Docsity
Log inSign up
Docsity
Prepare for your exams
Prepare for your exams

Study with the several resources on Docsity

Earn points to download
Earn points to download

Earn points by helping other students or get them with a premium plan

Guidelines and tips
Guidelines and tips
Sell on Docsity
Sell on Docsity
Log inSign up

Prepare for your exams

Study with the several resources on Docsity

Find documents

Prepare for your exams with the study notes shared by other students like you on Docsity

Search Store documents

The best documents sold by students who completed their studies

Search through all study resources
Docsity AINEW

Summarize your documents, ask them questions, convert them into quizzes and concept maps

Explore questions

Clear up your doubts by reading the answers to questions asked by your fellow students

Earn points to download

Earn points by helping other students or get them with a premium plan

Share documents
download point icon20 Points

For each uploaded document

Answer questions
download point icon5 Points

For each given answer (max 1 per day)

All the ways to get free points
Get points immediately

Choose a premium plan with all the points you need

Study Opportunities

Choose your next study program

Get in touch with the best universities in the world. Search through thousands of universities and official partners

Community

Ask the community

Ask the community for help and clear up your study doubts

University Rankings

Discover the best universities in your country according to Docsity users

Free resources

Our save-the-student-ebooks!

Download our free guides on studying techniques, anxiety management strategies, and thesis advice from Docsity tutors

From our blog

Exams and Study
Go to the blog

Homework 1 Macroeconomic II, Assignments of Economics

University of GuelphEconomics

Homework assignment 1 Macroeconomic II

Typology: Assignments

2023/2024

Uploaded on 03/04/2024

richi3
richi3 šŸ‡ØšŸ‡¦

1 document

1 / 2

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
Prof. X. Lei
Department of Economics and Finance
University of Guelph
Advanced Macroeconomic Theory II (ECON 6040)
Problem Set 1
1. Question 1 Hansen (1985) We have seen in the lecture that a baseline RBC model generates little
labor market movement (even if capital does not fully depreciates). One way to generate more
movement in labor input is by differentiating the extensive margin (work or not) and the intenstive
margin (hours). To see this, consider an economy populated with a continuum of infinitely-lived
representative households whose preference is given by
u(ct, lt) = ln(ct) + bln(1 āˆ’lt) (1)
where ct, ltrepresent consumption and labor input respectively. Suppose that ltcan only take the
value of 0 <ĀÆ
l < 1 with probability ptor 0 with probability (1 āˆ’pt). Intuitively, you can think that
that labor is indivisible: you either donā€™t have a job, or you have a job and work 8 hours a day!
Hansen argues that instead of having households to choose ctand lt, we can allow them to choose
ctand pt. He also assumes that there is perfect insurance, i.e: whether you are drawn to work or
not, you will always be getting paid the same wage rate. (This ensures that that the competitive
equilibrium is also Pareto optimal.) Firms rent capital and labor for production with a production
technology given by
f(kt, lt) = AtkĪ±
tl1āˆ’Ī±
t(2)
and where the aggregate resource constraint is again given by
yt=ct+it(3)
Physical investment depreciates at the rate of Ī“.
(a) Write down the (ex-ante) expected flow utility of the households at the micro level. Whatā€™s
the value of Frisch elasticity at the micro level and the macro level, respectively?
(b) What are the relevant state variables? What are the control variables? Using Lagrangian
method, write down the system of equations that characterize the solution of the model in a
decentralized economy (Hint: this should include the stochastic shock process, all the necessary
first order conditions, aggregate resource constraint, as well as the transversality condition).
(c) Compute the steady state of this economy.
(d) Log-linearize the F.O.Cs and the aggregate resource constraint around the steady state values
(You can eliminate wtas what we did in the lecture. That should leave you with four equations
to log-linearize).
(e) Letā€™s making some fun predictions of the model without fully solving it. What results do
you expect to see in terms of labor input as compared with the baseline RBC model that we
discussed in the lecture? Interpret.
2. Question 2 Now letā€™s go back to the baseline RBC model with log preferences and fully-depreciated
capital.
1
pf2

Partial preview of the text

Download Homework 1 Macroeconomic II and more Assignments Economics in PDF only on Docsity!

