Suppose a parameter family has parameter q = E(X3), where is q is real. Devise an...

1. Suppose a parameter family has parameter q = E (X^3), where q is real. Devise...

1. Suppose a parameter family has parameter q = E (X^3), where q is real. Devise an estimator of q (hint: use the “Golden Rule”) and show it is unbiased and consistent for q.

A program devise a recursive algorithm to find a2n, where a is a real number and...

A program devise a recursive algorithm to find a2n, where a is a real number and n is a positive integer (hint: use the equality a2n+1 = (a^2n)^2

Suppose two estimators of a parameter are both unbiased, but the first estimator has twice the...

Suppose two estimators of a parameter are both unbiased, but the first estimator has twice the variance of the second. Then the ratio of the mean square errors of the estimators is given by (first/second): __________________.

Suppose that x = Verticle matrix of (1, x2, x3) where x3 = α1 + α2x2....

Suppose that x = Verticle matrix of (1, x2, x3) where x3 = α1 + α2x2. Show that E(xx') is not invertible.

Let p and q be two real numbers with p > 0. Show that the equation...

Let p and q be two real numbers with p > 0. Show that the equation x^3 + px +q= 0 has exactly one real solution. (Hint: Show that f'(x) is not 0 for any real x and then use Rolle's theorem to prove the statement by contradiction)

1. Remember that a Poisson Distribution has a density function of f(x) = [e^(−k)k^x]/x! . It...

1. Remember that a Poisson Distribution has a density function of f(x) = [e^(−k)k^x]/x! . It has a mean and variance both equal to k. (a) Use the method of moments to find an estimator for k. (b) Use the maximum likelihood method to find an estimator for k. (c) Show that the estimator you got from the first part is an unbiased estimator for k. (d) (5 points) Find an expression for the variance of the estimator you have...

Suppose the final goods production function is fixed-proportion, Q = f(E, L) = min{E,L}, where Q...

Suppose the final goods production function is fixed-proportion, Q = f(E, L) = min{E,L}, where Q is output level, E is energy input and L is the labor in- put. Let m be the marginal cost of energy per unit and w be the price of labor per unit. Suppose the demand function for final good is P = 1 - Q a). (10) Suppose energy and final good are produced by two different firms. Derive the cost function of...

Suppose the final goods production function is fixed-proportion, Q = f(E, L) = minf(E,L), where Q...

Suppose the final goods production function is fixed-proportion, Q = f(E, L) = minf(E,L), where Q is output level, E is energy input and L is the labor in- put. Let m be the marginal cost of energy per unit and w be the price of labor per unit. Suppose the demand function for final good is P = 1 - Q: a). (10) Suppose energy and nal good are produced by two different rm. Derive the cost function of...

1. Use the Intermediate Value Theorem to show that f(x)=x3+4x2-10 has a real root in the...

1. Use the Intermediate Value Theorem to show that f(x)=x3+4x2-10 has a real root in the interval [1,2]. Then, preform two steps of Bisection method with this interval to find P2.

Suppose the (inverse) demand function facing a firm is p(q)=10 – q, where p is the...

Suppose the (inverse) demand function facing a firm is p(q)=10 – q, where p is the price, q is quantity. 1. Draw the (inverse) demand function and marginal revenue. Show your detailed work such as slope, intercept. 2. Suppose the firm has a marginal cost MC=q, and it is the only firm in the market (that is, monopoly). Find the output level and price set by the firm based on your graph in (1). (You do not need to derive...