𝑦 ∈ 𝑌𝑌, then 𝛼𝛼𝑦𝑦 ∈ 𝑌𝑌 for any 𝛼𝛼 ≥ 0.
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Properties of Production Sets
• Alternative graphical representation of constant returns to scale: – Doubling 𝐾𝐾 and 𝐿𝐿
doubles output (i.e., proportionally increase in output).
Advanced Microeconomic Theory 29
L
K
1
1
2
2
Q=200
Q=100
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Properties of Production Sets
• Alternative graphical representation of increasing-returns to scale: – Doubling 𝐾𝐾 and 𝐿𝐿
increases output more than proportionally.
Advanced Microeconomic Theory 30
L
K
1
1
2
2
Q=300
Q=100Q=200
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Properties of Production Sets
• Alternative graphical representation of decreasing-returns to scale: – Doubling 𝐾𝐾 and 𝐿𝐿
increases output less than proportionally.
Advanced Microeconomic Theory 31
L
K
1
1
2
2
Q=200
Q=100Q=150
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Properties of Production Sets
• Example: Let us check returns to scale in the Cobb-Douglas production function 𝑓𝑓 𝑧𝑧1, 𝑧𝑧2 =𝑧𝑧1
𝛼𝛼𝑧𝑧2𝛽𝛽. Increasing all arguments by a common
factor 𝜆𝜆, we obtain
𝑓𝑓 𝑧𝑧1, 𝑧𝑧2 = (𝜆𝜆𝑧𝑧1)𝛼𝛼(𝜆𝜆𝑧𝑧2)𝛽𝛽= 𝜆𝜆𝛼𝛼+𝛽𝛽𝑧𝑧1𝛼𝛼𝑧𝑧2
𝛽𝛽
– When 𝛼𝛼 + 𝛽𝛽 = 1, we have constant returns to scale; – When 𝛼𝛼 + 𝛽𝛽 > 1, we have increasing returns to scale; – When 𝛼𝛼 + 𝛽𝛽 < 1, we have decreasing returns to
scale. Advanced Microeconomic Theory 32
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Properties of Production Sets
• Returns to scale in different US industries (Source: Hsieh, 1995):
Advanced Microeconomic Theory 33
Industry 𝛼𝛼 + 𝛽𝛽 Decreasing returns Tobacco 0.51
Food 0.91
Constant returns Apparel and textile 1.01 Furniture 1.02 Electronics 1.02
Increasing returns Paper products 1.09 Petroleum and coal 1.18 Primary metal 1.24
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Properties of Production Sets
Homogeneity of the Production Function Returns to Scale
𝐾𝐾 = 1 Constant Returns 𝐾𝐾 > 1 Increasing Returns 𝐾𝐾 < 1 Decreasing Returns
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Properties of Production Sets
• The linear production function exhibits CRS as increasing all inputs by a common factor 𝑡𝑡 yields
𝑓𝑓 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙 = 𝑎𝑎𝑡𝑡𝑘𝑘 + 𝑏𝑏𝑡𝑡𝑙𝑙 = 𝑡𝑡 𝑎𝑎𝑘𝑘 + 𝑏𝑏𝑙𝑙 ≡ 𝑡𝑡𝑓𝑓(𝑘𝑘, 𝑙𝑙)
• The fixed proportion production function 𝑓𝑓 𝑘𝑘, 𝑙𝑙 = min{𝑎𝑎𝑘𝑘, 𝑏𝑏𝑙𝑙} also exhibits CRS as
𝑓𝑓 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙 = min 𝑎𝑎𝑡𝑡𝑘𝑘, 𝑏𝑏𝑡𝑡𝑙𝑙 = 𝑡𝑡 ∙ min 𝑎𝑎𝑘𝑘, 𝑏𝑏𝑙𝑙 ≡ 𝑡𝑡𝑓𝑓(𝑘𝑘, 𝑙𝑙)
Advanced Microeconomic Theory 35
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Properties of Production Sets
• Increasing/decreasing returns to scale can be incorporated into a production function 𝑓𝑓(𝑘𝑘, 𝑙𝑙) exhibiting CRS by using a transformation function 𝐹𝐹(∙)
𝐹𝐹 𝑘𝑘, 𝑙𝑙 = 𝑓𝑓(𝑘𝑘, 𝑙𝑙) 𝛾𝛾, where 𝛾𝛾 > 0
• Indeed, increasing all arguments by a common factor 𝑡𝑡, yields
𝐹𝐹 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙 = 𝑓𝑓(𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙) 𝛾𝛾 = 𝑡𝑡 ∙ 𝑓𝑓(𝑘𝑘, 𝑙𝑙)by CRS of 𝑓𝑓(∙) 𝛾𝛾
= 𝑡𝑡𝛾𝛾 ∙ 𝑓𝑓 𝑘𝑘, 𝑙𝑙 𝛾𝛾
𝐹𝐹 𝑘𝑘,𝑙𝑙= 𝑡𝑡𝛾𝛾 ∙ 𝐹𝐹 𝑘𝑘, 𝑙𝑙
Advanced Microeconomic Theory 36
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Properties of Production Sets
• Hence, – if 𝛾𝛾 > 1, the transformed production function
𝐹𝐹 𝑘𝑘, 𝑙𝑙 exhibits increasing returns to scale; – if 𝛾𝛾 < 1, the transformed production function
𝐹𝐹 𝑘𝑘, 𝑙𝑙 exhibits decreasing returns to scale;
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Properties of Production Sets
• Scale elasticity: an alternative measure of returns to scale. – It measures the percent increase in output due to
a 1% increase in the amounts of all inputs
𝜀𝜀𝑞𝑞,𝑡𝑡 =𝜕𝜕𝑓𝑓(𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙)
𝜕𝜕𝑡𝑡∙
𝑡𝑡𝑓𝑓(𝑘𝑘, 𝑙𝑙)
where 𝑡𝑡 denotes the common increase in all inputs. – Practice: Show that, if a function exhibits CRS,
then it has a scale elasticity of 𝜀𝜀𝑞𝑞,𝑡𝑡=1. Advanced Microeconomic Theory 38
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Properties of Production Sets
10) Additivity (or free entry): If 𝑦𝑦 ∈ 𝑌𝑌 and 𝑦𝑦′ ∈ 𝑌𝑌, then 𝑦𝑦 + 𝑦𝑦′ ∈ 𝑌𝑌. Interpretation: one plant produces 𝑦𝑦, while
another plant enters the market producing 𝑦𝑦′. Then, the aggregate production 𝑦𝑦 +𝑦𝑦′ is feasible.
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y2
y1
y(1 ) 'y y Yα α+ − ∈
(1 ) 'y yα α+ −
y'
y'
Properties of Production Sets
11) Convexity: If 𝑦𝑦, 𝑦𝑦′ ∈ 𝑌𝑌 and 𝛼𝛼 ∈ 0,1 , then 𝛼𝛼𝑦𝑦 + (1 − 𝛼𝛼)𝑦𝑦′∈ 𝑌𝑌.
Advanced Microeconomic Theory 40
Intuition: “balanced” input-output combinations are more productive than “unbalanced” ones.
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y2
y1
Y
y
yαy'
(1 ) 'y y Yα α+ − ∉
Properties of Production Sets
11) Convexity: violation
Advanced Microeconomic Theory 41
Note: The convexity of the production set maintains a close relationship with the concavity of the production function.
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Properties of Production Sets
11) Convexity With fixed costs, convexity is NOT necessarily satisfied; With sunk costs, convexity is satisfied.
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Diminishing MRTS
• The slope of the firm’s isoquants is
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 = − 𝑑𝑑𝑘𝑘𝑑𝑑𝑙𝑙
, where 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 = 𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘
• Differentiating 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 with respect to labor yields
𝜕𝜕𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
𝜕𝜕𝑙𝑙=
𝑓𝑓𝑘𝑘 𝑓𝑓𝑙𝑙𝑙𝑙 + 𝑓𝑓𝑙𝑙𝑘𝑘 ∙ 𝑑𝑑𝑘𝑘𝑑𝑑𝑙𝑙 − 𝑓𝑓𝑙𝑙 𝑓𝑓𝑘𝑘𝑙𝑙 + 𝑓𝑓𝑘𝑘𝑘𝑘 ∙ 𝑑𝑑𝑘𝑘
𝑑𝑑𝑙𝑙𝑓𝑓𝑘𝑘
2
Advanced Microeconomic Theory 43
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Diminishing MRTS
• Using the fact that 𝑑𝑑𝑘𝑘𝑑𝑑𝑙𝑙
= − 𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘
along an
isoquant and Young’s theorem 𝑓𝑓𝑙𝑙𝑘𝑘 = 𝑓𝑓𝑘𝑘𝑙𝑙,
𝜕𝜕𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
𝜕𝜕𝑙𝑙=
𝑓𝑓𝑘𝑘 𝑓𝑓𝑙𝑙𝑙𝑙 − 𝑓𝑓𝑙𝑙𝑘𝑘 ∙ 𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘
− 𝑓𝑓𝑙𝑙 𝑓𝑓𝑘𝑘𝑙𝑙 − 𝑓𝑓𝑘𝑘𝑘𝑘 ∙ 𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘
𝑓𝑓𝑘𝑘2
=𝑓𝑓𝑘𝑘𝑓𝑓𝑙𝑙𝑙𝑙 − 𝑓𝑓𝑙𝑙𝑘𝑘𝑓𝑓𝑙𝑙 − 𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘𝑙𝑙 + 𝑓𝑓𝑘𝑘𝑘𝑘 ∙ 𝑓𝑓𝑙𝑙
2
𝑓𝑓𝑘𝑘𝑓𝑓𝑘𝑘
2
Advanced Microeconomic Theory 44
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Diminishing MRTS
• Multiplying numerator and denominator by 𝑓𝑓𝑘𝑘
𝜕𝜕𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
𝜕𝜕𝑙𝑙=
𝑓𝑓𝑘𝑘2�
+
𝑓𝑓𝑙𝑙𝑙𝑙⏞−
+ 𝑓𝑓𝑘𝑘𝑘𝑘�−
𝑓𝑓𝑙𝑙2�
+
− 2𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘
+
𝑓𝑓𝑙𝑙𝑘𝑘�− or+
𝑓𝑓𝑘𝑘3
• Thus,
– If 𝑓𝑓𝑙𝑙𝑘𝑘 > 0 (i.e., ↑ 𝑘𝑘 ⟹ ↑ 𝑀𝑀𝑃𝑃𝑙𝑙), then 𝜕𝜕𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘𝜕𝜕𝑙𝑙
< 0
– If 𝑓𝑓𝑙𝑙𝑘𝑘 < 0, then we have
𝑓𝑓𝑘𝑘2𝑓𝑓𝑙𝑙𝑙𝑙 + 𝑓𝑓𝑘𝑘𝑘𝑘𝑓𝑓𝑙𝑙
2 >< 2𝑓𝑓𝑙𝑙𝑓𝑓𝑘𝑘𝑓𝑓𝑙𝑙𝑘𝑘 ⟹
𝜕𝜕𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
𝜕𝜕𝑙𝑙 <
> 0 Advanced Microeconomic Theory 45
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Diminishing MRTS
Advanced Microeconomic Theory 46
𝑓𝑓𝑙𝑙𝑘𝑘 > 0 (↑ 𝑘𝑘 ⟹ ↑ 𝑀𝑀𝑃𝑃𝑙𝑙), or 𝑓𝑓𝑙𝑙𝑘𝑘 < 0 (↑ 𝑘𝑘 ⟹ ↓ 𝑀𝑀𝑃𝑃𝑙𝑙) but small ↓ in 𝑀𝑀𝑃𝑃𝑙𝑙
𝑓𝑓𝑙𝑙𝑘𝑘 < 0 (↑ 𝑘𝑘 ⟹ ↓↓ 𝑀𝑀𝑃𝑃𝑙𝑙)
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Diminishing MRTS
• Example: Let us check if the production function 𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 600𝑘𝑘2𝑙𝑙2 − 𝑘𝑘3𝑙𝑙3 yields convex isoquants. – Marginal products:
𝑀𝑀𝑃𝑃𝑙𝑙 = 𝑓𝑓𝑙𝑙 = 1,200𝑘𝑘2𝑙𝑙 − 3𝑘𝑘3𝑙𝑙2 > 0 iff 𝑘𝑘𝑙𝑙 < 400 𝑀𝑀𝑃𝑃𝑘𝑘 = 𝑓𝑓𝑘𝑘 = 1,200𝑘𝑘𝑙𝑙2 − 3𝑘𝑘2𝑙𝑙3 > 0 iff 𝑘𝑘𝑙𝑙 < 400
– Decreasing marginal productivity: 𝜕𝜕𝑀𝑀𝑀𝑀𝑙𝑙
𝜕𝜕𝑙𝑙= 𝑓𝑓𝑙𝑙𝑙𝑙 = 1,200𝑘𝑘2 − 6𝑘𝑘3𝑙𝑙 < 0 iff 𝑘𝑘𝑙𝑙 > 200
𝜕𝜕𝑀𝑀𝑀𝑀𝑘𝑘𝜕𝜕𝑘𝑘
= 𝑓𝑓𝑘𝑘𝑘𝑘 = 1,200𝑙𝑙2 − 6𝑘𝑘𝑙𝑙3 < 0 iff 𝑘𝑘𝑙𝑙 > 200 Advanced Microeconomic Theory 47
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Diminishing MRTS
• Example (continued): – Is 200 < 𝑘𝑘𝑙𝑙 < 400 then sufficient condition for
diminishing 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘? No! We need 𝑓𝑓𝑘𝑘𝑙𝑙 > 0 too in order to guarantee diminishing
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘.
