You have one observation X that is limited to values between 0 and 1. You wish...

Suppose X is a single observation from a Beta(θ, 1) distribution, and consider the hypotheses H0...

Suppose X is a single observation from a Beta(θ, 1) distribution, and consider the hypotheses H0 : θ ≥ 2 vs H1 : θ < 2. (a) Consider the test with rejection region R = {X < c}. Derive the power function of this test (as a function of θ and c). (b) Find the value of c so that the test has size α = 0.01. (c) Find the probability of a Type II error when θ = 1....

Y is a random variable pdf h(y) = (1/(y+ theta)^3) * 2 * theta^2 y >0,...

Y is a random variable pdf h(y) = (1/(y+ theta)^3) * 2 * theta^2 y >0, theta >0 Using a single observation, test H_0 : Theta = 1 H_a : theta > 1 Find a uniformly most power critical region for test if alpha = .05 Then find the power of test if theta = 2.5

You must decide which of two discrete distributions a random variable X has. We will call...

You must decide which of two discrete distributions a random variable X has. We will call the distributions p0 and p1. Here are the probabilities they assign to the values x of X: x 0 1 2 3 4 5 6 p0 0.1 0.1 0.2 0.3 0.1 0.1 0.1 p1 0.1 0.3 0.2 0.1 0.1 0.1 0.1 You have a single observation on X and wish to test H0: p0 is correct Ha: p1 is correct One possible decision procedure...

Using a random sample of size 77 from a normal population with variance of 1 but...

Using a random sample of size 77 from a normal population with variance of 1 but unknown mean, we wish to test the null hypothesis that H0: μ ≥ 1 against the alternative that Ha: μ <1. Choose a test statistic. Identify a non-crappy rejection region such that size of the test (α) is 5%. If π(-1,000) ≈ 0, then the rejection region is crappy. Find π(0).

3. Let Y be a singleobservation from a population with density function. f(y)=  2y/θ2 0 ≤ y...

3. Let Y be a singleobservation from a population with density function. f(y)=  2y/θ2 0 ≤ y ≤ θ   f(y)=  0     elsewhere (d) Use the pivotal Y /θ to find a 100(1 − α)% upper confidence interval for θ, which is of form (−∞, θˆU ). For the following questions, suppose for some θ0 > 0, we wish to test H0 :θ = θ0v.s. H1 :θ < θ0 based on a single observation Y . (e) Show that a level-α test has the...

Suppose the continuous random variables X and Y have joint pdf: fXY (x, y) = （1/2）xy...

Suppose the continuous random variables X and Y have joint pdf: fXY (x, y) = （1/2）xy for 0 < x < 2 and x < y < 2 (a) Find P(Y < 2X) by integrating in the x direction first. Be careful setting up your limits of integration. (b) Find P(Y < 2X) by integrating in the y direction first. Be extra careful setting up your limits of integration. (c) Find the conditional pdf of X given Y = y,...

y’ – y = 2x -1 y(0) = 1 , 0 ≤ x ≤ 0.2   ...

y’ – y = 2x -1 y(0) = 1 , 0 ≤ x ≤ 0.2    Use the Euler method to solve the following initial value problem (a) Check whether the function y = 2 ex -2x- 1 is the analytical solution ; (b) Find the errors by comparing the exact values you’re your numerical results (h = 0.05 and h = 0.1) and  Discuss the issue of numerical stability.

Find the probability of a Type I error. A) 1/5 B) 0.4 C) 0.5​ D) 0.6...

Find the probability of a Type I error. A) 1/5 B) 0.4 C) 0.5​ D) 0.6 E) 0.7. There are 5 black, 3 white, and 4 yellow balls in a box (see picture below). Four balls are randomly selected with replacement. Let M be the number of black balls selected. Find P[M =2]. A) Less than 10% B) Between 10% and 30% C) Between 30% and 43% D) Between 43% and 60% E) Bigger than 60%. Use the following information...

Let X ∼ Bin(2,p). Suppose we want to test H0 : p = p_0 versus H1...

Let X ∼ Bin(2,p). Suppose we want to test H0 : p = p_0 versus H1 : p = p_1, with p_0 < p_1. For each of the following values of significance level α: (a) α = 0 (b) α = (p_0)^2 (c) α=(p_0)^2 +2p_0(1−p_0) (d) α = 1 use the Neyman-Pearson Test to construct the most powerful α-level test. In other words, to receive full credit you need to write down the rejection region in terms of X for...

let f(x)=ln(1+2x) a. find the taylor series expansion of f(x) with center at x=0 b. determine...

let f(x)=ln(1+2x) a. find the taylor series expansion of f(x) with center at x=0 b. determine the radius of convergence of this power series c. discuss if it is appropriate to use power series representation of f(x) to predict the valuesof f(x) at x= 0.1, 0.9, 1.5. justify your answe