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Market Failure and Public Policy

Market Failure and Public Policy. February 6, 2005. An efficient market allocation:. Maximizes net benefits MB = MC MNB 0 =PV MNB 1 =PV MNB 2 =…=PV MNB n Cannot make anyone better off without making someone else worse off. Market Failure:. External costs (S=MPC only). S=MPC + MSC. $.

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Market Failure and Public Policy

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  1. Market Failure and Public Policy February 6, 2005

  2. An efficient market allocation: • Maximizes net benefits • MB = MC • MNB0=PV MNB1=PV MNB2=…=PV MNBn • Cannot make anyone better off without making someone else worse off

  3. Market Failure: • External costs (S=MPC only)

  4. S=MPC + MSC $ S=MPC only P* pm D qm q* Tons of coal mined

  5. Market Failure: • External costs (S=MPC only) • External benefits (D=MPB only)

  6. $ MC MSB + MPB P* pm MPB qm q* Acres of farmland

  7. Market Failure: • External costs (S=MPC only) • External benefits (D=MPB only) • High exclusion costs • High exclusion costs limit incentive for private production of good or service

  8. Market Failure: • External costs (S=MPC only) • External benefits (D=MPB only) • High exclusion costs • Non-rival goods (MC for additional user is 0)

  9. Market Failure: • External costs (S=MPC only) • External benefits (D=MPB only) • High exclusion costs • Non-rival goods (MC for additional user is 0) • Open access • Individual users benefit but do not bear all costs of their use

  10. MB = MC 12 – 4n = 8 n = 1, TB = 10 Rent = TB – TC = 10 – 8 = 2 Case 1 - Privately owned land Commodity produced with labor: Q = 12n – 2n2 Input is labor (n): n = number of laborers P = $1 so TB = $1*Q so TB = 12n – 2n2 MB = 12 – 4n MC = wage rate = 8

  11. Rent = ½(4)(1) = 2 $ — MC Number of laborers

  12. Labor is added until all potential gains are exhausted (on average, all costs are covered) Case 2 – Open access land Commodity produced with labor: Q = 12n – 2n2 n = number of laborers First laborer earns rent. Second laborer observes this “surplus” and sees an opportunity to benefit. P = $1 so Q = TB AB= TB/n = (12n – 2n2)/n = 12 – 2n

  13. $ — MC Number of laborers

  14. AB = MC 8 = 12 – 2n n = 2, TB = 16 Case 2 (cont.) AB = 12 – 2n MC = wage rate = 8 Rent = 16 – 16 = 0 Rent is exhausted, or dissipated.

  15. Rent dissipated $ — MFC Number of laborers

  16. Market Failure: • External costs (S=MPC only) • External benefits (D=MPB only) • High exclusion costs • Non-rival goods • Open access • Planning horizon • Private vs. social discount rate

  17. Reasons for public policy: • Correct market failure • Internalize externalities • Provide public goods • Change/create property rights • Change outcome if we don’t like the efficient market outcome • Change/create property rights • Correct government failure

  18. Incentive-based policies: • Property rights changes • Market failure: Open access shellfish flats on Cape Cod resulted in decreased quantity and quality of shellfish • Property rights change: Shellfish flats divided into individual parcels, sold or leased, and owners or lessees manage for the long run

  19. Incentive-based policies: • Property rights changes • Public (government) incentives • Taxes (increase cost of undesired activity) • Subsidies (increase benefits of desired activity) • These imply underlying property rights preferences

  20. Example: Severance tax $t per ton of coal mined $ S=MPC only S=MPC + severance tax P* tax rate = p* - pm pm D qm q* Tons of coal mined

  21. Example: Subsidy payment for land retained in farming $ MC Total subsidy paid MSB + MPB P* pm MPB qm q* Acres of farmland

  22. Direct public action: • Command and control • Direct regulations or controls

  23. Example: Zoning regulations limit development options $ MC MC with regulation MSB P* pm MPB qm q* Acres of farmland

  24. Direct public action: • Command and control • Direct regulations or controls • Public goods production • Where no private incentive for production exists • High exclusion costs • Non-rival goods

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