– Check the sign of 𝑓𝑓𝑙𝑙𝑘𝑘: 𝑓𝑓𝑙𝑙𝑘𝑘 = 𝑓𝑓𝑘𝑘𝑙𝑙 = 2,400𝑘𝑘𝑙𝑙 − 9𝑘𝑘2𝑙𝑙2 > 0 iff 𝑘𝑘𝑙𝑙 < 266
Advanced Microeconomic Theory 48
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Diminishing MRTS
• Example (continued): – Alternatively, we can represent the above
conditions by solving for 𝑙𝑙 in the above inequalities:
𝑀𝑀𝑃𝑃𝑙𝑙 > 0 iff 𝑙𝑙 < 400𝑘𝑘
𝜕𝜕𝑀𝑀𝑀𝑀𝑙𝑙𝜕𝜕𝑙𝑙
< 0 iff 𝑙𝑙 > 200𝑘𝑘
𝑀𝑀𝑃𝑃𝑘𝑘 > 0 iff 𝑙𝑙 < 400𝑘𝑘
𝜕𝜕𝑀𝑀𝑀𝑀𝑘𝑘𝜕𝜕𝑘𝑘
< 0 iff 𝑙𝑙 > 200𝑘𝑘
and
𝑓𝑓𝑙𝑙𝑘𝑘 > 0 iff 𝑙𝑙 < 266𝑘𝑘
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Diminishing MRTS
• Example (continued):
– Hence, 200𝑘𝑘
< 𝑙𝑙 < 266𝑘𝑘
guarantees positive but diminishing marginal products and, in addition, a diminishing 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘.
– Figure: 𝑙𝑙 = 200𝑘𝑘
is a curve decreasing in 𝑘𝑘, never
crossing either axes. Similarly for 𝑙𝑙 = 266𝑘𝑘
.
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Constant Returns to Scale
• If production function 𝑓𝑓(𝑘𝑘, 𝑙𝑙) exhibits CRS, then increasing all inputs by a common factor 𝑡𝑡 yields
𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 𝑡𝑡𝑓𝑓 𝑘𝑘, 𝑙𝑙
• Hence, 𝑓𝑓(𝑘𝑘, 𝑙𝑙) is homogenous of degree 1, thus implying that its first-order derivatives
𝑓𝑓𝑘𝑘 𝑘𝑘, 𝑙𝑙 and 𝑓𝑓𝑙𝑙 𝑘𝑘, 𝑙𝑙 are homogenous of degree zero.
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Constant Returns to Scale
• Therefore,
𝑀𝑀𝑃𝑃𝑙𝑙 =𝜕𝜕𝑓𝑓(𝑘𝑘, 𝑙𝑙)
𝜕𝜕𝑙𝑙=
𝜕𝜕𝑓𝑓(𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙)𝜕𝜕𝑙𝑙
= 𝑓𝑓𝑙𝑙 𝑘𝑘, 𝑙𝑙 = 𝑓𝑓𝑙𝑙 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙
• Setting 𝑡𝑡 = 1𝑙𝑙, we obtain
𝑀𝑀𝑃𝑃𝑙𝑙 = 𝑓𝑓𝑙𝑙 𝑘𝑘, 𝑙𝑙 = 𝑓𝑓𝑙𝑙1𝑙𝑙
𝑘𝑘,𝑘𝑘𝑘𝑘
= 𝑓𝑓𝑙𝑙𝑘𝑘𝑙𝑙
, 1
• Hence, 𝑀𝑀𝑃𝑃𝑙𝑙 only depends on the ratio 𝑘𝑘𝑙𝑙, but not
on the absolute levels of 𝑘𝑘 and 𝑙𝑙 that firm uses. • A similar argument applies to 𝑀𝑀𝑃𝑃𝑘𝑘.
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Constant Returns to Scale
• Thus, 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 = 𝑀𝑀𝑀𝑀𝑙𝑙𝑀𝑀𝑀𝑀𝑘𝑘
only depends on the ratio of capital to labor.
• The slope of a firm’s isoquants coincides at any point along a ray from the origin.
• Firm’s production function is, hence, homothetic.
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Elasticity of Substitution
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Elasticity of Substitution
• Elasticity of substitution (𝜎𝜎) measures the proportionate change in the 𝑘𝑘/𝑙𝑙 ratio relative to the proportionate change in the 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 along an isoquant:
𝜎𝜎 =%∆(𝑘𝑘/𝑙𝑙)
%∆𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘=
𝑑𝑑(𝑘𝑘/𝑙𝑙)𝑑𝑑𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
∙𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
𝑘𝑘/𝑙𝑙
=𝜕𝜕ln (𝑘𝑘/𝑙𝑙)
𝜕𝜕ln (𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀)𝑙𝑙,𝑘𝑘
where 𝜎𝜎 > 0 as 𝑘𝑘/𝑙𝑙 and 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 move in the same direction.
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Elasticity of Substitution
• Both 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 and 𝑘𝑘/𝑙𝑙 will change as we move from point 𝐴𝐴 to point 𝐵𝐵.
• 𝜎𝜎 is the ratio of these changes.
• 𝜎𝜎 measures the curvature of the isoquant.
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Elasticity of Substitution
• If we define the elasticity of substitution between two inputs to be proportionate change in the ratio of the two inputs to the proportionate change in 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀, we need to hold: – output constant (so we move along the same
isoquant), and – the levels of other inputs constant (in case we
have more than two inputs). For instance, we fix the amount of other inputs, such as land.
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Elasticity of Substitution
• High elasticity of substitution (𝜎𝜎): – 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 does not
change substantially relative to 𝑘𝑘/𝑙𝑙.
– Isoquant is relatively flat.
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MRTSB
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Elasticity of Substitution
• Low elasticity of substitution (𝜎𝜎): – 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 changes
substantially relative to 𝑘𝑘/𝑙𝑙.
– Isoquant is relatively sharply curved.
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MRTSB
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Elasticity of Substitution: Linear Production Function
• Suppose that the production function is 𝑞𝑞 = 𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 𝑎𝑎𝑘𝑘 + 𝑏𝑏𝑙𝑙
• This production function exhibits constant returns to scale
𝑓𝑓 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙 = 𝑎𝑎𝑡𝑡𝑘𝑘 + 𝑏𝑏𝑡𝑡𝑙𝑙 = 𝑡𝑡 𝑎𝑎𝑘𝑘 + 𝑏𝑏𝑙𝑙= 𝑡𝑡𝑓𝑓(𝑘𝑘, 𝑙𝑙)
• Solving for 𝑘𝑘 in 𝑞𝑞, we get 𝑘𝑘 = 𝑓𝑓 𝑘𝑘,𝑙𝑙𝑎𝑎
− 𝑏𝑏𝑎𝑎
𝑙𝑙. – All isoquants are straight lines – 𝑘𝑘 and 𝑙𝑙 are perfect substitutes
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Elasticity of Substitution: Linear Production Function
• 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀 (slope of the isoquant) is constant as 𝑘𝑘/𝑙𝑙 changes.
𝜎𝜎 =%∆(𝑘𝑘/𝑙𝑙)
%∆𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘0
= ∞
• This production function satisfies homotheticity.
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Elasticity of Substitution: Fixed Proportions Production Function • Suppose that the production function is
𝑞𝑞 = min 𝑎𝑎𝑘𝑘, 𝑏𝑏𝑙𝑙 𝑎𝑎, 𝑏𝑏 > 0 • Capital and labor must always be used in a fixed
ratio – No substitution between 𝑘𝑘 and 𝑙𝑙 – The firm will always operate along a ray where 𝑘𝑘/𝑙𝑙 is
constant (i.e., at the kink!). • Because 𝑘𝑘/𝑙𝑙 is constant (𝑏𝑏/𝑎𝑎),
𝜎𝜎 =%∆(𝑘𝑘/𝑙𝑙)
%∆𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘∞
= 0
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Elasticity of Substitution: Fixed Proportions Production Function • 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 = ∞ for 𝑙𝑙
below the kink of the isoquant.
• 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 = 0 for 𝑙𝑙 beyond the kink.
• This production function also satisfies homotheticity.
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Elasticity of Substitution: Cobb-Douglas Production Function
• Suppose that the production function is 𝑞𝑞 = 𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 𝐴𝐴𝑘𝑘𝑎𝑎𝑙𝑙𝑏𝑏 𝐴𝐴, 𝑎𝑎, 𝑏𝑏 > 0
• This production function can exhibit any returns to scale
𝑓𝑓 𝑡𝑡𝑘𝑘, 𝑡𝑡𝑙𝑙 = 𝐴𝐴(𝑡𝑡𝑘𝑘)𝑎𝑎(𝑡𝑡𝑙𝑙)𝑏𝑏= 𝐴𝐴𝑡𝑡𝑎𝑎+𝑏𝑏𝑘𝑘𝑎𝑎𝑙𝑙𝑏𝑏
= 𝑡𝑡𝑎𝑎+𝑏𝑏𝑓𝑓(𝑘𝑘, 𝑙𝑙) – If 𝑎𝑎 + 𝑏𝑏 = 1 ⟹ constant returns to scale – If 𝑎𝑎 + 𝑏𝑏 > 1 ⟹ increasing returns to scale – If 𝑎𝑎 + 𝑏𝑏 < 1 ⟹ decreasing returns to scale
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Elasticity of Substitution: Cobb-Douglas Production Function
• The Cobb-Douglass production function is linear in logarithms
ln 𝑞𝑞 = ln 𝐴𝐴 + 𝑎𝑎 ln 𝑘𝑘 + 𝑏𝑏 ln 𝑙𝑙
– 𝑎𝑎 is the elasticity of output with respect to 𝑘𝑘
𝜀𝜀𝑞𝑞,𝑘𝑘 =𝜕𝜕ln (𝑞𝑞)𝜕𝜕ln (𝑘𝑘)
– 𝑏𝑏 is the elasticity of output with respect to 𝑙𝑙
𝜀𝜀𝑞𝑞,𝑙𝑙 =𝜕𝜕ln (𝑞𝑞)𝜕𝜕ln (𝑙𝑙)
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Elasticity of Substitution: Cobb-Douglas Production Function
• The elasticity of substitution (𝜎𝜎) for the Cobb-Douglas production function: – First,
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 =𝑀𝑀𝑃𝑃𝑙𝑙
𝑀𝑀𝑃𝑃𝑘𝑘=
𝜕𝜕𝑞𝑞𝜕𝜕𝑙𝑙𝜕𝜕𝑞𝑞𝜕𝜕𝑘𝑘
=𝑏𝑏𝐴𝐴𝑘𝑘𝑎𝑎𝑙𝑙𝑏𝑏−1
𝑎𝑎𝐴𝐴𝑘𝑘𝑎𝑎−1𝑙𝑙𝑏𝑏 =𝑏𝑏𝑎𝑎
∙𝑘𝑘𝑙𝑙
– Hence,
ln (𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘) = ln𝑏𝑏𝑎𝑎
+ ln𝑘𝑘𝑙𝑙
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Elasticity of Substitution: Cobb-Douglas Production Function
– Solving for ln 𝑘𝑘𝑙𝑙
,
ln𝑘𝑘𝑙𝑙
= ln 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 − ln𝑏𝑏𝑎𝑎
– Therefore, the elasticity of substitution between 𝑘𝑘 and 𝑙𝑙 is
𝜎𝜎 =𝑑𝑑 ln 𝑘𝑘
𝑙𝑙𝑑𝑑 ln 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
= 1
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Elasticity of Substitution: CES Production Function
• Suppose that the production function is 𝑞𝑞 = 𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 𝑘𝑘𝜌𝜌 + 𝑙𝑙𝜌𝜌 𝛾𝛾/𝜌𝜌
where 𝜌𝜌 ≤ 1, 𝜌𝜌 ≠ 0, 𝛾𝛾 > 0 – 𝛾𝛾 = 1 ⟹ constant returns to scale – 𝛾𝛾 > 1 ⟹ increasing returns to scale – 𝛾𝛾 < 1 ⟹ decreasing returns to scale
• Alternative representation of the CES function
𝑓𝑓 𝑘𝑘, 𝑙𝑙 = 𝑎𝑎𝑘𝑘𝜎𝜎−1
𝜎𝜎 + 𝑏𝑏𝑙𝑙𝜎𝜎−1
𝜎𝜎
𝜎𝜎−1𝜎𝜎
where 𝜎𝜎 is the elasticity of substitution.
