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CHAPTER 5

CHAPTER 5. Externalities. Externalities. Externality An activity on one entity that affects the welfare of another entity in a way that is outside the market mechanism Increase in Social Costs Pricing Effects Suburban to Urban Migration Rent on Condos Increase Externality?.

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CHAPTER 5

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  1. CHAPTER 5 Externalities

  2. Externalities • Externality • An activity on one entity that affects the welfare of another entity in a way that is outside the market mechanism • Increase in Social Costs • Pricing Effects • Suburban to Urban Migration • Rent on Condos Increase • Externality?

  3. The Nature of Externalities • Privately vs. Public Ownership • Bart Operates a Polluting Factory on a Stream • Lisa Fishes on the Stream • Who owns the stream? • Does Bart have the right to operate a polluting factory on the stream?

  4. The Nature of Externalities • Can Consumers Produce Externalities?

  5. The Nature of Externalities • Examples of Positive Externalities?

  6. What Pollutants Do Harm? • Empirical Evidence: What is the Effect of Air Pollution on Health? • How would you conduct a study?

  7. What Pollutants Do Harm? • What Activities Produce Pollutants? • How Much? • What is the Value of the Damage Done? • Buy and Sell Pollution? • Empirical Evidence: The Effect of Air Pollution on Housing Values

  8. Implications for Income Distribution • Who Benefits? • Poor are Disproportionately Affected by Air Pollution • Who Bears the Cost?

  9. The Nature of Externalities-Graphical Analysis • Factory Pollutes Stream • Perfect Price Discriminator • Fisherman with Sick Fish • Marginal Damage or Social Cost

  10. The Nature of Externalities-Graphical Analysis $ MPC Marginal Private Cost Marginal Benefit MB 0 Q1 Q per year Actual output

  11. The Nature of Externalities-Graphical Analysis • Suppose we have the following example: • MD= 25Q • MPC=50+40Q • Demand: P=400-5Q • Find Quantity of Widgets in Equilibrium • Find Social Efficient Quantity of Widgets • MSC • Find Gain to Society • Calculate Loss to Factory and Gain to Fisher

  12. Pollution Reductions • We see postive effects of reducing negative externalities such as pollution. • How do we get there? • Private Options • Public Options

  13. The Coase Theorem • Coase Theorem • Provided that transaction costs are negligible, an efficient solution to an externality problem is achieved as long as someone is assigned property rights, independent of who is assigned those rights

  14. Bargaining and the Coase Theorem MSC = MPC + MD $ MPC h d g c MD MB 0 Q* Q1 Q per year

  15. The Coase Theorem • Coase Theorem • Provided that transaction costs are negligible, an efficient solution to an externality problem is achieved as long as someone is assigned property rights, independent of who is assigned those rights • Assumptions: • Low Bargaining Costs • Ability to Identify the Source of Damage • US Air Pollution?

  16. Other Private Solutions • Mergers • Social Conventions • Socially Acceptable

  17. Public Response to Externalities • Taxes and Subsidies • Mandatory Pollution Reductions • Command and Control • Emissions Fees • Cap and Trade

  18. Public Responses to Externalities – Taxes MSC = MPC + MD $ (MPC + cd) MPC d MD MB 0 Q* Q1 Q per year

  19. Public Responses to Externalities – Taxes • Calculate Tax Revenue • Calculate Producer Surplus • Calculate Producer’s Loss • Calculate Gain to Outside Firm

  20. Pigouvian Tax Revenue • What should be done with this tax revenue?

  21. Public Responses to Externalities - Subsidies MSC = MPC + MD $ MPC d c MD MB 0 Q* Q1 Q per year

  22. Public Responses to Externalities – Taxes • Calculate Subsidy • Calculate Producer Surplus • Calculate Producer’s Loss • Calculate Gain to Outside Firm

  23. Pollution Reductions • We see postive effects of reducing pollution. • How do we get there? • Public Options • Private Options

  24. Uniform Pollution Reductions • Consider Two Firms (B and H) • Each Starts Out Pollution 90 Units • Marginal Cost of Reducing Pollution • MCB = 2/3P • MCH = 2P • You Want to Reduce Pollution by 100 Units • Consider Uniform Pollution Reductions • Each Firm Reduces 50 Units • What would each firm pay to reduce these units?