Prof. X. Lei Department of Economics and Finance University of Guelph

Advanced Macroeconomic Theory II (ECON 6040)

Problem Set 1

  1. Question 1 Hansen (1985) We have seen in the lecture that a baseline RBC model generates little

labor market movement (even if capital does not fully depreciates). One way to generate more movement in labor input is by differentiating the extensive margin (work or not) and the intenstive margin (hours). To see this, consider an economy populated with a continuum of infinitely-lived representative households whose preference is given by

u(ct, lt) = ln(ct) + b ln(1 āˆ’ lt) (1)

where ct, lt represent consumption and labor input respectively. Suppose that lt can only take the value of 0 < ĀÆl < 1 with probability pt or 0 with probability (1 āˆ’ pt). Intuitively, you can think that that labor is indivisible: you either donā€™t have a job, or you have a job and work 8 hours a day! Hansen argues that instead of having households to choose ct and lt, we can allow them to choose ct and pt. He also assumes that there is perfect insurance, i.e: whether you are drawn to work or not, you will always be getting paid the same wage rate. (This ensures that that the competitive equilibrium is also Pareto optimal.) Firms rent capital and labor for production with a production technology given by f (kt, lt) = AtktĪ± l^1 t āˆ’Ī± (2) and where the aggregate resource constraint is again given by

yt = ct + it (3)

Physical investment depreciates at the rate of Ī“.

(a) Write down the (ex-ante) expected flow utility of the households at the micro level. Whatā€™s the value of Frisch elasticity at the micro level and the macro level, respectively? (b) What are the relevant state variables? What are the control variables? Using Lagrangian method, write down the system of equations that characterize the solution of the model in a decentralized economy (Hint: this should include the stochastic shock process, all the necessary first order conditions, aggregate resource constraint, as well as the transversality condition). (c) Compute the steady state of this economy. (d) Log-linearize the F.O.Cs and the aggregate resource constraint around the steady state values (You can eliminate wt as what we did in the lecture. That should leave you with four equations to log-linearize). (e) Letā€™s making some fun predictions of the model without fully solving it. What results do you expect to see in terms of labor input as compared with the baseline RBC model that we discussed in the lecture? Interpret.

  1. Question 2 Now letā€™s go back to the baseline RBC model with log preferences and fully-depreciated capital.

(a) In the lecture, we have derived the steady state value of labor input. Now compute the steady state value of all endogenous variables, then present the solution for ct, kt+1, yt, lt, rt, wt as a function of states and structural parameters. (b) Using MATLAB, generate the impulse response of a one standard deviation technology shock at t = 1 on ct, yt, lt, kt, rt, rt for 30 quarters using the following parameters: Ī± = 13 , b = 2, ĻA =

  1. 95 , Ī² = 0. 99 , ĻƒA = 1%. Please attach your code and the figures. (c) Let ĻA = 0.8, redo part (b) (You can present the same impulse response on one figure for comparison). How does the dynamics of those endogenous outcome changes? Interpret. (d) Let b = 0.5, redo part (b). How does the dynamics of those endogenous outcome changes? Interpret.

  2. Question 3 In the lecture, we have solved a competitive equilibrium in the standard RBC model. In this frictionless economy, the optimal allocations of this economy should correspond to the solution of a social plannerā€™s problem. This exercise allows you to verify this point using dynamic programming. We will focus on the case wheree Ī“ = 1. That is,

kt+1 = yt āˆ’ ct (4)

(a) Let V (kt, At) be the value function of the social planner, explain intuitively why V (kt, At) must satisfy the Bellman equation

V (kt, At) = max ct,lt

[ln ct + b ln(1 āˆ’ lt)] + Ī²Et[V (kt+1, At+1)] (5)

(b) We will use a guess and verify approach to solve the value function. Let us guess

V (kt, At) = Ī² 0 + Ī²k ln kt + Ī²A ln At (6)

Rewrite the value function without the expectation sign, and find the necessary first order condition for ct. Show that ct/yt is independent of kt or At. Interpret. (c) Find the necessary first order condition for lt, why does it not depend on At or kt? (d) Now we will verify our guess. This involves plugging in the two first order conditions back into the Bellman equation. Show that the resulting expression satisfies

V (kt, At) = Ī² 0 ā€² + Ī²ā€² k + Ī² Aā€² ln At (7)

(e) Solve the value function by solving Ī²k, Ī²A. Whatā€™s the implied value of ct/yt and lt. Do they take the same value as in the decentralized economy that we discussed in the lecture?