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Elasticity of Substitution: CES Production Function
• The elasticity of substitution (𝜎𝜎) for the CES production function: – First,
𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘 =𝑀𝑀𝑃𝑃𝑙𝑙
𝑀𝑀𝑃𝑃𝑘𝑘=
𝜕𝜕𝑞𝑞𝜕𝜕𝑙𝑙𝜕𝜕𝑞𝑞𝜕𝜕𝑘𝑘
=
𝛾𝛾𝜌𝜌 𝑘𝑘𝜌𝜌 + 𝑙𝑙𝜌𝜌
𝛾𝛾𝜌𝜌−1 𝜌𝜌𝑙𝑙𝜌𝜌−1
𝛾𝛾𝜌𝜌 𝑘𝑘𝜌𝜌 + 𝑙𝑙𝜌𝜌
𝛾𝛾𝜌𝜌−1 𝜌𝜌𝑘𝑘𝜌𝜌−1
=𝑙𝑙𝑘𝑘
𝜌𝜌−1
=𝑘𝑘𝑙𝑙
1−𝜌𝜌
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Elasticity of Substitution: CES Production Function
– Hence,
ln (𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘) = 𝜌𝜌 − 1 ln𝑘𝑘𝑙𝑙
– Solving for ln 𝑘𝑘𝑙𝑙
,
ln𝑘𝑘𝑙𝑙
=1
𝜌𝜌 − 1ln 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
– Therefore, the elasticity of substitution between 𝑘𝑘 and 𝑙𝑙 is
𝜎𝜎 =𝑑𝑑 ln 𝑘𝑘
𝑙𝑙𝑑𝑑 ln 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑙𝑙,𝑘𝑘
=1
𝜌𝜌 − 1
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Elasticity of Substitution: CES Production Function
• Elasticity of Substitution in German Industries (Source: Kemfert, 1998):
Advanced Microeconomic Theory 71
Industry 𝜎𝜎 Food 0.66 Iron 0.50 Chemicals 0.37 Motor Vehicles 0.10
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Elasticity of Substitution
• The elasticity of substitution 𝜎𝜎 between 𝑘𝑘 and 𝑙𝑙 is decreasing in scale (i.e., as 𝑞𝑞 increases). – 𝑞𝑞0 and 𝑞𝑞1 have very
high 𝜎𝜎 – 𝑞𝑞5 and 𝑞𝑞6 have very
low 𝜎𝜎
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Elasticity of Substitution
• The elasticity of substitution 𝜎𝜎 between 𝑘𝑘 and 𝑙𝑙 is increasing in scale (i.e., as 𝑞𝑞 increases). – 𝑞𝑞0 and 𝑞𝑞1 have very
low 𝜎𝜎 – 𝑞𝑞2 and 𝑞𝑞3 have very
high 𝜎𝜎
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Profit Maximization
Advanced Microeconomic Theory 74
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Profit Maximization
• Assumptions: – Firms are price takers: the production plans of an
individual firm do not alter price levels 𝑝𝑝 =𝑝𝑝1, 𝑝𝑝2, … , 𝑝𝑝𝐿𝐿 ≫ 0.
– The production set satisfies: non-emptiness, closedness, and free-disposal.
• Profit maximization problem (PMP): max
𝑦𝑦 𝑝𝑝 ∙ 𝑦𝑦
s.t. 𝑦𝑦 ∈ 𝑌𝑌, or alternatively, 𝐹𝐹(𝑦𝑦) ≤ 0 Advanced Microeconomic Theory 75
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Profit Maximization
• Profit function 𝜋𝜋(𝑝𝑝) associates to every 𝑝𝑝 the highest amount of profits (i.e., 𝜋𝜋(𝑝𝑝) is the value function of the PMP)
𝜋𝜋 𝑝𝑝 = max𝑦𝑦
𝑝𝑝 ∙ 𝑦𝑦: 𝑦𝑦 ∈ 𝑌𝑌
• And the supply correspondence 𝑦𝑦(𝑝𝑝) is the argmax of the PMP,
𝑦𝑦 𝑝𝑝 = 𝑦𝑦 ∈ 𝑌𝑌: 𝑝𝑝 ∙ 𝑦𝑦 = 𝜋𝜋 𝑝𝑝 where positive components in the vector 𝑦𝑦 𝑝𝑝 is output supplied by the firm to the market, while negative components are inputs in its production process.
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Profit Maximization
• Isoprofit line: combinations of inputs and output for which the firm obtains a given level of profits.
• Note that 𝜋𝜋0 = 𝑝𝑝2𝑦𝑦2 − 𝑝𝑝1𝑦𝑦1
Solving for 𝑦𝑦2
𝑦𝑦2 =𝜋𝜋0
𝑝𝑝2�intercept
−𝑝𝑝1
𝑝𝑝2�𝑦𝑦1
slope
Advanced Microeconomic Theory 77
y2
y1
( )F y∇
{ }: ( ) 0y y F y= ≤
1,2 ( )slope MRT y= −
Increasing profit
y(p) Supply correspondence
2 2 1 1 ''p y p y π− =
2 2 1 1 'p y p y π− =
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Profit Maximization
• We can rewrite the PMP as max𝑦𝑦≤𝐹𝐹(𝑦𝑦)
𝑝𝑝 ∙ 𝑦𝑦
with associated Lagrangian
𝐿𝐿 = 𝑝𝑝 ∙ 𝑦𝑦 − 𝜆𝜆𝐹𝐹(𝑦𝑦)
Advanced Microeconomic Theory 78
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Profit Maximization
– Taking FOCs with respect to every 𝑦𝑦𝑘𝑘, we obtain
𝑝𝑝𝑘𝑘 − 𝜆𝜆𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑘𝑘≤ 0
where 𝐹𝐹(𝑦𝑦∗) is evaluated at the optimum, i.e., 𝐹𝐹 𝑦𝑦∗ = 𝐹𝐹(𝑦𝑦(𝑝𝑝)) .
– For interior solutions, 𝑝𝑝𝑘𝑘 = 𝜆𝜆 𝜕𝜕𝐹𝐹(𝑦𝑦∗)𝜕𝜕𝑦𝑦𝑘𝑘
, or in matrix notation
𝑝𝑝 = 𝜆𝜆𝛻𝛻𝑦𝑦𝐹𝐹(𝑦𝑦∗) that is, the price vector and the gradient vector are proportional.
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Profit Maximization
– Solving for 𝜆𝜆, we obtain
𝜆𝜆 = 𝑝𝑝𝑘𝑘𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑘𝑘
for every good 𝑘𝑘 ⟹ 𝑝𝑝𝑘𝑘𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑘𝑘
= 𝑝𝑝𝑙𝑙𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑙𝑙
which can also be expressed as
𝑝𝑝𝑘𝑘𝑝𝑝𝑙𝑙
=𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑘𝑘𝜕𝜕𝐹𝐹(𝑦𝑦∗)
𝜕𝜕𝑦𝑦𝑙𝑙
(= 𝑀𝑀𝑀𝑀𝑀𝑀𝑘𝑘,𝑙𝑙(𝑦𝑦∗))
– Graphically, the slope of the transformation frontier (at the profit maximization production plan 𝑦𝑦∗), 𝑀𝑀𝑀𝑀𝑀𝑀𝑘𝑘,𝑙𝑙(𝑦𝑦∗), coincides with the price ratio, 𝑝𝑝𝑘𝑘
𝑝𝑝𝑙𝑙.
Advanced Microeconomic Theory 80
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Profit Maximization
• Are there PMPs with no supply correspondence 𝑦𝑦 𝑝𝑝 , i.e., there is no well defined profit maximizing vector? – Yes.
• Example: 𝑞𝑞 = 𝑓𝑓 𝑧𝑧 = 𝑧𝑧 (i.e., every unit of input 𝑧𝑧 is transformed into a unit of output 𝑞𝑞)
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Profit Maximization: Single Output
• Production function, 𝑞𝑞 = 𝑓𝑓 𝑧𝑧 , produces a single output from a vector 𝑧𝑧 of inputs.
max𝑧𝑧≥0
𝑝𝑝𝑓𝑓 𝑧𝑧 − 𝑤𝑤𝑧𝑧
• The first-order conditions are
𝑝𝑝 𝜕𝜕𝑓𝑓(𝑦𝑦∗)𝜕𝜕𝑧𝑧𝑘𝑘
≤ 𝑤𝑤𝑘𝑘 or 𝑝𝑝 ∙ 𝑀𝑀𝑃𝑃𝑧𝑧𝑘𝑘 ≤ 𝑤𝑤𝑘𝑘
• For interior solutions, the market value of the marginal product obtained form using additional units of this input 𝑘𝑘, 𝑝𝑝 𝜕𝜕𝑓𝑓(𝑦𝑦∗)
𝜕𝜕𝑧𝑧𝑘𝑘, must coincide with
the price of this input, 𝑤𝑤𝑘𝑘. Advanced Microeconomic Theory 82
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Profit Maximization: Single Output • Note that for any two input, this implies
𝑝𝑝 = 𝑤𝑤𝑘𝑘𝜕𝜕𝑓𝑓(𝑦𝑦∗)
𝜕𝜕𝑧𝑧𝑘𝑘
for every good 𝑘𝑘
Hence,
𝑤𝑤𝑘𝑘𝑤𝑤𝑙𝑙
=𝜕𝜕𝑓𝑓(𝑧𝑧∗)
𝜕𝜕𝑧𝑧𝑘𝑘𝜕𝜕𝑓𝑓(𝑧𝑧∗)
𝜕𝜕𝑧𝑧𝑙𝑙
=𝑀𝑀𝑀𝑀𝑧𝑧𝑘𝑘𝑀𝑀𝑀𝑀𝑧𝑧𝑙𝑙
(= 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑧𝑧𝑘𝑘,𝑧𝑧𝑙𝑙(𝑧𝑧∗))
or 𝑀𝑀𝑃𝑃𝑧𝑧𝑘𝑘
𝑤𝑤𝑧𝑧𝑘𝑘
=𝑀𝑀𝑃𝑃𝑧𝑧𝑙𝑙
𝑤𝑤𝑧𝑧𝑙𝑙
Intuition: Marginal productivity per dollar spent on input 𝑧𝑧𝑘𝑘 is equal to that spent on input 𝑧𝑧𝑙𝑙.
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Profit Maximization • Example : Are there PMPs with no supply
correspondence 𝑦𝑦(𝑝𝑝), i.e., there is no well defined profit maximizing vector? – Yes.
• If the input price 𝑝𝑝𝑧𝑧 satisfies 𝑝𝑝𝑧𝑧 ≥ 𝑝𝑝, then 𝑞𝑞 = 0 and 𝜋𝜋 𝑝𝑝 = 0.
• If the input price 𝑝𝑝𝑧𝑧 satisfies 𝑝𝑝𝑧𝑧 < 𝑝𝑝, then 𝑞𝑞 = +∞ and 𝜋𝜋 𝑝𝑝 = +∞. – In this case, the supply correspondence is not well defined,
since you can always increase input usage, thus increasing profits.
– Exception: if input usage is constrained in the interval 0, 𝑧𝑧 , then 𝑦𝑦 𝑝𝑝 is at the corner solution 𝑦𝑦 𝑝𝑝 = 𝑧𝑧, thus
implying that the PMP is well defined. Advanced Microeconomic Theory 84
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Profit Maximization
• Example (continued):
Advanced Microeconomic Theory 85
q=f(z)
zz
Increasing profit
f(z)=q q=f(z)
z
Increasing profit
f(z)=q
y(p)=0
If 𝑝𝑝𝑧𝑧 < 𝑝𝑝, the firm can ∆𝑞𝑞 and ∆𝜋𝜋.
If 𝑝𝑝𝑧𝑧 > 𝑝𝑝, the firm chooses 𝑞𝑞 = 𝑦𝑦 𝑝𝑝 = 0 with 𝜋𝜋 𝑝𝑝 = 0.
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Profit Maximization: Single Output
• When are these FOCs also sufficient? – When the production set 𝑌𝑌 is convex! Let’s see.
• Isocost line for the firm is 𝑤𝑤1𝑧𝑧1 + 𝑤𝑤2𝑧𝑧2 = 𝑐𝑐
• Solving for 𝑧𝑧2
𝑧𝑧2 =𝑐𝑐
𝑤𝑤2�intercept
−𝑤𝑤1
𝑤𝑤2�slope
𝑧𝑧1
Advanced Microeconomic Theory 86
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Profit Maximization: Single Output
Advanced Microeconomic Theory 87
– the FOCs (necessary) of 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀1,2 = 𝑤𝑤1
𝑤𝑤2 are
also sufficient.
• Convex production set
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Profit Maximization: Single Output
– the FOCs are NOT sufficient for a combination of (𝑧𝑧1, 𝑧𝑧2) that maximize profits.
– the profit-maximizing vector (𝑧𝑧1
∗, 𝑧𝑧2∗) is at a
corner solution, where the firm uses 𝑧𝑧2 alone.
Advanced Microeconomic Theory 88
• Non-convex production set
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Profit Maximization: Single Output
Advanced Microeconomic Theory 89
• Example: Cobb-Douglas production function • On your own:
– Solve PMP (differentiating with respect to 𝑧𝑧1and 𝑧𝑧2. – Find optimal input usage 𝑧𝑧1(𝑤𝑤, 𝑞𝑞) and 𝑧𝑧2(𝑤𝑤, 𝑞𝑞).
• These are referred to as “conditional factor demand correspondences”
– Plug them into the production function to obtain the value function, i.e., the output that arises when the firm uses its profit-maximizing input combination.
