Buffl
Buffl
Economic Development

Problem Set 3

SA
by Sarah A.

Briefly explain the general theories of balanced and unbalanced growth.

Also ways to active the big push:

  • You need a huge amount of money because you need to invest into the whole economy

  • Balanced growth: Huge investment for everything

  • Unbalanced growth: Just one sector grows and does linkages to other sectors

  • For example: Once you push oil industry alone, the revenue will build a better infrastructure and thus push the other sectors too

  • Another example: To just be necessary to push one sector is tourism = Once you push tourism, the rest of the economy is going to catch up after some time

  • But it comes with a risk: Once you are dependend from one sector and because of COVID for example, this sector decreases -> then the whole economy of a country will decrease by the depreciation of the one changed sector


Briefly explain the idea of a Big Push.

This is a continuation of task a) basically

  • A big push is a shock stated in task a) as an investment, that pushes an income to a next save spot from A to B for example

    • a government can do a Big Push

    • coordination of a small investment

    • or one very big investment


Briefly explain the general idea of a poverty trap. Illustrate it with an adequate figure.



2. The O-Ring Theory of Development

Following Kremer (1993)1, consider a firm conducting a production process consisting of 𝑛 tasks. For simplicity, we assume that one worker is assigned per task. Furthermore, suppose a continuum of workers who earn a wage 𝑀(π‘žπ‘–) that depends on the respective level of worker quality, π‘žπ‘– ∈ [0,1]. The workers supply labor fully inelastically and the distribution of skill follows a specific function πœ™(π‘ž). In case all tasks are performed perfectly (π‘ž = 1), the firm’s output is equal to 𝐡. The firm’s production function is:

How does this production function differ from standard production functions found in literature?

  • Idea: Production Process is a function of n tasks

  • Production will only be successfull if all parts are of a similar quality

  • If skill level differ, the level of the least productive worker determines outcome

  • Then, expected output is: EQ = K^alpha x s1 x s2 x … x sn

  • In this case, expected outcome is maximized if workers of similiar skill work together

2. The O-Ring Theory of Development

Following Kremer (1993)1, consider a firm conducting a production process consisting of 𝑛 tasks. For simplicity, we assume that one worker is assigned per task. Furthermore, suppose a continuum of workers who earn a wage 𝑀(π‘žπ‘–) that depends on the respective level of worker quality, π‘žπ‘– ∈ [0,1]. The workers supply labor fully inelastically and the distribution of skill follows a specific function πœ™(π‘ž). In case all tasks are performed perfectly (π‘ž = 1), the firm’s output is equal to 𝐡. The firm’s production function is:

State the firm’s maximization problem and derive the first-order conditions with respect to the worker quality π‘žπ‘–. Explain the economic intuition of your results.



2. The O-Ring Theory of Development

Following Kremer (1993)1, consider a firm conducting a production process consisting of 𝑛 tasks. For simplicity, we assume that one worker is assigned per task. Furthermore, suppose a continuum of workers who earn a wage 𝑀(π‘žπ‘–) that depends on the respective level of worker quality, π‘žπ‘– ∈ [0,1]. The workers supply labor fully inelastically and the distribution of skill follows a specific function πœ™(π‘ž). In case all tasks are performed perfectly (π‘ž = 1), the firm’s output is equal to 𝐡. The firm’s production function is:

Formulate the quality-clustering theorem and prove it



2. The O-Ring Theory of Development

Following Kremer (1993)1, consider a firm conducting a production process consisting of 𝑛 tasks. For simplicity, we assume that one worker is assigned per task. Furthermore, suppose a continuum of workers who earn a wage 𝑀(π‘žπ‘–) that depends on the respective level of worker quality, π‘žπ‘– ∈ [0,1]. The workers supply labor fully inelastically and the distribution of skill follows a specific function πœ™(π‘ž). In case all tasks are performed perfectly (π‘ž = 1), the firm’s output is equal to 𝐡. The firm’s production function is:

Use the quality-clustering theorem to determine the equilibrium wage schedule.



2. The O-Ring Theory of Development

Following Kremer (1993)1, consider a firm conducting a production process consisting of 𝑛 tasks. For simplicity, we assume that one worker is assigned per task. Furthermore, suppose a continuum of workers who earn a wage 𝑀(π‘žπ‘–) that depends on the respective level of worker quality, π‘žπ‘– ∈ [0,1]. The workers supply labor fully inelastically and the distribution of skill follows a specific function πœ™(π‘ž). In case all tasks are performed perfectly (π‘ž = 1), the firm’s output is equal to 𝐡. The firm’s production function is:

Which source of underdevelopment is explained by the model? What development policy conclusions can be drawn?

  • Low income country will specialize in primary production or less sophisticated goods where quality aspect is less important

  • Moreover marginal productivity of capital is lower in low skilled country and thus investment is not worthwhile

  • Gap between high skilled and low skilled country will remain


3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

State the profit functions for both types of technology. What can we say about the size of the profits, respectively?



3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

Let there be a representative consumer with utility function 𝑒 = Ξ π‘–π‘˜=1π‘₯𝑖 , who cannot affect prices (price taker) and owns all firms and thus earns all profits Ξ Μ… in the economy. The representative consumer supplies labor 𝐿 to all sectors inelastically. Deduce the consumer’s goods demand in each sector, respectively.



3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

Calculate the price levels 𝑃𝑖 and the equilibrium level of output in each sector



3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

Determine the profit of an industrialized firm. What is the macroeconomic level of profits in the economy?



3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

What is the optimal technology choice for the firms? What are the determinants of this decision?



3. Industrialization and the Big Push

Consider an economy consisting of π‘˜ sectors, with each sector producing one particular output good. The only factor of production is labor, labelled 𝐿𝑖 , and output is denoted by 𝑄𝑖, with 𝑖 denoting the sector (𝑖 = 1, . . . , π‘˜). In each sector 𝑖, the production technology can be traditional or industrialized. The traditional technology is 𝑄𝑖 = 𝐿𝑖. Sectors with the traditional technology face perfect competition, and firms can exit and enter markets at no cost. The industrialized technology is 𝑄𝑖 = 𝛼𝐿𝑖, with 𝛼 > 1. Industrialization requires a fixed investment cost 𝐹. The number of sectors that use the industrialized technology is denoted by 𝑛. Due to an externality, investment cost 𝐹 decreases in the number of sectors that have already industrialized in the past: 𝐹 = 𝐹(𝑛) with πœ•πΉ(𝑛) / πœ•π‘› < 0. The output price in sector 𝑖 is 𝑃𝑖. The wage rate (𝑀) is normalized to 1.

Describe the low-income trap in the model. What do we learn for development policy?

  • If the firm is not industrialized, there are no profits

  • If you have more sectors industrializing, then F(n) is decreasing so the fixed costs

  • It happens if the fix cost of investment is too high

β€”> All sectors remain traditional => low income trap


What can development policy do?

  • If there multiple firms entering the market, it makes sense to industrialize and to induce a big push

  • If there are more firms, then infrastructure is already good, but if my firm is the only one in this sector, then myself have to invest in it alone


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