5. Consider a logistic map model x_(n+1)=3.8(1-x_n ) x_n, (1) compute the steady state(s) of the...

For the following 5 questions, use the simple Solow model where For all questions assume the...

For the following 5 questions, use the simple Solow model where For all questions assume the rate of depreciation on capital, δ=0.04. Use the other parameters given to answer the question, with the noted abbreviations: Share of income paid to capital, α Rate of savings, s Rate of population growth, n 1. For the following parameter values determine the steady-state consumption =.5 =.2 =.02 2. For the following parameter values determine the steady-state k* α=.5 s=.1 n=.03 3. For the...

Consider an economy: Y=4K.5N.5S=0.3Yd=5%n=5%a)What are the steady-state values of capital-labor ratio? Output per worker? Consumption per...

Consider an economy: Y=4K.5N.5S=0.3Yd=5%n=5%a)What are the steady-state values of capital-labor ratio? Output per worker? Consumption per worker?b)Suppose that the government institutes a policy that encourages savings increasing it to 40% instead of 30%. Show graphically and calculate all the steady state values.c)Instead of encouraging savings suppose that the government institutes a policy that discourages population growth decreasing it from 5% to 3%. Show graphically and calculate all the steady state values.

2. Consider a numerical example using the Solow growth model: The production technology is Y=F(K,N)=K0.5N0.5 and...

2. Consider a numerical example using the Solow growth model: The production technology is Y=F(K,N)=K0.5N0.5 and people consume after saving a proportion of income, C=(1-s)Y. The capital per worker, k=K/N, evolves by (1+n)k’=szf(k)+(1-d)k. (a) Describe the steady state k* as a function of other variables (b) Suppose that there are two countries with the same steady state capital per worker k* and zero growth rate of population(n=0), but differ by saving rate, s and depreciation rate, d. So we assume...

3. Given the Solow Growth Model (SGM), where ? = 0.1, s= 0.2, n = 0.01...

3. Given the Solow Growth Model (SGM), where ? = 0.1, s= 0.2, n = 0.01 and g = 0.01 set up an excel sheet program to a) The starting value of k= 2 and also has a starting value of 15. Compute the two different scenarios as each economy moves to the steady state. Discuss intuitively what is going on in these scenarios. (10 points) b) Suppose n increases to 0.2 due to changes in migration policy and the...

Consider the following recursive algorithm Algorithm S(n) if n==1 return 1 else return S(n-1) + n*n*n...

Consider the following recursive algorithm Algorithm S(n) if n==1 return 1 else return S(n-1) + n*n*n 1)What does this algorithm compute? 2) Set up and solve a recurrence relation for the number of times the algorithm's basic operation is executed. 3) How does this algorithm compare with the non-recusive algorithm for computing thius function in terms of time efficeincy and space effeciency?

Consider the Solow grow model. Suppose for each unit of savings, the government consumes a fraction...

Consider the Solow grow model. Suppose for each unit of savings, the government consumes a fraction τ , so only the fraction 1 − τ would accumulate the capital stock. In other words, the law of motion for capital becomes: K1= (1 − δ)K + (1 − τ )sY where δ is the depreciation rate, s is the saving rate, and Y is aggregate output. Suppose production function is Y = zF(K, N). Follow the same steps we did in...

Consider the following Malthusian model where Y=zL1/2N1/2 and z=1. N is population and L is the...

Consider the following Malthusian model where Y=zL1/2N1/2 and z=1. N is population and L is the total land area. L is fixed. For the periods from 0 to T-1 the economy was at the steady state. However, at the beginning of time T, there was a sudden drop in z and stayed at the new, lower value for all the future periods. Plot the time path for each of the following three variables: c, N and Y. (Plot them on...

Consider a Markov chain {Xn; n = 0, 1, 2, . . . } on S...

Consider a Markov chain {Xn; n = 0, 1, 2, . . . } on S = N = {0, 1, 2, . . . } with transition probabilities P(x, 0) = 1/2 , P(x, x + 1) = 1/2 ∀x ∈ S, . (a) Show that the chain is irreducible. (b) Find P0(T0 = n) for each n = 1, 2, . . . . (c) Use part (b) to show that state 0 is recurrent; i.e., ρ00 =...

Let {Xn|n ≥ 0} is a Markov chain with state space S = {0, 1, 2,...

Let {Xn|n ≥ 0} is a Markov chain with state space S = {0, 1, 2, 3}, X0 = 0, and transition probability matrix (pij ) given by   2 3 1 3 0 0 1 3 2 3 0 0 0 1 4 1 4 1 2 0 0 1 2 1 2   Let τ0 = min{n ≥ 1 : Xn = 0} and B = {Xτ0 = 0}. Compute P(Xτ0+2 = 2|B). . Classify all...

(Neoclassical Growth Model). Consider the production function f(k) = Ak0.25, with A = 1, the saving...

(Neoclassical Growth Model). Consider the production function f(k) = Ak0.25, with A = 1, the saving rate s = 0.25, and the depreciation and population growth rates rates d = 0.15 and n = 0.10. The steady state level of capital per capita is k* = 1. For k0 = 0.5 and k0 = 1.5, as initial capital per capita, ll the values of per capita capital, output, the MPK, savings, required investment and the net capital accumulated (△k) in...