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Properties of Profit Function
• Assume that the production set 𝑌𝑌 is closed and satisfies the free disposal property. 1) Homog(1) in prices
𝜋𝜋 𝜆𝜆𝑝𝑝 = 𝜆𝜆𝜋𝜋 𝑝𝑝 Increasing the prices of all inputs and outputs by a
common factor 𝜆𝜆 produces a proportional increase in the firm’s profits.
𝜋𝜋 𝑝𝑝 = 𝑝𝑝𝑞𝑞 − 𝑤𝑤1𝑧𝑧1 − ⋯ − 𝑤𝑤𝑛𝑛𝑧𝑧𝑛𝑛 Scaling all prices by a common factor, we obtain
𝜋𝜋 𝜆𝜆𝑝𝑝 = 𝜆𝜆𝑝𝑝𝑞𝑞 − 𝜆𝜆𝑤𝑤1𝑧𝑧1 − ⋯ − 𝜆𝜆𝑤𝑤𝑛𝑛𝑧𝑧𝑛𝑛= 𝜆𝜆 𝑝𝑝𝑞𝑞 − 𝑤𝑤1𝑧𝑧1 − ⋯ − 𝑤𝑤𝑛𝑛𝑧𝑧𝑛𝑛 = 𝜆𝜆𝜋𝜋 𝑝𝑝
Advanced Microeconomic Theory 90
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Properties of Profit Function
2) Convex in output prices Intuition: the firm
obtains more profits from balanced input-output combinations, than from unbalanced combinations.
Advanced Microeconomic Theory 91
z
y(p)
y(p’)
( )y p
Y
q
q=f(z)
Price vector Production plan Profits
𝑝𝑝 𝑦𝑦(𝑝𝑝) 𝜋𝜋 𝑝𝑝
𝑝𝑝′ 𝑦𝑦(𝑝𝑝′) 𝜋𝜋 𝑝𝑝′
��𝑝 𝑦𝑦(��𝑝) 𝜋𝜋 ��𝑝 = 𝛼𝛼𝜋𝜋 𝑝𝑝 + 1 − 𝛼𝛼 𝜋𝜋 𝑝𝑝′
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Properties of Profit Function
3) If the production set 𝑌𝑌 is convex, then 𝑌𝑌 = 𝑦𝑦 ∈ ℝ𝐿𝐿: 𝑝𝑝 ∙ 𝑦𝑦 ≤ 𝜋𝜋 𝑝𝑝 for all 𝑝𝑝 ≫ 0 Intuition: the production set 𝑌𝑌 can be
represented by this “dual” set. This dual set specifies that, for any given
prices 𝑝𝑝, all production vectors 𝑦𝑦 generate less profits 𝑝𝑝 ∙ 𝑦𝑦, than the optimal production plan 𝑦𝑦(𝑝𝑝) in the profit function 𝜋𝜋 𝑝𝑝 = 𝑝𝑝 ∙ 𝑦𝑦(𝑝𝑝).
Advanced Microeconomic Theory 92
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Properties of Profit Function • All production plans
𝑧𝑧, 𝑞𝑞 below the isoprofit line yield a lower profit level:
𝑝𝑝𝑞𝑞 − 𝑤𝑤𝑧𝑧 ≤ 𝜋𝜋 𝑝𝑝 • The isoprofit line
𝜋𝜋 𝑝𝑝 = 𝑝𝑝𝑞𝑞 − 𝑤𝑤𝑧𝑧 can be expressed as
𝑞𝑞 =𝜋𝜋𝑝𝑝
+𝑤𝑤𝑝𝑝
𝑧𝑧
– If 𝑤𝑤𝑝𝑝
is constant ⟹ 𝜋𝜋 ∙ is convex.
– What if it is not constant? Let’s see next. Advanced Microeconomic Theory 93
z
y(p)
Y
q
q=f(z)
p q w zπ = ⋅ − ⋅
{ }2 : ( )y p q w z pπ∈ ⋅ − ⋅ ≤
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Properties of Profit Function a) Input prices are a function of input usage, i.e.,
𝑤𝑤 = 𝑓𝑓(𝑧𝑧), where 𝑓𝑓′(𝑧𝑧) ≠ 0. Then, either i. 𝑓𝑓′ 𝑧𝑧 < 0, and the firm gets a price discount per unit of
input from suppliers when ordering large amounts of inputs (e.g., loans)
ii. 𝑓𝑓′ 𝑧𝑧 > 0, and the firm has to pay more per unit of input when ordering large amounts of inputs (e.g., scarce qualified labor)
b) Output prices are a function of production , i.e., 𝑝𝑝 = 𝑔𝑔(𝑞𝑞), where 𝑔𝑔′(𝑞𝑞) ≠ 0. Then, either i. 𝑔𝑔′(𝑞𝑞) < 0, and the firm offers price discounts to its
customers. ii. 𝑔𝑔′(𝑞𝑞) > 0, and the firm applies price surcharges to its
customers. Advanced Microeconomic Theory 94
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Properties of Profit Function
• If 𝑓𝑓′ 𝑧𝑧 < 0, then we have strictly convex isoprofit curves.
• If 𝑓𝑓′ 𝑧𝑧 > 0, then we have strictly concave isoprofit curves.
• If 𝑓𝑓′ 𝑧𝑧 = 0, then we have straight isoprofit curves. Advanced Microeconomic Theory 95
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Remarks on Profit Function
• Remark 1: the profit function is a value function, measuring firm profits only for the profit-maximizing vector 𝑦𝑦∗.
• Remark 2: the profit function can be understood as a support function. – Take negative of the production set 𝑌𝑌, i.e., −𝑌𝑌 – Then, the support function of −𝑌𝑌 set is
𝜇𝜇−𝑌𝑌 𝑝𝑝 = min𝑦𝑦
𝑝𝑝 ∙ −𝑦𝑦 : 𝑦𝑦 ∈ 𝑌𝑌
That is, take the profits resulting form all production vectors 𝑦𝑦 ∈ 𝑌𝑌, 𝑝𝑝 ∙ 𝑦𝑦, then take the negative of all these profits, 𝑝𝑝 ∙ −𝑦𝑦 , and then choose the smallest one.
Advanced Microeconomic Theory 96
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Remarks on Profit Function
– Of course, this is the same as maximizing the (positive) value of the profits resulting from all production vector 𝑦𝑦 ∈ 𝑌𝑌, 𝑝𝑝 ∙ 𝑦𝑦.
– Therefore, the profit function, 𝜋𝜋(𝑝𝑝), is the support of the negative production set, −𝑌𝑌,
𝜋𝜋 𝑝𝑝 = 𝜇𝜇−𝑌𝑌 𝑝𝑝
Advanced Microeconomic Theory 97
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Remarks on Profit Function
– Alternatively, the argmax of any objective function 𝑦𝑦1
∗ = arg max𝑦𝑦
𝑓𝑓(𝑥𝑥)
coincides with the argmin of the negative of this objective function 𝑦𝑦2
∗ = arg max𝑦𝑦
−𝑓𝑓(𝑥𝑥)
where 𝑦𝑦1∗ = 𝑦𝑦2
∗. Advanced Microeconomic Theory 98
y2
y1
y(p)
y(p’)
{ }: ( )y p y pπ⋅ ≤
{ }: ' ( ')y p y pπ⋅ ≤
( )q f z=
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y2
y1
y(p),straight segment of Y
{ }: ( )y p y pπ⋅ =
Properties of Supply Correspondence
– 𝑌𝑌 has a flat surface – 𝑦𝑦(𝑝𝑝) is NOT single
valued.
Advanced Microeconomic Theory 99
1) If 𝑌𝑌 is weakly convex, then 𝑦𝑦(𝑝𝑝) is a convex set for all 𝑝𝑝.
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y2
y1
Unique y(p)
{ }: ( )y p y pπ⋅ =
( )q f z=
Properties of Supply Correspondence
1) (continued) If 𝑌𝑌 is strictly convex, then 𝑦𝑦(𝑝𝑝) is single-valued (if nonempty).
Advanced Microeconomic Theory 100
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Properties of Supply Correspondence
2) Hotelling’s Lemma: If 𝑦𝑦(��𝑝) consists of a single point, then 𝜋𝜋(∙) is differentiable at ��𝑝. Moreover, 𝛻𝛻𝑝𝑝𝜋𝜋 ��𝑝 = 𝑦𝑦(��𝑝).
– This is an application of the duality theorem from consumer theory.
• If 𝑦𝑦(∙) is a function differentiable at ��𝑝, then 𝐷𝐷𝑝𝑝𝑦𝑦(��𝑝) = 𝐷𝐷𝑝𝑝
2𝜋𝜋 ��𝑝 is a symmetric and positive semidefinite matrix, with 𝐷𝐷𝑝𝑝𝜋𝜋 ��𝑝 ��𝑝 = 0. This is a direct consequence of the law of supply.
Advanced Microeconomic Theory 101
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Properties of Supply Correspondence
– Since 𝐷𝐷𝑝𝑝𝜋𝜋 ��𝑝 ��𝑝 = 0, 𝐷𝐷𝑝𝑝 𝑦𝑦(��𝑝) must satisfy: Own substitution effects (main diagonal
elements in 𝐷𝐷𝑝𝑝𝑦𝑦(��𝑝)) are non-negative, i.e., 𝜕𝜕𝑦𝑦𝑘𝑘(𝑝𝑝)
𝜕𝜕𝑝𝑝𝑘𝑘≥ 0 for all 𝑘𝑘
Cross substitution effects (off diagonal elements in 𝐷𝐷𝑝𝑝𝑦𝑦(��𝑝)) are symmetric, i.e.,
𝜕𝜕𝑦𝑦𝑙𝑙(𝑝𝑝)𝜕𝜕𝑝𝑝𝑘𝑘
= 𝜕𝜕𝑦𝑦𝑘𝑘(𝑝𝑝)𝜕𝜕𝑝𝑝𝑙𝑙
for all 𝑙𝑙 and 𝑘𝑘
Advanced Microeconomic Theory 102
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Properties of Supply Correspondence
• 𝜕𝜕𝑦𝑦𝑘𝑘(𝑝𝑝)𝜕𝜕𝑝𝑝𝑘𝑘
≥ 0 , which
implies that quantities and prices move in the same direction, (𝑝𝑝 − 𝑝𝑝′)(𝑦𝑦 − 𝑦𝑦′) ≥ 0 – The law of supply holds!
Advanced Microeconomic Theory 103
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Properties of Supply Correspondence
• Since there is no budget constraint, there is no wealth compensation requirement (as opposed to Demand theory). – This implies that there no income effects, only
substitution effects.
• Alternatively, from a revealed preference argument, the law of supply can be expressed as
𝑝𝑝 − 𝑝𝑝′ 𝑦𝑦 − 𝑦𝑦′ = 𝑝𝑝𝑦𝑦 − 𝑝𝑝𝑦𝑦′ + 𝑝𝑝′𝑦𝑦′ − 𝑝𝑝′𝑦𝑦 ≥ 0
where 𝑦𝑦 ∈ 𝑦𝑦(𝑝𝑝) and 𝑦𝑦 ∈ 𝑦𝑦(𝑝𝑝′). Advanced Microeconomic Theory 104
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Cost Minimization
Advanced Microeconomic Theory 105
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Cost Minimization
• We focus on the single output case, where – 𝑧𝑧 is the input vector – 𝑓𝑓(𝑧𝑧) is the production function – 𝑞𝑞 are the units of the (single) output – 𝑤𝑤 ≫ 0 is the vector of input prices
• The cost minimization problem (CMP) is min𝑧𝑧≥0
𝑤𝑤 ∙ 𝑧𝑧 s. t. 𝑓𝑓(𝑧𝑧) ≥ 𝑞𝑞
Advanced Microeconomic Theory 106
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Cost Minimization
• The optimal vector of input (or factor) choices is 𝑧𝑧(𝑤𝑤, 𝑞𝑞), and is known as the conditional factor demand correspondence. – If single-valued, 𝑧𝑧 𝑤𝑤, 𝑞𝑞 is a function (not a
correspondence) – Why “conditional”? Because it represents the
firm’s demand for inputs, conditional on reaching output level 𝑞𝑞.
• The value function of this CMP 𝑐𝑐 𝑤𝑤, 𝑞𝑞 is the cost function.
Advanced Microeconomic Theory 107
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Cost Minimization
Advanced Microeconomic Theory 108
z1
z2
1
2
wslopew
= −
Cost minimization
Isoquant f(z)=q
{ }: ( , )z w z c w q⋅ = { }: ( , )z w z c w q⋅ >
( , )z w q
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Cost Minimization • Graphically,
– For a given isoquant 𝑓𝑓 𝑧𝑧 = 𝑞𝑞, choose the isocost line associated with the lowest cost 𝑤𝑤 ∙ 𝑧𝑧.
– The tangency point is 𝑧𝑧 𝑤𝑤, 𝑞𝑞 . – The isocost line associated with that combination of
inputs is 𝑧𝑧: 𝑤𝑤 ∙ 𝑧𝑧 = 𝑐𝑐 𝑤𝑤, 𝑞𝑞
where the cost function 𝑐𝑐 𝑤𝑤, 𝑞𝑞 represents the lowest cost of producing output level 𝑞𝑞 when input prices are 𝑤𝑤.