  25. 50 50 90 90 Uniform Pollution Reductions MCH MCB Bart’spollutionreduction Homer’spollutionreduction

  26. Command-and-Control Regulation • Incentive-based regulations • Command-and-Control Regulations

  27. Command-and-Control Regulation • Technology Standard • Performance Standard • Costs • 7% to 22 Times More Expensive (ERP 2003) • Corporate Average Fuel Economy (CAFE) • 27.5 MPG Cars 20.7 MPG Light Trucks • Gas Tax • $700 Billion More for Raising CAFE (CBO 2004c)

  28. The U.S. Response • Clean Air Act • 1970 Amendments • Environmental Protection Agency (EPA) • Command-and-Control • All 6 Air Pollutants Fell • Causation? • Contrary Studies • Air Pollution on Decline Before 1970 • Air Pollution Lower Due to EPA

  29. Emissions Fee $ MC MSB 0 e* Pollution reduction

  30. 50 50 75 75 90 90 Uniform Pollution Reductions MCH MCB f = $50 f = $50 25 Bart’spollutionreduction Homer’spollutionreduction

  31. Uniform Pollution Reductions • Fair?

  32. Uniform Pollution Reductions • Cost Effective • MC(P1)=MC(P2) • Suppose not. MC(P1)≠MC(P2) • Without Loss of Generality • Suppose: MC(P1)>MC(P2) • Cost of reducing firm 1’s last unit of pollution was more expensive than firm 2’s. • There is a smaller cost to society if firm 2 reduces one more unit and firm 1 reduces one less unit.

  33. Cap-and-Trade • Goal: Decrease Pollution by 100 Units • 80 Permits Issued • Suppose Bart Gets All 80

  34. Cap-and-Trade • Bart’s Responsibility? • Homer’s?

  35. 50 50 75 75 90 90 Cap-and-Trade MCH MCB 10 25 Bart’spollutionreduction Homer’spollutionreduction

  36. Cap-and-Trade • Homer’s Cost? • Willingness to Pay for 1 Permit? • Willingness to Pay for 2 Permits? • For how many will he trade? • What would he be willing to pay? • What is Bart willing to accept?

  37. Progress with Incentive-based Approaches • Policy Perspective: Cap-and-Trade for Sulfur Dioxide • Policy Perspective: Cap-and-Trade to Protect Fisheries and Wildlife • individual transferable quotas

  38. Emissions Fee v Cap-and-Trade • Inflation • Emissions or Cap-and-Trade • Cost Changes • Emissions or Cap-and-Trade

  39. 50 50 75 75 90 90 Cap-and-Trade MCH b MCB $100 $100 $50 $50 a 10 25 Bart’spollutionreduction Homer’spollutionreduction

  40. Cap-and-Trade v Emissions Fee MC’ $ MC* f* MSB 0 ef e’ e* Pollution reduction Too little pollution reduction Too much pollution reduction

  41. Cap-and-Trade v Emissions Fee MC’ $ MC* f* MSB 0 ef e’ e* Pollution reduction Too little pollution reduction Too much pollution reduction

  42. Cap-and-Trade v Emissions Fee • Consider Lower Marginal Costs for an Inelastic and Elastic MSB Line with a Partner • What Underperforms? • What Overperforms? • 5 Minutes

  43. Distributional Effects • Revenue? • Emissions fee • Cap-and-Trade

  44. Positive Externalities $ MC MSB = MPB + MEB MPB MEB R1 R* Researchper year

  45. Positive Externalities • Requests for subsidies • Resource extracted from taxpayers • Market does not always fail • Policy Perspective: Owner-Occupied Housing

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