1. Trang chủ
  2. » Giáo án - Bài giảng

MicroEconomics 5e by besanko braeutigam chapter 06

44 313 0

Đang tải... (xem toàn văn)

Tài liệu hạn chế xem trước, để xem đầy đủ mời bạn chọn Tải xuống

THÔNG TIN TÀI LIỆU

Thông tin cơ bản

Định dạng
Số trang 44
Dung lượng 1 MB

Nội dung

Chapter Inputs and Production Functions Chapter Six Overview 1.Motivation 3.The Production Function  Marginal and Average Products  Isoquants  The Marginal Rate of Technical Substitution 5.Technical Progress 6.Returns to Scale 7.Some Special Functional Forms Chapter Six Production of Semiconductor Chips  “Fabs” cost $1 to $2 billion to construct and are obsolete in to years  Must get fab design “right”  Choice: Robots or Humans?  Up-front investment in robotics vs better chip yields and lower labor costs?  Capital-intensive or laborintensive production process? Chapter Six Key Concepts Productive resources, such as labor and capital equipment, that firms use to manufacture goods and services are called inputs or factors of production The amount of goods and services produces by the firm is the firm’s output Production transforms a set of inputs into a set of outputs Technology determines the quantity of output that is feasible to attain for a given set of inputs Chapter Six Key Concepts The production function tells us the maximum possible output that can be attained by the firm for any given quantity of inputs Production Function: • Q = output • K = Capital • L = Labor Q = f ( L, K ) The production set is a set of technically feasible combinations of inputs and outputs Chapter Six The Production Function & Technical Efficiency Q Production Function Q = f(L) D C • •A • •B Production Set L Chapter Six The Production Function & Technical Efficiency • Technically efficient: Sets of points in the production function that maximizes output given input (labor) Q = f ( L, K ) • Technically inefficient: Sets of points that produces less output than possible for a given set of input (labor) Q < f ( L, K ) Chapter Six The Production Function & Technical Efficiency Chapter Six Labor Requirements Function • Labor requirements function L = g (Q) Example: L=Q for production function Q= L Chapter Six The Production & Utility Functions Production Function Utility Function Output from inputs Preference level from purchases Derived from technologies Derived from preferences Cardinal(Defn: given Ordinal amount of inputs yields a unique and specific amount of output) Marginal Product Marginal Utility Chapter Six Elasticity of Substitution Definition: The elasticity of substitution, σ, measures how the capital-labor ratio, K/L, changes relative to the change in the MRTSL,K Percentage change in capital - labor ratio σ= Percentage change in MRTS L , K K % ∆  L  = %∆MRTS L , K Chapter Six Elasticity of Substitution Example: Suppose that: • MRTSL,KA = 4, KA/LA = • MRTSL,KB = 1, KB/LB = ∆MRTSL,K = MRTSL,KB - MRTSL,KA = -3 σ = [∆(K/L)/∆MRTSL,K]*[MRTSL,K/(K/L)] = (-3/-3) (4/4) = Chapter Six Elasticity of Substitution K "The shape of the isoquant indicates the degree of substitutability of the inputs…" σ=0 σ=1 σ=5 σ=∞ L Chapter Six Returns to Scale • How much will output increase when ALL inputs increase by a particular amount? %∆ (quantity of output) Returns to Scale = %∆ (quantity of all inputs) Chapter Six Returns to Scale Let λ represent the amount by which both inputs, labor and capital, increase Q = f (λL, λK ) for λ > Let Φ represent the resulting proportionate increase in output, Q • Increasing returns: • Decreasing returns: • Constant Returns: φ >λ φ

Ngày đăng: 15/05/2017, 15:13

TÀI LIỆU CÙNG NGƯỜI DÙNG

  • Đang cập nhật ...

TÀI LIỆU LIÊN QUAN