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Lecture 2: Frictional unemployment

Lecture 2: Frictional unemployment. I. The matching function. Frictional unemployment. We have seen foundations for «  classical unemployment » Frictional unemployment arises from continuous reallocation of workers between jobs

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Lecture 2: Frictional unemployment

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  1. Lecture 2: Frictional unemployment I. The matching function

  2. Frictional unemployment • We have seen foundations for «  classical unemployment » • Frictional unemployment arises from continuous reallocation of workers between jobs • In the models we have seen, unemployment would fall to zero absent the rigidities • We need to enrich these models

  3. Questions we want to ask • What fraction of average unemployment is frictional? • Does frictional unemployment play a useful social role? • If so, what is the efficient level of unemployment? • How is frictional unemployment affected by growth, creative destruction, etc…? • Does the frictional component fluctuate?

  4. The matching function • Costly process of allocation unemployed workers to vacant positions • The matching function is the production function for the flow of new hires • The inputs are: • The stock of unemployed workers looking for jobs • The stock of vacant jobs looking for workers

  5. Hirings per unit of time • It is assumed to have the properties of a production function: • Constant returns to scale • Increasing in its arguments • Concave

  6. The dynamics of unemployment

  7. The Beveridge curve v du/dt = 0 u

  8. Properties of the Beveridge Curbve • Steady state relationship between u and v • Downward sloping • Convex • The analysis can also be made in the (u,θ) plane where θ = v/u

  9. The Beveridge curve θ du/dt = 0 u

  10. Closing the model: labor demand

  11. Closing the model: posting vacancies

  12. The equilibrium value of θ

  13. The equilibrium trajectory: θ du/dt = 0 u

  14. Labor demand shocks • The θ falls when • c goes up • r goes up • φ goes up • y goes down • In steady state, this is associated with moves along the Beveridge curve

  15. A fall in labor demand: θ E E’ u

  16. In (u,v): v E E’ u

  17. Reallocation shocks • We model it as an increase in s • The Beveridge curve shifts out (why?) • The labor demand curve shifts down • An increase in s is also a negative labor demand shock (why?)

  18. An increase in s: θ E E’ u

  19. In (u,v): v E E’ u

  20. A deterioration in the matching process • The Beveridge curve shifts out again • No effect of labor demand • Contrary to a (pure) reallocation shock, labor flows fall

  21. Business cycles • We can approximmate them by repeated switches between two values of y • They lead to loops around the Beveridge curve • Vacancies « lead » the cycle • Unemployment lags the cycle

  22. The Loop: v u

  23. Long-term unemployment • The model can be used to have heterogeneous search intensity among the unemployed • LTU: lower search intensity than STU • And fraction of LTU larger after recessions •  the Beveridge curve deteriorates • Persistent effects of transitory shocks

  24. How do we do it?

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