Prove that the expectation of a sum of jointly distributed random variables is the sum of...

Prove that if two jointly distributed random variables are independent, then their covariance is zero

Prove that if two jointly distributed random variables are independent, then their covariance is zero

The sum of independent normally distributed random variables is normally distributed with mean equal to the...

The sum of independent normally distributed random variables is normally distributed with mean equal to the sum of the individual means and variance equal to the sum of the individual variances. If X is the sum of three independent normally distributed random variables with respective means 100, 150, and 200 and respective standard deviations 15, 20, and 25, the probability that X is between 420 and 460 is closest to which of the following?

Let X and Y be jointly distributed random variables with means, E(X) = 1, E(Y) =...

Let X and Y be jointly distributed random variables with means, E(X) = 1, E(Y) = 0, variances, Var(X) = 4, Var(Y ) = 5, and covariance, Cov(X, Y ) = 2. Let U = 3X-Y +2 and W = 2X + Y . Obtain the following expectations: A.) Var(U): B.) Var(W): C. Cov(U,W): ans should be 29, 29, 21 but I need help showing how to solve.

1) Let the random variables ? be the sum of independent Poisson distributed random variables, i.e.,...

1) Let the random variables ? be the sum of independent Poisson distributed random variables, i.e., ? = ∑ ? (top) ?=1(bottom) ?? , where ?? is Poisson distributed with mean ?? . (a) Find the moment generating function of ?? . (b) Derive the moment generating function of ?. (c) Hence, find the probability mass function of ?. 2)The moment generating function of the random variable X is given by ??(?) = exp{7(?^(?)) − 7} and that of ?...

1. Prove the linearity of expectation result for an undisclosed discrete or continuous random variable

1. Prove the linearity of expectation result for an undisclosed discrete or continuous random variable

Calculate the quantity of interest please. a) Let X,Y be jointly continuous random variables generated as...

Calculate the quantity of interest please. a) Let X,Y be jointly continuous random variables generated as follows: Select X = x as a uniform random variable on [0,1]. Then, select Y as a Gaussian random variable with mean x and variance 1. Compute E[Y ]. b) Let X,Y be jointly Gaussian, with mean E[X] = E[Y ] = 0, variances V ar[X] = 1,V ar[Y ] = 1 and covariance Cov[X,Y ] = 0.4. Compute E[(X + 2Y )2].

8) X1X1 and X2X2 are two random variables that are jointly distributed such that E(X1)=8E(X1)=8, E(X2)=12E(X2)=12,...

8) X1X1 and X2X2 are two random variables that are jointly distributed such that E(X1)=8E(X1)=8, E(X2)=12E(X2)=12, Var(X1)=2Var(X1)=2, Var(X2)=3Var(X2)=3 and Cov(X1,X2)=−1Cov(X1,X2)=−1. Let Z=5X1−4X2−5Z=5X1−4X2−5. Compute E(Z)E(Z). Compute Var(Z)Var(Z). Compute Corr(X1,X2)Corr(X1,X2). Show all your working.

Suppose that X and Y are two jointly continuous random variables with joint PDF ??,(?, ?)...

Suppose that X and Y are two jointly continuous random variables with joint PDF ??,(?, ?) = ??                     ??? 0 ≤ ? ≤ 1 ??? 0 ≤ ? ≤ √?                     0                        ??ℎ?????? Compute and plot ??(?) and ??(?) Are X and Y independent? Compute and plot ??(?) and ???(?) Compute E(X), Var(X), E(Y), Var(Y), Cov(X,Y), and Cor.(X,Y)

Let continuous random variables X, Y be jointly continuous, with the following joint distribution fXY​(x,y) =...

Let continuous random variables X, Y be jointly continuous, with the following joint distribution fXY​(x,y) = e-x-y ​for x≥0, y≥0 and fXY(x,y) = 0 otherwise​. 1) Sketch the area where fXY​(x,y) is non-zero on x-y plane. 2) Compute the conditional PDF of Y given X=x for each nonnegative x. 3) Use the results above to compute E(Y∣X=x) for each nonnegative x. 4) Use total expectation formula E(E(Y∣X))=E(Y) to find expected value of Y.

1. Let ?1 and ?2 be two independent random variables with normal distribution with expectation 0...

1. Let ?1 and ?2 be two independent random variables with normal distribution with expectation 0 and variance 1. (1) Find the covariance between ?1 + ?2 and ?1 − ?2. (2) Find the probability that ?2 1 + ?2 2 ≤ 2. (3) Find the expectation of ?2 1 + ?2^2 . 2. Estimate the approximated value of (︂ 10000 5100 )︂ = 10000! 5100!4900! by central limit theorem.