– Other isocost lines are associated with either: • output levels higher than 𝑞𝑞 (with costs exceeding 𝑐𝑐 𝑤𝑤, 𝑞𝑞 ),
or • output levels lower than 𝑞𝑞 (with costs below 𝑐𝑐 𝑤𝑤, 𝑞𝑞 ).
Advanced Microeconomic Theory 109
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Cost Minimization
• The Lagrangian of the CMP is ℒ 𝑧𝑧; 𝜆𝜆 = 𝑤𝑤𝑧𝑧 + 𝜆𝜆[𝑞𝑞 − 𝑓𝑓 𝑧𝑧 ]
• Differentiating with respect to 𝑧𝑧𝑘𝑘
𝑤𝑤𝑘𝑘 − 𝜆𝜆 𝜕𝜕𝑓𝑓(𝑧𝑧∗)𝜕𝜕𝑧𝑧𝑘𝑘
≥ 0
(= 0 if interior solution, 𝑧𝑧𝑘𝑘∗)
or in matrix notation 𝑤𝑤 − 𝜆𝜆𝛻𝛻𝑓𝑓(𝑧𝑧∗) ≥ 0
Advanced Microeconomic Theory 110
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Cost Minimization
• From the above FOCs,
𝑤𝑤𝑘𝑘𝜕𝜕𝑓𝑓(𝑧𝑧∗)
𝜕𝜕𝑧𝑧𝑘𝑘
= 𝜆𝜆 ⟹ 𝑤𝑤𝑘𝑘
𝑤𝑤𝑙𝑙=
𝜕𝜕𝑓𝑓 𝑧𝑧∗
𝜕𝜕𝑧𝑧𝑘𝑘𝜕𝜕𝑓𝑓 𝑧𝑧∗
𝜕𝜕𝑧𝑧𝑙𝑙
(= 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑘𝑘,𝑙𝑙(𝑧𝑧∗))
• Alternatively, 𝜕𝜕𝑓𝑓 𝑧𝑧∗
𝜕𝜕𝑧𝑧𝑘𝑘𝑤𝑤𝑘𝑘
=
𝜕𝜕𝑓𝑓 𝑧𝑧∗
𝜕𝜕𝑧𝑧𝑙𝑙𝑤𝑤𝑙𝑙
at the cost-minimizing input combination, the marginal product per dollar spent on input 𝑘𝑘 must be equal that of input 𝑙𝑙.
Advanced Microeconomic Theory 111
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z1
z2Cost-minimizing, z(w,q)
{ }: ( , )z w z c w q⋅ =z
Isoprofit line{ }ˆ ˆ: , where ( , )z w z c c c w q⋅ = >
Cost Minimization • Sufficiency: If the
production set is convex, then the FOCs are also sufficient.
• A non-convex production set: – The input combinations
satisfying the FOCs are NOT a cost-minimizing input combination 𝑧𝑧(𝑤𝑤, 𝑞𝑞).
– The cost-minimizing combination of inputs 𝑧𝑧(𝑤𝑤, 𝑞𝑞) occurs at the corner.
Advanced Microeconomic Theory 112
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Cost Minimization
• Lagrange multiplier: 𝜆𝜆 can be interpreted as the cost increase that the firm experiences when it needs to produce a higher level 𝑞𝑞. – Recall that, generally, the Lagrange multiplier
represents the variation in the objective function that we obtain if we relax the constraint (e.g., wealth in UMP, utility level we must reach in the EMP).
• Therefore, 𝜆𝜆 is the marginal cost of production: the marginal increase in the firm’s costs form producing additional units.
Advanced Microeconomic Theory 113
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Cost Minimization: SE and OE Effects
• Comparative statics of 𝑧𝑧(𝑤𝑤, 𝑞𝑞): Let us analyze the effects of an input price change. Consider two inputs, e.g., labor and capital. When the price of labor, 𝑤𝑤, falls, two effects occur: – Substitution effect: if output is held constant,
there will be a tendency for the firm to substitute 𝑙𝑙 for 𝑘𝑘.
– Output effect: a reduction in firm’s costs allows it to produce larger amounts of output (i.e., higher isoquant), which entails the use of more units of 𝑙𝑙 for 𝑘𝑘.
Advanced Microeconomic Theory 114
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Cost Minimization: SE and OE Effects
• Substitution effect: – 𝑧𝑧0(𝑤𝑤, 𝑞𝑞) solves CMP at
the initial prices. – ↓ in wages ⟹ isocost
line pivots outwards. – To reach 𝑞𝑞, push the
new isocost inwards in a parallel fashion.
– 𝑧𝑧1(𝑤𝑤, 𝑞𝑞) solves CMP at the new input prices (for output level 𝑞𝑞).
– At 𝑧𝑧1(𝑤𝑤, 𝑞𝑞), firm uses more 𝑙𝑙 and less 𝑘𝑘.
Advanced Microeconomic Theory 115
K
Lw∇ 1st step
2nd stepz0(w,q)
z1(w,q)f(z)=q, isoquant
Substitution effect
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Cost Minimization: SE and OE Effects
• Substitution effect (SE): – increase in labor
demand from 𝐿𝐿𝐴𝐴 to 𝐿𝐿𝐵𝐵. – same output as before
the input price change. • Output effect (OE):
– increase in labor demand from 𝐿𝐿𝐵𝐵 to 𝐿𝐿𝐶𝐶.
– output level increases, total cost is the same as before the input price change.
Advanced Microeconomic Theory 116
K
Lw∇ (1st step)
(2nd st
ep)
A
f(z)=q0, isoquant
BC3
rd step
KA
KBKC
LA LB LC
0
TCw 1
TCw
f(z)=q1, where q1>q0
SE OETE
TCr
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Cost Minimization: Own-Price Effect
• We have two concepts of demand for any input – the conditional demand for labor, 𝑙𝑙𝑐𝑐(𝑟𝑟, 𝑤𝑤, 𝑞𝑞) 𝑙𝑙𝑐𝑐(𝑟𝑟, 𝑤𝑤, 𝑞𝑞) solves the CMP
– the unconditional demand for labor, 𝑙𝑙(𝑝𝑝, 𝑟𝑟, 𝑤𝑤) 𝑙𝑙(𝑝𝑝, 𝑟𝑟, 𝑤𝑤) solves the PMP
• At the profit-maximizing level of output, i.e., 𝑞𝑞(𝑝𝑝, 𝑟𝑟, 𝑤𝑤), the two must coincide
𝑙𝑙 𝑝𝑝, 𝑟𝑟, 𝑤𝑤 = 𝑙𝑙𝑐𝑐 𝑟𝑟, 𝑤𝑤, 𝑞𝑞 = 𝑙𝑙𝑐𝑐(𝑟𝑟, 𝑤𝑤, 𝑞𝑞(𝑝𝑝, 𝑟𝑟, 𝑤𝑤)) Advanced Microeconomic Theory 117
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Cost Minimization: Own-Price Effect
• Differentiating with respect to 𝑤𝑤 yields
𝜕𝜕𝑙𝑙 𝑝𝑝, 𝑟𝑟, 𝑤𝑤𝜕𝜕𝑤𝑤
=𝜕𝜕𝑙𝑙𝑐𝑐 𝑟𝑟, 𝑤𝑤, 𝑞𝑞
𝜕𝜕𝑤𝑤𝑀𝑀𝑆𝑆 (−)
+𝜕𝜕𝑙𝑙𝑐𝑐(𝑟𝑟, 𝑤𝑤, 𝑞𝑞)
𝜕𝜕𝑞𝑞
(+)
∙𝜕𝜕𝑞𝑞𝜕𝜕𝑤𝑤
�(−)
𝑂𝑂𝑆𝑆 (−)𝑀𝑀𝑆𝑆 (−)
Advanced Microeconomic Theory 118
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Cost Minimization: Own-Price Effect
• Since 𝑀𝑀𝑇𝑇 > 𝑀𝑀𝑇𝑇, the unconditional labor demand is flatter than the conditional labor demand.
• Both 𝑀𝑀𝑇𝑇 and 𝑂𝑂𝑇𝑇 are negative. – Giffen paradox from
consumer theory cannot arise in production theory.
Advanced Microeconomic Theory 119
w
z
A
B C
SE OETE
lc(v,w,q1) lc(v,w,q2)
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Cost Minimization: Cross-Price Effect
• No definite statement can be made about cross-price (CP) effects. – A fall in the wage will lead the firm to substitute away
from capital. – The output effect will cause more capital to be
demanded as the firm expands production.
𝜕𝜕𝑘𝑘 𝑝𝑝, 𝑟𝑟, 𝑤𝑤𝜕𝜕𝑤𝑤
𝐶𝐶𝑀𝑀 𝑀𝑀𝑆𝑆 + or (−)
=𝜕𝜕𝑘𝑘𝑐𝑐 𝑟𝑟, 𝑤𝑤, 𝑞𝑞
𝜕𝜕𝑤𝑤𝐶𝐶𝑀𝑀 𝑀𝑀𝑆𝑆 (+)
+𝜕𝜕𝑘𝑘𝑐𝑐(𝑟𝑟, 𝑤𝑤, 𝑞𝑞)
𝜕𝜕𝑞𝑞
(+)
∙𝜕𝜕𝑞𝑞𝜕𝜕𝑤𝑤
�(−)
𝐶𝐶𝑀𝑀 𝑂𝑂𝑆𝑆 (−)
Advanced Microeconomic Theory 120
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Cost Minimization: Cross-Price Effect
• The + cross-price OE completely offsets the − cross-price SE, leading to a positive cross-price TE.
Advanced Microeconomic Theory 121
w
K
w∇
A
B C
SEOE
TE
w
w1
1( , , )ck r w q 2( , , )ck r w q
( , , )k p r w
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Cost Minimization: Cross-Price Effect
• The + cross-price OE only partially offsets the − cross-price SE, leading to a negative cross-price TE.
Advanced Microeconomic Theory 122
w
K
w∇
A
BC
SEOE
TE
w
w1
1( , , )ck r w q
2( , , )ck r w q
( , , )k p r w
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Properties of Cost Function
• Assume that the production set 𝑌𝑌 is closed and satisfies the free disposal property. 1) 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is Homog(1) in 𝑤𝑤 That is, increasing all input prices by a common
factor 𝜆𝜆 yields a proportional increase in the minimal costs of production:
𝑐𝑐 𝜆𝜆𝑤𝑤, 𝑞𝑞 = 𝜆𝜆𝑐𝑐(𝑤𝑤, 𝑞𝑞)
since 𝑐𝑐(𝑤𝑤, 𝑞𝑞) represents the minimal cost of producing a given output 𝑞𝑞 at input prices 𝑤𝑤.
Advanced Microeconomic Theory 123
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Properties of Cost Function
An increase in all input prices (w1, w2) by the same proportion λ produces a parallel downward shift in the firm's isocost line.
Advanced Microeconomic Theory 124
z1
z2
f(z)=q
( , )z w q
2 2
( , ) ( , )c w q c w qw w
λλ
=
1 1
( , ) ( , )c w q c w qw w
λλ
=1
( , )c w qwλ
2
( , )c w qwλ
2w∆
1w∆
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z1
z2
f(z)=q1
1( , )z w q
f(z)=q0
0( , )z w q
1
1
( , )c w qw
0
1
( , )c w qw
0
2
( , )c w qw
1
2
( , )c w qw
Properties of Cost Function
Producing higher output levels implies a weakly higher minimal cost of production
If 𝑞𝑞1 > 𝑞𝑞0, then it must be
𝑐𝑐(𝑤𝑤, 𝑞𝑞1) > 𝑐𝑐(𝑤𝑤, 𝑞𝑞0)
Advanced Microeconomic Theory 125
2) 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is non-decreasing in 𝑞𝑞.
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Properties of Cost Function
3) If the set 𝑧𝑧 ≥ 0: 𝑓𝑓(𝑧𝑧) ≥ 𝑞𝑞 is convex for every 𝑞𝑞, then the production set can be described as
𝑌𝑌 = −𝑧𝑧, 𝑞𝑞 : 𝑤𝑤 ∙ 𝑧𝑧 ≥ 𝑐𝑐 𝑤𝑤, 𝑞𝑞 for every 𝑤𝑤 ≫ 0
Advanced Microeconomic Theory 126
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Properties of Cost Function Take 𝑓𝑓 𝑧𝑧 = 𝑞𝑞. For input prices
𝑤𝑤 = (𝑤𝑤1, 𝑤𝑤2), find 𝑐𝑐(𝑤𝑤, 𝑞𝑞) by solving CMP.
For input prices 𝑤𝑤′ = (𝑤𝑤1
′ , 𝑤𝑤2′ ), find
𝑐𝑐(𝑤𝑤′, 𝑞𝑞) by solving CMP. The intersection of “more
costly” input combinations 𝑤𝑤 ∙ 𝑧𝑧 ≥𝑐𝑐 𝑤𝑤, 𝑞𝑞 , for every input prices 𝑤𝑤 ≫ 0, describes set 𝑓𝑓 𝑧𝑧 ≥ 𝑞𝑞.
