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Exercise material on economics, Study notes of Economics

Bodoland UniversityEconomics

Essential documents in the form of practice material

Typology: Study notes

2022/2023

Uploaded on 07/18/2023

ananya-saikia
ananya-saikia 🇮🇳

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Economics 202A Midterm Exam
October 22, 2013
Instructions: You have 1 hour 20 minutes for this exam. Take the rst few minutes
to look it over, and pace yourself. Don’t panic; the problems are easier than they
look. (Really.) If you get stuck, move on to something else and come back to the
di¢ cult bit later if you have time. Each question is worth 50 points.
1. A Ramsey model with human capital. Assume a constant-returns pro-
duction function of the form Y=F(K; H; L)where Hdenotes the stock
of human capital. The labor force grows according to _
L=nL; and letting
lower case letters denote ratios to Las usual, we shall write y=f(k; h)
F(K=L; H=L; 1). Technology does not change over time.
(a) A fraction sof saving goes into accumulating Kand a fraction 1s
goes into accumulating H: If both types of capital depreciate at the same
rate , then:
_
K=s[F(K; H; L)C]K;
_
H= (1 s) [F(K; H; L)C]H:
Show how to write these two equations in terms of k; h; per capita consump-
tion c=C=L; and the "intensive" production function f(k; h):
(b) We would like to endogenize the share sabove (in principle, it need
not be constant over time without further assumptions). To that end, set up
the optimal control problem of maximizing
Z1
0
u[c(t)]e(n)tdt
(where > n), subject to your equations from part (a) for _
kand _
h, as well
as initial conditions for physical and human capital. What are the control
variables and what are the state variables?
(c) Write down the Hamiltonian for the optimal control problem, letting
kand hdenote the costate variables for the two accumulation constraints.
What are the rst-order conditions for the controls, and what do you learn
from them? Explain your answer intuitively. (To economize on writing ort,
denote @F=@K =@f=@k =fk, and likewise for fh. Also, recall I pointed
out in class that everything I said about the Maximum Principle applies to
vectors of control and state variables.)
1
pf3
pf4

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Download Exercise material on economics and more Study notes Economics in PDF only on Docsity!

Economics 202A Midterm Exam

October 22, 2013

Instructions: You have 1 hour 20 minutes for this exam. Take the Örst few minutes to look it over, and pace yourself. Donít panic; the problems are easier than they look. (Really.) If you get stuck, move on to something else and come back to the di¢ cult bit later if you have time. Each question is worth 50 points.

  1. A Ramsey model with human capital. Assume a constant-returns pro- duction function of the form Y = F (K; H; L) where H denotes the stock of human capital. The labor force grows according to L_ = nL; and letting lower case letters denote ratios to L as usual, we shall write y = f (k; h)  F (K=L; H=L; 1). Technology does not change over time. (a) A fraction s of saving goes into accumulating K and a fraction 1 s goes into accumulating H: If both types of capital depreciate at the same rate , then:

K^ _ = s [F (K; H; L) C] K; H^ _ = (1 s) [F (K; H; L) C] H:

Show how to write these two equations in terms of k; h; per capita consump- tion c = C=L; and the "intensive" production function f (k; h): (b) We would like to endogenize the share s above (in principle, it need not be constant over time without further assumptions). To that end, set up the optimal control problem of maximizing Z (^1)

0

u[c(t)]e(n)tdt

(where  > n), subject to your equations from part (a) for k_ and h_, as well as initial conditions for physical and human capital. What are the control variables and what are the state variables? (c) Write down the Hamiltonian for the optimal control problem, letting k and h denote the costate variables for the two accumulation constraints. What are the Örst-order conditions for the controls, and what do you learn from them? Explain your answer intuitively. (To economize on writing e§ort, denote @F=@K = @f =@k = fk, and likewise for fh. Also, recall I pointed out in class that everything I said about the Maximum Principle applies to vectors of control and state variables.)

(d) Now derive the equations of motion for the costate variables. What do these tell you about the optimal relationship between k and h? (e) Write the optimal ratio of h to k for the production function Y = K H L^1 ^ ^ : Is it constant over time or not? Find the optimal values of s and 1 s for this Cobb-Douglas production function. (f) Using the consumption Euler equation and your answer to (e), show that the model has a balanced growth path and calculate the steady state values k and h. How do they depend on  and ; and why? (g) Using the aggregate relation k_ + h_ = f (k; h) c (n + )(k + h); Önd the golden-rule steady-state levels of k and h. (I want only the Örst-order conditions, not algebraic solutions for k and h at the golden rule.) (h) Is the balanced growth path dynamically e¢ cient? How can you tell?

  1. Government non-interest-bearing debt in an overlapping generations model. Consider an overlapping generation model like the Diamond economy except that (i) population size is constant and (ii) instead of output being produced, it comes as a pure endowment y to the young, where y is Öxed over time and the old get absolutely nothing in the way of income. A representative gener- ation born on date t maximizes u (cyt ) + u

cot+

(a) We will assume throughout that the output y that the young receive is perishable: there is no way to save any of it for the future. Under this assumption, what are the consumption levels of the young and the old in the absence of any governmental intervention? (b) Assume instead that the government prints pieces of paper that people believe others will accept in return for output. I will call each piece of paper a "dollar." Let pt denote the price of one dollar in terms of output on date t. Let Mt denote the number of dollars that a representative young person will wish to hold, and explain why his/her lifetime consumption levels will now be given by:

cyt = y ptMt; cot+1 = pt+1Mt:

Provided the price of money p is always positive, and money enters the economy initially as a gift to the existing old, does the invention of dollars make everyone better o§? (c) By eliminating Mt above, derive the intertemporal budget constraint of a young person born on date t. How is the term pt+1=pt in that constraint related to the real rate of interest that appears in the Diamond model?

as the ináation tax rate on real dollar holdings , and that tax Önances the governmentís spending g.) Given that the level of the date t money supply is Mt, what equation determines the price of money pt? (j) Is there a maximum ratio g=y < 1 that the government can squeeze out of the private sector by printing dollars?