1 / 10

The Solow Growth Model (neo-classical growth model)

The Solow Growth Model (neo-classical growth model). The Aggregate Production Function. The aggregate production function:. Y = aggregate output. K = capital—the sum of all the machines, plants, and office buildings in the economy. N = labor—the number of workers in the economy.

abel
Télécharger la présentation

The Solow Growth Model (neo-classical growth model)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Solow Growth Model(neo-classical growth model)

  2. The Aggregate Production Function • The aggregate production function: Y = aggregate output. K = capital—the sum of all the machines, plants, and office buildings in the economy. N = labor—the number of workers in the economy. The function F, tells us how much output is produced for given quantities of capital and labor.

  3. The Aggregate Production Function • The aggregate production function depends on the state of technology. The better is technology, the higher is production for a given K and a given N. We’ll discuss technology further in lecture 13

  4. Returns to Scale and Returns to Factors • Constant returns to scale is a property of the economy in which, if the scale of operation is doubled—that is, if the quantities of capital and labor are doubled—then output will also double. • Or more generally,

  5. Returns to Scale and Returns to Factors • Decreasing returns to capital refers to the property that increases in capital lead to smaller and smaller increases in output as the level of capital increases. • Decreasing returns to labor refers to the property that increases in labor, given capital, lead to smaller and smaller increases in output as the level of labor increases.

  6. Output per Worker and Capital per Worker • Constant returns to scale implies that we can rewrite the aggregate production function as: • The amount of output per worker, Y/N depends on the amount of capital per worker, K/N. • As capital per worker increases, so does output per worker.

  7. Output per Worker and Capital per Worker Increases in capital per worker lead to smaller and smaller increases in output per worker.

  8. The Sources of Growth The Effects of an Improvement in the State of Technology An improvement in the state of technology shifts the production function up, leading to an increase in output per worker for a given level of capital per worker.

  9. The Sources of Growth • In this model, growth comes from: • capital accumulation • technological progress • Because of decreasing returns to capital, capital accumulation by itself cannot sustain growth indefinitely.

  10. We will show that… • A higher saving rate increases the growth of output, although only temporarily. • Though countries with a higher saving rate will have a higher level of output per capita. • Sustained growth over long periods of time requires sustained technological progress.

More Related