Advanced Microeconomic Theory 127
z1
z2
1
2
wslopew−
=
f(z)=q0
z(w,q)
z(w’,q)
1
2
''
wslopew−
=
{ }: ( , )z w z c w q⋅ =
{ }: ' ( ', )z w z c w q⋅ =
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Properties of Conditional Factor Demand Correspondence
That is, increasing input prices by the same factor 𝜆𝜆 does not alter the firm’s demand for inputs at all,
𝑧𝑧 𝜆𝜆𝑤𝑤, 𝑞𝑞 = 𝑧𝑧(𝑤𝑤, 𝑞𝑞)
Advanced Microeconomic Theory 128
z1
z2
z(w,q)=(z1(w,q),z2(w,q))
Isoquant f(z)=q
{ }0 : ( )z f z q≥ ≥
Isocost curve
1
( , )c w qw1
( , )c w qwλ
2
( , )c w qwλ
2
( , )c w qw
1) 𝑧𝑧(𝑤𝑤, 𝑞𝑞) is Homog(0) in 𝑤𝑤.
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Properties of Conditional Factor Demand Correspondence
2) If the set 𝑧𝑧 ≥ 0: 𝑓𝑓(𝑧𝑧) ≥ 𝑞𝑞 is
strictly convex, then the firm's demand correspondence 𝑧𝑧(𝑤𝑤, 𝑞𝑞) is single valued.
Advanced Microeconomic Theory 129
z1
z2
Unique z(w,q)
Isoquant f(z)=q
{ }0 : ( )z f z q≥ ≥
Isocost curve
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Properties of Conditional Factor Demand Correspondence
2) (continued) If the set
𝑧𝑧 ≥ 0: 𝑓𝑓(𝑧𝑧) ≥ 𝑞𝑞 is weakly convex, then the demand correspondence 𝑧𝑧(𝑤𝑤, 𝑞𝑞) is not a single-valued, but a convex set.
Advanced Microeconomic Theory 130
z1
z2
Set of z(w,q)
Isoquant f(z)=q
{ }0 : ( )z f z q≥ ≥
Isocost curve
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Properties of Conditional Factor Demand Correspondence
3) Shepard’s lemma: If 𝑧𝑧(𝑤𝑤� ,𝑞𝑞) consists of a single point, then 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is differentiable with respect to 𝑤𝑤 at, 𝑤𝑤� , and
𝛻𝛻𝑤𝑤𝑐𝑐 𝑤𝑤� ,𝑞𝑞 = 𝑧𝑧(𝑤𝑤� ,𝑞𝑞)
Advanced Microeconomic Theory 131
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Properties of Conditional Factor Demand Correspondence
4) If 𝑧𝑧(𝑤𝑤, 𝑞𝑞) is differentiable at 𝑤𝑤� , then 𝐷𝐷𝑤𝑤
2 𝑐𝑐 𝑤𝑤� , 𝑞𝑞 = 𝐷𝐷𝑤𝑤𝑧𝑧 𝑤𝑤� , 𝑞𝑞 is a symmetric and negative semidefinite matrix, with 𝐷𝐷𝑤𝑤𝑧𝑧 𝑤𝑤� , 𝑞𝑞 ∙ 𝑤𝑤� = 0. 𝐷𝐷𝑤𝑤𝑧𝑧 𝑤𝑤� , 𝑞𝑞 is a matrix representing how the
firm’s demand for every unit responds to changes in the price of such input, or in the price of the other inputs.
Advanced Microeconomic Theory 132
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Properties of Conditional Factor Demand Correspondence
4) (continued) Own substitution effects are non-positive,
𝜕𝜕𝑧𝑧𝑘𝑘(𝑤𝑤,𝑞𝑞)𝜕𝜕𝑤𝑤𝑘𝑘
≤ 0 for every input 𝑘𝑘
i.e., if the price of input 𝑘𝑘 increases, the firm’s factor demand for this input decreases.
Cross substitution effects are symmetric, 𝜕𝜕𝑧𝑧𝑘𝑘(𝑤𝑤,𝑞𝑞)
𝜕𝜕𝑤𝑤𝑙𝑙= 𝜕𝜕𝑧𝑧𝑙𝑙(𝑤𝑤,𝑞𝑞)
𝜕𝜕𝑤𝑤𝑘𝑘 for all inputs 𝑘𝑘 and 𝑙𝑙
Advanced Microeconomic Theory 133
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Properties of Production Function
1) If 𝑓𝑓(𝑧𝑧) is Homog(1) (i.e., if 𝑓𝑓(𝑧𝑧) exhibits constant returns to scale), then 𝑐𝑐(𝑤𝑤, 𝑞𝑞) and 𝑧𝑧(𝑤𝑤, 𝑞𝑞) are Homog(1) in 𝑞𝑞. Intuitively, if 𝑓𝑓(𝑧𝑧) exhibits CRS, then an
increase in the output level we seek to reach induces an increase of the same proportion in the cost function and in the demand for inputs. That is,
𝑐𝑐 𝑤𝑤, 𝜆𝜆𝑞𝑞 = 𝜆𝜆𝑐𝑐(𝑤𝑤, 𝑞𝑞) and
𝑧𝑧 𝑤𝑤, 𝜆𝜆𝑞𝑞 = 𝜆𝜆𝑧𝑧(𝑤𝑤, 𝑞𝑞) Advanced Microeconomic Theory 134
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Properties of Production Function
𝜆𝜆 = 2 implies that demand for inputs doubles 𝑧𝑧 𝑤𝑤, 2𝑞𝑞 = 2𝑧𝑧(𝑤𝑤, 𝑞𝑞)
and that minimal costs also double
𝑐𝑐 𝑤𝑤, 2𝑞𝑞 = 2𝑐𝑐 𝑤𝑤, 𝑞𝑞
Advanced Microeconomic Theory 135
z1
z2
q=10units
q'=20unitsz(w,q)
z(w,q’)=2z(w,q)
1
2
1 2λ=2
λ=2
c(w,q)c(w,q')=2c(w,q)
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Properties of Production Function
2) If 𝑓𝑓(𝑧𝑧) is concave, then 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is convex function of 𝑞𝑞 (i.e., marginal costs are non-decreasing in 𝑞𝑞). More compactly,
𝜕𝜕2𝑐𝑐(𝑤𝑤, 𝑞𝑞)𝜕𝜕𝑞𝑞2 ≥ 0
or, in other words, marginal costs 𝜕𝜕𝑐𝑐(𝑤𝑤,𝑞𝑞)𝜕𝜕𝑞𝑞
are weakly increasing in 𝑞𝑞.
Advanced Microeconomic Theory 136
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Properties of Production Function
2) (continued) Firm uses more inputs
when raising output from 𝑞𝑞2 to 𝑞𝑞3 than from 𝑞𝑞1 to 𝑞𝑞2.
Hence, 𝑐𝑐(𝑤𝑤, 𝑞𝑞3) − 𝑐𝑐(𝑤𝑤, 𝑞𝑞2) >
𝑐𝑐(𝑤𝑤, 𝑞𝑞2) − 𝑐𝑐(𝑤𝑤, 𝑞𝑞1) This reflects the
convexity of the cost function 𝑐𝑐(𝑤𝑤, 𝑞𝑞) with respect to 𝑞𝑞.
Advanced Microeconomic Theory 137
z1
z2
q1=10units
q2=20unitsz(w,q1)
c(w,q1) c(w,q2)
z(w,q2)
z(w,q3)
11z
21z
31z
32z
22z
12z
c(w,q3)
q3=30units
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Alternative Representation of PMP
Advanced Microeconomic Theory 138
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Alternative Representation of PMP
• Using the cost function 𝑐𝑐(𝑤𝑤, 𝑞𝑞), we write the PMP as follows
max𝑞𝑞≥0
𝑝𝑝𝑞𝑞 − 𝑐𝑐(𝑤𝑤, 𝑞𝑞)
This is useful if we have information about the cost function, but we don’t about the production function 𝑞𝑞 = 𝑓𝑓 𝑧𝑧 .
Advanced Microeconomic Theory 139
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Alternative Representation of PMP
• Let us now solve this alternative PMP max𝑞𝑞≥0
𝑝𝑝𝑞𝑞 − 𝑐𝑐(𝑤𝑤, 𝑞𝑞)
• FOCs for 𝑞𝑞∗ to be profit maximizing are
𝑝𝑝 −𝜕𝜕𝑐𝑐(𝑤𝑤, 𝑞𝑞∗)
𝜕𝜕𝑞𝑞≤ 0
and in interior solutions
𝑝𝑝 −𝜕𝜕𝑐𝑐 𝑤𝑤, 𝑞𝑞∗
𝜕𝜕𝑞𝑞= 0
• That is, at the interior optimum 𝑞𝑞∗, price equals marginal cost, 𝜕𝜕𝑐𝑐 𝑤𝑤,𝑞𝑞∗
𝜕𝜕𝑞𝑞.
Advanced Microeconomic Theory 140
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L
K
q0
q1
c(w,q0) c(w,q1)0cl 1
cl
2ck
1ck
0ck
c(w,q2)
q2
2cl
Expansion path
Firm’s Expansion Path
• The curve shows how inputs increase as output increases.
• Expansion path is positively sloped.
• Both 𝑘𝑘 and 𝑙𝑙 are normal goods, i.e.,
𝜕𝜕𝑘𝑘𝑐𝑐(𝑤𝑤,𝑞𝑞)𝜕𝜕𝑞𝑞
≥ 0, 𝜕𝜕𝑙𝑙𝑐𝑐(𝑤𝑤,𝑞𝑞)𝜕𝜕𝑞𝑞
≥ 0
Advanced Microeconomic Theory 141
• The expansion path is the locus of cost-minimizing tangencies. (Analogous to the wealth expansion path in consumer theory)
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Firm’s Expansion Path
• If the firm’s expansion path is a straight line: – All inputs must increase at a constant proportion as
firm increases its output. – The firm’s production function exhibits constant
returns to scale and it is, hence, homothetic. – If the expansion path is straight and coincides with the
45-degree line, then the firm increases all inputs by the same proportion as output increases.
• The expansion path does not have to be a straight line. – The use of some inputs may increase faster than
others as output expands • Depends on the shape of the isoquants.
Advanced Microeconomic Theory 142
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Firm’s Expansion Path
• The expansion path does not have to be upward sloping. – If the use of an input falls
as output expands, that input is an inferior input.
• 𝑘𝑘 is normal 𝜕𝜕𝑘𝑘𝑐𝑐(𝑤𝑤, 𝑞𝑞)
𝜕𝜕𝑞𝑞≥ 0
but 𝑙𝑙 is inferior (at higher levels of output)
𝜕𝜕𝑙𝑙𝑐𝑐(𝑤𝑤, 𝑞𝑞)𝜕𝜕𝑞𝑞
< 0
Advanced Microeconomic Theory 143
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Firm’s Expansion Path
• Are there inferior inputs out there? – We can identify inferior inputs if the list of inputs used
by the firms is relatively disaggregated. – For instance, we can identify following categories:
CEOs, executives, managers, accountants, secretaries, janitors, etc.
– These inputs do not increase at a constant rate as the firm increases output (i.e., expansion path would not be a straight line for all increases in 𝑞𝑞).
– After reaching a certain scale, the firm might buy a powerful computer with which accounting can be done using fewer accountants.
Advanced Microeconomic Theory 144
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Cost and Supply: Single Output
• Let us assume a given vector of input prices 𝑤𝑤� ≫ 0. Then, 𝑐𝑐(𝑤𝑤� , 𝑞𝑞) can be reduced to 𝐶𝐶(𝑞𝑞). Then, average and marginal costs are
𝐴𝐴𝐶𝐶 𝑞𝑞 = 𝐶𝐶(𝑞𝑞)𝑞𝑞
and 𝑀𝑀𝐶𝐶 = 𝐶𝐶′ 𝑞𝑞 = 𝜕𝜕𝐶𝐶(𝑞𝑞)𝜕𝜕𝑞𝑞
• Hence, the FOCs of the PMP can be expressed as
𝑝𝑝 ≤ 𝐶𝐶′ 𝑞𝑞 , and in interior solutions 𝑝𝑝 = 𝐶𝐶′ 𝑞𝑞
i.e., all output combinations such that 𝑝𝑝 = 𝐶𝐶′ 𝑞𝑞 are the (optimal) supply correspondence of the firm 𝑞𝑞 𝑝𝑝 .
Advanced Microeconomic Theory 145
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Cost and Supply: Single Output
• We showed that the cost function 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is homogenous of degree 1 in input prices, 𝑤𝑤. – Can we extend this property to the AC and MC?
Yes! – For average cost function,
𝐴𝐴𝐶𝐶 𝑡𝑡𝑤𝑤, 𝑞𝑞 =𝐶𝐶(𝑡𝑡𝑤𝑤, 𝑞𝑞)
𝑞𝑞=
𝑡𝑡 ∙ 𝐶𝐶(𝑤𝑤, 𝑞𝑞)𝑞𝑞
= 𝑡𝑡 ∙ 𝐴𝐴𝐶𝐶 𝑡𝑡𝑤𝑤, 𝑞𝑞
Advanced Microeconomic Theory 146
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Cost and Supply: Single Output
– For marginal cost function,
𝑀𝑀𝐶𝐶 𝑡𝑡𝑤𝑤, 𝑞𝑞 =𝜕𝜕𝐶𝐶(𝑡𝑡𝑤𝑤, 𝑞𝑞)
𝜕𝜕𝑞𝑞=
𝑡𝑡 ∙ 𝜕𝜕𝐶𝐶(𝑤𝑤, 𝑞𝑞)𝜕𝜕𝑞𝑞
= 𝑡𝑡 ∙ 𝑀𝑀𝐶𝐶 𝑡𝑡𝑤𝑤, 𝑞𝑞 – Isn’t this result violating Euler’s theorem? No! The above result states that 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is homog(1) in
inputs prices, and that 𝑀𝑀𝐶𝐶 𝑤𝑤, 𝑞𝑞 = 𝜕𝜕𝐶𝐶(𝑤𝑤,𝑞𝑞)𝜕𝜕𝑞𝑞
is also homog(1) in input prices. Euler’s theorem would say that: If 𝑐𝑐(𝑤𝑤, 𝑞𝑞) is
homog(1) in inputs prices, then its derivate with respect to input prices, 𝜕𝜕𝐶𝐶(𝑤𝑤,𝑞𝑞)
𝜕𝜕𝑤𝑤, must be homog(0).
