Let X1 and X2 be a sample from a uniform distribution on [0, 1] and let...

Let X2, ... , Xn denote a random sample from a discrete uniform distribution over the...

Let X2, ... , Xn denote a random sample from a discrete uniform distribution over the integers - θ, - θ + 1, ... , -1, 0, 1, ... ,  θ - 1,  θ, where  θ is a positive integer. What is the maximum likelihood estimator of  θ? A) min[X1, .. , Xn] B) max[X1, .. , Xn] C) -min[X1, .. , Xn​​​​​​​] D) (max[X1, .. , Xn​​​​​​​] - min[X1, .. , Xn​​​​​​​]) / 2 E) max[|X1| , ... , |Xn|]

Let f(x1, x2) = 1 , 0 ≤ x1 ≤ 1 , 0 ≤ x2 ≤...

Let f(x1, x2) = 1 , 0 ≤ x1 ≤ 1 , 0 ≤ x2 ≤ 1 be the joint pdf of X1 and X2 . Y1 = X1 + X2 and Y2 = X2 . (a) E(Y1) . (b) Var(Y1) (c) Consider the marginal pdf of Y1 , g(y1) . What is value of g(y1) where y1 = 1/3 and y1 = 6/4 ?

Let X1 and X2 be independent random variables with joint pdf f(x1, x2) =x1e^−(x1+x2), 0< x1<∞,...

Let X1 and X2 be independent random variables with joint pdf f(x1, x2) =x1e^−(x1+x2), 0< x1<∞, 0< x2<∞. Y1= 2X1 and Y2=X2−X1. I) Find g(y1, y2), the joint pdf of Y1, Y2 Include and draw the support. II) Find g1(y1), the marginal pdf of Y1. III) Find E(Y1).

Let X1, X2 be a sample of size 2 from the Gamma (Alpha=2, Lamba = 1/theta)...

Let X1, X2 be a sample of size 2 from the Gamma (Alpha=2, Lamba = 1/theta) distribution X1 = Gamma = x/(theta^2) e^(-x/theta) Derive the joint pdf of Y1=X1 and Y2 = X1+X2 Derive the conditional pdf of Y1 given Y2=y2. Can you name that conditional distribution? It might not have name

Let X1, X2 be a random sample of size 2 from the standard normal distribution N...

Let X1, X2 be a random sample of size 2 from the standard normal distribution N (0, 1). find the distribution of {min(X1, X2)}^2

Duality Theory: Consider the following LP: max 2x1+2x2+4x3 x1−2x2+2x3≤−1 3x1−2x2+4x3≤−3 x1,x2,x3≤0 Formulate a dual of this...

Duality Theory: Consider the following LP: max 2x1+2x2+4x3 x1−2x2+2x3≤−1 3x1−2x2+4x3≤−3 x1,x2,x3≤0 Formulate a dual of this linear program. Select all the correct objective function and constraints 1. min −y1−3y2 2. min −y1−3y2 3. y1+3y2≤2 4. −2y1−2y2≤2 5. 2y1+4y2≤4 6. y1,y2≤0

1. Let x ∼ Np(µ, Σ). (1) Find the distribution of xp conditional on x1, ....

1. Let x ∼ Np(µ, Σ). (1) Find the distribution of xp conditional on x1, . . . , xp−1. (2) Suppose Σ =(1 ρ ρ 1 )and let y1 = x1 + x2 and y2 = −x1 + x2. Determine the joint distribution of y1 and y2. (3) Suppose Σ =( σ11 σ12 σ21 σ22 )and define y1 and y2 as in part (2).Determine the joint distribution of y1 and y2. Determine the conditional distribution y2 given y1.

let X1 X2 ...Xn-1 Xn be independent exponentially distributed variables with mean beta a). find sampling...

let X1 X2 ...Xn-1 Xn be independent exponentially distributed variables with mean beta a). find sampling distribution of the first order statistic b). Is this an exponential distribution if yes why c). If n=5 and beta=2 then find P(Y1<=3.6) d). find the probability distribution of Y1=max(X1, X2, ..., Xn)

Let Y1,Y2,...,Yn denote a random sample of size n from a population with a uniform distribution...

Let Y1,Y2,...,Yn denote a random sample of size n from a population with a uniform distribution on the interval (0,θ). Let Y(n)= max(Y1,Y2,...,Yn) and U = (1/θ)Y(n) . a) Show that U has cumulative density function 0 ,u<0, Fu (u) =   un ,0≤u≤1, 1 ,u>1

Let X1 and X2 be two independent geometric random variables with the probability of success 0...

Let X1 and X2 be two independent geometric random variables with the probability of success 0 < p < 1. Find the joint probability mass function of (Y1, Y2) with its support, where Y1 = X1 + X2 and Y2 = X2.