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

Let Y have density function f(y) = cye−9y,     0 ≤ y ≤ ∞, 0,     elsewhere. b)...

Let Y have density function f(y) = cye−9y,     0 ≤ y ≤ ∞, 0,     elsewhere. b) Give the mean and variance for Y. E(Y)= V(Y)= (c) Give the moment-generating function for Y. m(t) =___________, t<9

Let X and Y be continuous random variables with joint density function f(x,y) and marginal density...

Let X and Y be continuous random variables with joint density function f(x,y) and marginal density functions fX(x) and fY(y) respectively. Further, the support for both of these marginal density functions is the interval (0,1). Which of the following statements is always true? (Note there may be more than one)    E[X^2Y^3]=(∫0 TO 1 x^2 dx)(∫0 TO 1 y^3dy)    E[X^2Y^3]=∫0 TO 1∫0 TO 1x^2y^3 f(x,y) dy dx    E[Y^3]=∫0 TO 1 y^3 fX(x) dx   E[XY]=(∫0 TO 1 x fX(x)...

1. (a) Y1,Y2,...,Yn form a random sample from a probability distribution with cumulative distribution function FY...

1. (a) Y1,Y2,...,Yn form a random sample from a probability distribution with cumulative distribution function FY (y) and probability density function fY (y). Let Y(1) = min{Y1,Y2,...,Yn}. Write the cumulative distribution function for Y(1) in terms of FY (y) and hence show that the probability density function for Y(1) is fY(1)(y) = n{1−FY (y)}n−1fY (y). [8 marks] (b) An engineering system consists of 5 components connected in series, so, if one components fails, the system fails. The lifetimes (measured in...

10pts) Let Y be a continuous random variable with density function f(y) = 1 2 e...

10pts) Let Y be a continuous random variable with density function f(y) = 1 2 e −|y| , −∞ < y < ∞ 0, elsewhere (a) Find the moment-generating function of Y . (b) Use the moment-generating function you find in (a) to find the V (Y ).

Let X and Y have a joint density function given by f(x; y) = 3x; 0...

Let X and Y have a joint density function given by f(x; y) = 3x; 0 <= y <= x <= 1 (a) Find P(X<2Y). (b) Find cov(X,Y). (c) Find P(X < 1/2 |Y = 1/3). (d) Find P(X = 1/2|Y = 1/3). (e) Find P(X > 1/2|Y > 1/3). (f) Find the conditional expectation E(X|Y = y).

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....

Let fx,y (x,y) = 3 e^-(x+y) for 0 < x <1/2y and y>0. a) Find f...

Let fx,y (x,y) = 3 e^-(x+y) for 0 < x <1/2y and y>0. a) Find f x(x) and f y( y) .  b) Write out the integral necessary to find , Fx,y ( u v) . DO NOT EVALUATE THE INTEGRAL.

Let X and Y be jointly continuous random variables with joint density function f(x, y) =...

Let X and Y be jointly continuous random variables with joint density function f(x, y) = c(y^2 − x^2 )e^(−2y) , −y ≤ x ≤ y, 0 < y < ∞. (a) Find c so that f is a density function. (b) Find the marginal densities of X and Y . (c) Find the expected value of X

Given the joint probability density function f ( x , y ) for 0 < x...

Given the joint probability density function f ( x , y ) for 0 < x < 3 and 0 < y < 2 x^2y/81 Find the conditional probability distribution of X=1 given that Y = 1 f ( x , y ) = x^2 y/ 81 . F i n d the conditional probability distribution of X=1 given that Y = 1. i . e . f (X ∣ y = 1 )( 1 )

1. for 0<= x <=3 0<=x<=1 f(x,y) = k(x^2y+ xy^2) a. Find K joint probablity density...

1. for 0<= x <=3 0<=x<=1 f(x,y) = k(x^2y+ xy^2) a. Find K joint probablity density function. b. Find marginal distribution respect to x c. Find the marginal distribution respect to y d. compute E(x) and E(y) e. compute E(xy) f. Find the covariance and interpret the result.