Advanced Microeconomic Theory 147
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TC
Total cost
c
output
Graphical Analysis of Total Cost
• With constant returns to scale, total costs are proportional to output.
𝑀𝑀𝐶𝐶(𝑞𝑞) = 𝑐𝑐 ∙ 𝑞𝑞 • Hence,
𝐴𝐴𝐶𝐶(𝑞𝑞) =𝑀𝑀𝐶𝐶(𝑞𝑞)
𝑞𝑞= 𝑐𝑐
𝑀𝑀𝐶𝐶(𝑞𝑞) =𝜕𝜕𝑀𝑀𝐶𝐶(𝑞𝑞)
𝜕𝜕𝑞𝑞= 𝑐𝑐
⟹ 𝐴𝐴𝐶𝐶(𝑞𝑞) = 𝑀𝑀𝐶𝐶(𝑞𝑞) Advanced Microeconomic Theory 148
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Cost and Supply: Single Output
• Suppose that TC starts out as concave and then becomes convex as output increases. – TC no longer exhibits constant returns to scale. – One possible explanation for this is that there is a
third factor of production that is fixed as capital and labor usage expands (e.g., entrepreneurial skills).
– TC begins rising rapidly after diminishing returns set in.
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TCTC(q)
B
q
A
C
0 50
$1,500
ACMC
q0 50
A’
A’’$10
$30
MC(q)
AC(q)
Cost and Supply: Single Output
• TC initially grows very rapidly, then becomes relatively flat, and for high production levels increases rapidly again.
• MC is the slope of the TC curve.
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Cost and Supply: Single Output
Advanced Microeconomic Theory 151
ACMC
q
MC(Q)
AC(Q)
min AC
TC becomes flatter
TC becomes steeper
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Cost and Supply: Single Output
Advanced Microeconomic Theory 152
• Remark 1: AC=MC at 𝑞𝑞 = 0. – Note that we cannot compute
𝐴𝐴𝐶𝐶 0 =𝑀𝑀𝐶𝐶 0
0=
00
– We can still apply l’Hopital’s rule
lim𝑞𝑞→0
𝐴𝐴𝐶𝐶(𝑞𝑞) = lim𝑞𝑞→0
𝑀𝑀𝐶𝐶(𝑞𝑞)𝑞𝑞
= lim𝑞𝑞→0
𝜕𝜕𝑀𝑀𝐶𝐶(𝑞𝑞)𝜕𝜕𝑞𝑞𝜕𝜕𝑞𝑞𝜕𝜕𝑞𝑞
= lim𝑞𝑞→0
𝑀𝑀𝐶𝐶(𝑞𝑞)
– Hence, AC=MC at 𝑞𝑞 = 0, i.e., AC(0)=MC(0).
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Cost and Supply: Single Output
• Remark 2: When MC<AC, the AC curve decreases, and when MC>AC, the AC curve increases. – Intuition: using example of grades – If the new exam score raises your average grade, it
must be that such new grade is better than your average grade thus far.
– If, in contrast, the new exam score lowers your average grade, it must be that such new grade is than your average grade thus far.
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Cost and Supply: Single Output
• Remark 3: AC and MC curves cross (AC=MC) at exactly the minimum of the AC curve. – Let us first find the minimum of the AC curve
𝜕𝜕𝐴𝐴𝐶𝐶(𝑞𝑞)𝜕𝜕𝑞𝑞
=𝜕𝜕 𝑀𝑀𝐶𝐶(𝑞𝑞)
𝑞𝑞𝜕𝜕𝑞𝑞
=𝑞𝑞 𝜕𝜕𝑀𝑀𝐶𝐶(𝑞𝑞)
𝜕𝜕𝑞𝑞 − 𝑀𝑀𝐶𝐶(𝑞𝑞) ∙ 1
𝑞𝑞2
=𝑞𝑞 ∙ 𝑀𝑀𝐶𝐶(𝑞𝑞) − 𝑀𝑀𝐶𝐶(𝑞𝑞)
𝑞𝑞2 = 0
– The output that minimizes AC must satisfy
𝑞𝑞 ∙ 𝑀𝑀𝐶𝐶 𝑞𝑞 − 𝑀𝑀𝐶𝐶 𝑞𝑞 = 0 ⟹ 𝑀𝑀𝐶𝐶 𝑞𝑞 =𝑀𝑀𝐶𝐶 𝑞𝑞
𝑞𝑞← 𝐴𝐴𝐶𝐶 𝑞𝑞
– Hence, 𝑀𝑀𝐶𝐶 = 𝐴𝐴𝐶𝐶 at the minimum of 𝐴𝐴𝐶𝐶. Advanced Microeconomic Theory 154
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q
-z q
Y
(a) (b) (c)
ˆ( )slope AC q=
ˆ'( )slope C q=
C(q)
q
p
C’(q)
AC(q)
q
Heavy trace is supply
locus q(p)q
z
Cost and Supply: Single Output
• Decreasing returns to scale: – an increase in the use of inputs produces a less-than-
proportional increase in output. production set is strictly convex TC function is convex MC and AC are increasing
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q
-z q
Y
(a) (b) (c)
C(q)
q
p
AC(q) = C’(q)
q(p)
No sales for p < MC(q)
Cost and Supply: Single Output
• Constant returns to scale: – an increase in input usage produces a proportional
increase in output. production set is weakly convex linear TC function constant AC and MC functions
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q
-z q
Y
(a) (b) (c)
C(q)
q
p
q(p)
C’(q)AC(q)
Cost and Supply: Single Output
• Increasing returns to scale: – an increase in input usage can lead to a more-than-
proportional increase in output. production set is non-convex TC curve first increases, then becomes almost flat, and then
increases rapidly again as output is increased further.
Advanced Microeconomic Theory 157
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Cost and Supply: Single Output
• Let us analyze the presence of non-convexities in the production set 𝑌𝑌 arising from: – Fixed set-up costs, 𝐾𝐾, that are non-sunk
𝐶𝐶 𝑞𝑞 = 𝐾𝐾 + 𝐶𝐶𝑣𝑣 𝑞𝑞
where 𝐶𝐶𝑣𝑣(𝑞𝑞) denotes variable costs • with strictly convex variable costs • with linear variable costs
– Fixed set-up costs that are sunk • Cost function is convex, and hence FOCs are sufficient
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Cost and Supply: Single Output
• CRS technology and fixed (non-sunk) costs: – If 𝑞𝑞 = 0, then 𝐶𝐶 𝑞𝑞 = 0, i.e., firm can recover 𝐾𝐾 if it
shuts down its operation. – MC is constant: 𝑀𝑀𝐶𝐶 = 𝐶𝐶′ 𝑞𝑞 = 𝐶𝐶𝑣𝑣
′ 𝑞𝑞 = 𝑐𝑐
– AC lies above MC: 𝐴𝐴𝐶𝐶 𝑞𝑞 = 𝐶𝐶(𝑞𝑞)𝑞𝑞
= 𝐾𝐾𝑞𝑞
+ 𝐶𝐶𝑣𝑣 𝑞𝑞𝑞𝑞
= 𝐾𝐾𝑞𝑞
+ 𝑐𝑐
Advanced Microeconomic Theory 159
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q
-z q
Y
(a) (b) (c)
C(q)
q
pCv(q)=C’(q)
AC(q)
q
( )AC q
q(q)
q
Cost and Supply: Single Output • DRS technology and fixed (non-sunk) costs:
– MC is positive and increasing in 𝑞𝑞, and hence the slope of the TC curve increases in 𝑞𝑞.
– in the decreasing portion of the AC curve, FC is spread over larger 𝑞𝑞.
– in the increasing portion of the AC curve, larger average VC offsets the lower average FC and, hence, total average cost increases.
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q
-z q
Y
(a) (b) (c)
C(q)
q
pC’(q)
AC(q)q(p)
K
Cost and Supply: Single Output
• DRS technology and sunk costs: – TC curve originates at 𝐾𝐾, given that the firm must
incur fixed sunk cost 𝐾𝐾 even if it chooses 𝑞𝑞 = 0. – supply locus considers the entire MC curve and not
only 𝑞𝑞 for which MC>AC.
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Short-Run Total Cost
• In the short run, the firm generally incurs higher costs than in the long run – The firm does not have the flexibility of input
choice (fixed inputs). – To vary its output in the short-run, the firm must
use non-optimal input combinations – The 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀 will not be equal to the ratio of input
prices.
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Short-Run vs Long-Run Total Cost
• In the short-run – capital is fixed at 𝐾𝐾� – the firm cannot
equate 𝑀𝑀𝑀𝑀𝑀𝑀𝑀𝑀 with the ratio of input prices.
• In the long-run – Firm can choose
input vector 𝐴𝐴, which is a cost-minimizing input combination.
Advanced Microeconomic Theory 163
A
F
K
L
C(w,Q0)
C(w,Q0)
r
w
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Short-Run vs Long-Run Total Cost
• 𝑞𝑞 = 1 million units – Firm chooses (𝑘𝑘1, 𝑙𝑙1)
both in the long run and in the short run when 𝑘𝑘 = 𝑘𝑘1.
• 𝑞𝑞 = 2 million units – Short-run (point B): 𝑘𝑘 = 𝑘𝑘1 does not allow
the firm to minimize costs.
– Long-run (point C): firm can choose cost-
minimizing input combination.
Advanced Microeconomic Theory 164
A B
K
L
C
Expansion path
Q=2
Q=10
K1
K2
L1 L2 L2
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Short-Run vs Long-Run Total Cost
• The difference between long-run, 𝑀𝑀𝐶𝐶(𝑞𝑞), and short-run, 𝑀𝑀𝑀𝑀𝐶𝐶(𝑞𝑞), total costs when capital is fixed at 𝑘𝑘 = 𝑘𝑘1.
Advanced Microeconomic Theory 165
TC
Q0
rK1
A
B
C
1 million 2 million
TC(q)
STC(Q) when k=k1
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Short-Run vs Long-Run Total Cost
• The long-run total cost curve 𝑀𝑀𝐶𝐶(𝑞𝑞) can be derived by varying the level of 𝑘𝑘.
• Short-run total cost curve 𝑀𝑀𝑀𝑀𝐶𝐶(𝑞𝑞) lies above long-run total cost 𝑀𝑀𝐶𝐶(𝑞𝑞).
Advanced Microeconomic Theory 166
TC
q0q 1q 2q
STC(q) where k=k0 STC(q) where k=k1
STC(q) where k=k2
TC(q)
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Short-Run vs Long-Run Total Cost
• Summary: – In the long run, the firm can modify the values of
all inputs. – In the short run, in contrast, the firm can only
modify some inputs (e.g., labor, but not capital).
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Short-Run vs Long-Run Total Cost
• Example: Short- and long-run curves – In the long run,
𝐶𝐶 𝑞𝑞 = 𝑤𝑤�1𝑧𝑧1 + 𝑤𝑤�2𝑧𝑧2 where both input 1 and 2 are variable.
– In the short run, input 2 is fixed at 𝑧𝑧2, and thus 𝐶𝐶 𝑞𝑞|𝑧𝑧2 = 𝑤𝑤�1𝑧𝑧1 + 𝑤𝑤�2𝑧𝑧2
• This implies that the only input that the firm can modify is input 1.
• The firm chooses 𝑧𝑧1 such that production reaches output level 𝑞𝑞, i.e., 𝑓𝑓(𝑧𝑧1, 𝑧𝑧2) = 𝑞𝑞.
Advanced Microeconomic Theory 168
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Short-Run vs Long-Run Total Cost
• Example (continued): – When the demand for input 2 is at its long-run
value, i.e., 𝑧𝑧2(𝑤𝑤, 𝑞𝑞), then
𝐶𝐶 𝑞𝑞 = 𝐶𝐶(𝑞𝑞|𝑧𝑧2(𝑤𝑤, 𝑞𝑞)) for every 𝑞𝑞 and also
𝐶𝐶′ 𝑞𝑞 = 𝐶𝐶′(𝑞𝑞|𝑧𝑧2(𝑤𝑤, 𝑞𝑞)) for every 𝑞𝑞 i.e., values and slopes of long- and short-run cost functions coincide.
– Long- and short-run curves are tangent at 𝑧𝑧2(𝑤𝑤, 𝑞𝑞).
Advanced Microeconomic Theory 169
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Short-Run vs Long-Run Total Cost
• Example (continued): – Since
𝐶𝐶(𝑞𝑞) ≤ 𝐶𝐶(𝑞𝑞|𝑧𝑧2) for any given 𝑧𝑧2,
then the long-run cost curve 𝐶𝐶 𝑞𝑞 is the lower envelope of the short-run cost curves, 𝐶𝐶(𝑞𝑞|𝑧𝑧2).
Advanced Microeconomic Theory 170
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Aggregation in Production
Advanced Microeconomic Theory 171
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Aggregation in Production
• Let us analyze under which conditions the “law of supply” holds at the aggregate level.
• An aggregate production function maps aggregate inputs into aggregate outputs – In other words, it describes the maximum level of
output that can be obtained if the inputs are efficiently used in the production process.
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Aggregation in Production
• Consider 𝐽𝐽 firms, with production sets 𝑌𝑌1, 𝑌𝑌2, … , 𝑌𝑌𝐽𝐽. • Each 𝑌𝑌𝑗𝑗 is non-empty, closed, and satisfies the free
disposal property. • Assume also that every supply correspondence 𝑦𝑦𝑗𝑗(𝑝𝑝) is
single valued, and differentiable in prices, 𝑝𝑝 ≫ 0. • Define the aggregate supply correspondence as the
sum of the individual supply correspondences
𝑦𝑦 𝑝𝑝 = � 𝑦𝑦𝑗𝑗 𝑝𝑝𝐽𝐽
𝑗𝑗=1 = 𝑦𝑦 ∈ ℝ𝐿𝐿: 𝑦𝑦 = � 𝑦𝑦𝑗𝑗 𝑝𝑝
𝐽𝐽
𝑗𝑗=1
where 𝑦𝑦𝑗𝑗 ∈ 𝑦𝑦𝑗𝑗(𝑝𝑝) for 𝑗𝑗 = 1,2, … , 𝐽𝐽. Advanced Microeconomic Theory 173
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Aggregation in Production
• The law of supply is satisfied at the aggregate level.
• Two ways to check it: 1) Using the derivative of every firm’s supply
correspondence with respect to prices, 𝐷𝐷𝑝𝑝𝑦𝑦𝑗𝑗 𝑝𝑝 . – 𝐷𝐷𝑝𝑝𝑦𝑦𝑗𝑗 𝑝𝑝 is a symmetric positive semidefinite
matrix, for every firm 𝑗𝑗. – Since this property is preserved under
addition, then 𝐷𝐷𝑝𝑝𝑦𝑦 𝑝𝑝 must also define a symmetric positive semidefinite matrix.
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Aggregation in Production
2) Using a revealed preference argument. – For every firm 𝑗𝑗,
𝑝𝑝 − 𝑝𝑝′ ∙ 𝑦𝑦𝑗𝑗 𝑝𝑝 − 𝑦𝑦𝑗𝑗 𝑝𝑝′ ≥ 0
– Adding over 𝑗𝑗, 𝑝𝑝 − 𝑝𝑝′ ∙ 𝑦𝑦 𝑝𝑝 − 𝑦𝑦 𝑝𝑝′ ≥ 0
– This implies that market prices and aggregate supply move in the same direction the law of supply holds at the aggregate level!
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Aggregation in Production
• Is there a “representative producer”? – Let 𝑌𝑌 be the aggregate production set,
𝑌𝑌 = 𝑌𝑌1 + 𝑌𝑌2+. . . +𝑌𝑌𝑗𝑗 = 𝑦𝑦 ∈ ℝ𝐿𝐿: 𝑦𝑦 = � 𝑦𝑦𝑗𝑗
𝐽𝐽
𝑗𝑗=1
for some 𝑦𝑦𝑗𝑗 ∈ 𝑌𝑌𝑗𝑗 and 𝑗𝑗 = 1,2, … , 𝐽𝐽. – Note that 𝑦𝑦 = ∑ 𝑦𝑦𝑗𝑗
𝐽𝐽𝑗𝑗=1 , where every 𝑦𝑦𝑗𝑗 is just a
feasible production plan of firm 𝑗𝑗, but not necessarily firm 𝑗𝑗’s supply correspondence 𝑦𝑦𝑗𝑗(𝑝𝑝).
– Let 𝜋𝜋∗(𝑝𝑝) be the profit function for the aggregate production set 𝑌𝑌.
– Let 𝑦𝑦∗(𝑝𝑝) be the supply correspondence for the aggregate production set 𝑌𝑌.
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Aggregation in Production
• Is there a “representative producer”? – Then, there exists a representative producer:
• Producing an aggregate supply 𝑦𝑦∗(𝑝𝑝) that exactly coincides with the sum ∑ 𝑦𝑦𝑗𝑗
𝐽𝐽𝑗𝑗=1 𝑝𝑝 ; and
• Obtaining aggregate profits 𝜋𝜋∗(𝑝𝑝) that exactly coincide with the sum ∑ 𝜋𝜋𝑗𝑗
𝐽𝐽𝑗𝑗=1 (𝑝𝑝).
– Intuition: The aggregate profit obtained by each firm maximizing its profits separately (taking prices as given) is the same as that which would be obtained if all firms were to coordinate their actions (i.e., 𝑦𝑦𝑗𝑗’s) in a joint PMP.
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Aggregation in Production
• Is there a “representative producer”? – It is a “decentralization” result: to find the solution
of the joint PMP for given prices 𝑝𝑝, it is enough to “let each individual firm maximize its own profits” and add the solutions of their individual PMPs.
– Key: price taking assumption • This result does not hold if firms have market power. • Example: oligopoly markets where firms compete in
quantities (a la Cournot).
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Aggregation in Production • Firm 1 chooses 𝑦𝑦1 given 𝑝𝑝
and 𝑌𝑌1. • Firm 2 chooses 𝑦𝑦2 given
𝑝𝑝 and 𝑌𝑌2. • Jointly, the two firms
would be selecting 𝑦𝑦1 + 𝑦𝑦2.
• The aggregate supply correspondence 𝑦𝑦1 + 𝑦𝑦2 coincides with the supply correspondence that a single firm would select given 𝑝𝑝 and 𝑌𝑌 = 𝑦𝑦1 + 𝑦𝑦2.
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Efficient Production
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Efficient Production
• Efficient production vector: a production vector 𝑦𝑦 ∈ 𝑌𝑌 is efficient if there is no other 𝑦𝑦′ ∈ 𝑌𝑌 such that 𝑦𝑦′ ≥ 𝑦𝑦 and 𝑦𝑦′ ≠ 𝑦𝑦. – That is, 𝑦𝑦 is efficient if there is no other feasible
production vector 𝑦𝑦′ producing more output with the same amount of inputs, or alternatively, producing the same output with fewer inputs.
𝑦𝑦 is efficient ⇒ 𝑦𝑦 is on the boundary of 𝑌𝑌 𝑦𝑦 is efficient ⇍ 𝑦𝑦 is on the boundary of 𝑌𝑌
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Efficient Production
• 𝑦𝑦′′ produces the same output as 𝑦𝑦, but uses more inputs.
• 𝑦𝑦′ uses the same inputs as 𝑦𝑦, but produces less output.
• 𝑦𝑦′′ and 𝑦𝑦′ are inefficient.
• 𝑦𝑦 is efficient ⇒ 𝑦𝑦 lies on the frontier of the production set 𝑌𝑌. Advanced Microeconomic Theory 182
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Efficient Production
• 𝑦𝑦 is efficient • 𝑦𝑦′ is inefficient
– it produces the same output as 𝑦𝑦, but uses more inputs.
• Hence, 𝑦𝑦′ lies on the frontier of the production set 𝑌𝑌 ⇏ 𝑦𝑦′ is efficient.
Advanced Microeconomic Theory 183
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Efficient Production: 1st FTWE
• 1st Fundamental Theorem of Welfare Economics (FTWE): If 𝑦𝑦 ∈ 𝑌𝑌 is profit-maximizing for some price vector 𝑝𝑝 ≫ 0, then 𝑦𝑦 must be efficient. Proof: Let us prove the 1st FTWE by contradiction. Suppose that 𝑦𝑦 ∈ 𝑌𝑌 is profit-maximizing
𝑝𝑝 ∙ 𝑦𝑦 ≥ 𝑝𝑝 ∙ 𝑦𝑦′ for all 𝑦𝑦′ ∈ 𝑌𝑌 but 𝑦𝑦 is not efficient. That is, there is a 𝑦𝑦′ ∈ 𝑌𝑌 such that 𝑦𝑦′ ≥ 𝑦𝑦. If we multiply both sides of 𝑦𝑦′ ≥ 𝑦𝑦 by 𝑝𝑝, we obtain
𝑝𝑝 ∙ 𝑦𝑦′ ≥ 𝑝𝑝 ∙ 𝑦𝑦, since 𝑝𝑝 ≫ 0 But then, 𝑦𝑦 cannot be profit-maximizing. Contradiction!
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Isoprofit line
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Efficient Production: 1st FTWE
• For the result in 1st FTWE, we do NOT need the production set 𝑌𝑌 to be convex. – 𝑦𝑦 is profit-maximizing ⇒ 𝑦𝑦 lies on a tangency point
Advanced Microeconomic Theory 185
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Profit maximizingProduction
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Efficient Production: 1st FTWE
– Any production plan in the flat segment of 𝑌𝑌 can be profit-maximizing if prices are 𝑝𝑝 = (0,1).
– But only 𝑦𝑦 is efficient. – Other profit-maximizing
production plans to the left of 𝑦𝑦 are NOT efficient.
– Hence, in order to apply 1st FTWE we need 𝑝𝑝 ≫ 0.
Advanced Microeconomic Theory 186
• Note: the assumption 𝑝𝑝 ≫ 0 cannot be relaxed to 𝑝𝑝 ≥ 0. – Take a production set 𝑌𝑌 with an upper flat surface.
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Efficient Production: 2nd FTWE
• The 2nd FTWE states the converse of the 1st FTWE: – If a production plan 𝑦𝑦 is efficient, then it must be
profit-maximizing.
• Note that, while it is true for convex production sets, it cannot be true if 𝑌𝑌 is non-convex.
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Isoprofit line
Efficient Production: 2nd FTWE
• The 2nd FTWE is restricted to convex production sets. • For non-convex production set: If 𝑦𝑦 is efficient ⇏
𝑦𝑦 is profit-maximizing
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Efficient Production: 2nd FTWE
• 2nd FTWE: If production set 𝑌𝑌 is convex, then every efficient production plan 𝑦𝑦 ∈ 𝑌𝑌 is profit-maximizing production plan, for some non-zero price vector 𝑝𝑝 ≥ 0. Proof: 1) Take an efficient production plan, such as 𝑦𝑦 on
the boundary of 𝑌𝑌. Define the set of production plans that are strictly more efficient than 𝑦𝑦
𝑃𝑃𝑦𝑦 = 𝑦𝑦′ ∈ ℝ𝐿𝐿: 𝑦𝑦′ ≫ 𝑦𝑦 2) Note that 𝑌𝑌 ∩ 𝑃𝑃𝑦𝑦 ≠ ∅ and 𝑃𝑃𝑦𝑦 is convex set.
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Efficient Production: 2nd FTWE Proof (continued): 3) From the Separating
Hyperplane Theorem, there is some 𝑝𝑝 ≠ 0 such that 𝑝𝑝 ∙ 𝑦𝑦′ ≥ 𝑝𝑝 ∙ 𝑦𝑦′′, for 𝑦𝑦′ ∈ 𝑃𝑃𝑦𝑦 and 𝑦𝑦′′ ∈ 𝑌𝑌.
4) Since 𝑦𝑦′ can be made arbitrarily close to 𝑦𝑦, we can have 𝑝𝑝 ∙ 𝑦𝑦 ≥ 𝑝𝑝 ∙ 𝑦𝑦′′ for 𝑦𝑦′′ ∈ 𝑌𝑌.
5) Hence, the efficient production plan 𝑦𝑦 must be profit-maximizing.
Advanced Microeconomic Theory 190
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Efficient Production: 2nd FTWE
– We just assume that the price vector is not zero for every component, i.e., 𝑝𝑝 ≠ (0,0, … , 0).
– Hence, the slope of the isoprofit line can be zero.
– Both 𝑦𝑦 and 𝑦𝑦′ are profit-maximizing, but only 𝑦𝑦 is efficient.
Advanced Microeconomic Theory 191
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• Note: we are not imposing 𝑝𝑝 ≫ 0, but 𝑝𝑝 ≥ 0.
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Efficient Production: 2nd FTWE
• Note: the 2nd FTWE does not allow for input prices to be negative. – Consider the case in which the price of input 𝑙𝑙 is
negative, 𝑝𝑝𝑙𝑙 < 0. – Then, we would have 𝑝𝑝 ∙ 𝑦𝑦′ < 𝑝𝑝 ∙ 𝑦𝑦 for some
production plan 𝑦𝑦′ that is more efficient than 𝑦𝑦, i.e., 𝑦𝑦′ ≫ 𝑦𝑦, with 𝑦𝑦𝑙𝑙
′ − 𝑦𝑦𝑙𝑙 being sufficiently large. – This implies that the firm is essentially “paid” for
using further amounts of input 𝑙𝑙. – For this reason, we assume 𝑝𝑝 ≥ 0.
Advanced Microeconomic Theory 192