9.21. Let Y=|Z|, where Z ~ N(0,1). What are the moments of Y?

9.21. Let Y=|Z|, where Z ~ N(0,1). What are the moments of Y? (Hint: the even...

9.21. Let Y=|Z|, where Z ~ N(0,1). What are the moments of Y? (Hint: the even moments should be trivial. For the odd moments you should find a recurrence like the one found in the classroom, integrating with the density fY of Y. To find fY use that P(Y <= x) = P( -x <= Z <= x ) = P( Z <= x ) - P( Z <= -x) and take derivatives.)

Let X and Y be independent and identical uniform distribution on [0,1]. Let Z=min(X, Y). Find...

Let X and Y be independent and identical uniform distribution on [0,1]. Let Z=min(X, Y). Find E[Y-Z]. What is the probability Y=Z?

Show the following: a) Let there be Y with the cumulative distribution function F(y). Let F(Y)=Z....

Show the following: a) Let there be Y with the cumulative distribution function F(y). Let F(Y)=Z. Show that Z~U(0,1) for F(y). b) Let X~U(0,1), and let Y := -ln(X). Show that Y~exp(1)

Comparing Quantiles 1 point possible (graded) Let Z∼N(0,1). Then Z2∼χ21. The quantile qα(χ21) of the χ21−distibution...

Comparing Quantiles 1 point possible (graded) Let Z∼N(0,1). Then Z2∼χ21. The quantile qα(χ21) of the χ21−distibution is the number such that P(Z2>qα(χ21))=α. Find the quantiles of the χ21 distribution in terms of the quantiles of the normal distribution. That is, write qα(χ21) in terms of qα′(N(0,1)) where α′ is a function of α. (Enter q(alpha) for the quantile qα(N(0,1)) of the normal distribution.) qα(χ21)=

Uncorrelated and Gaussian does not imply independent unless jointly Gaussian. Let X ∼N(0,1) and Y =...

Uncorrelated and Gaussian does not imply independent unless jointly Gaussian. Let X ∼N(0,1) and Y = WX, where p(W = −1) = p(W = 1) = 0 .5. It is clear that X and Y are not independent, since Y is a function of X. a. Show Y ∼N(0,1). b. Show cov[X,Y ]=0. Thus X and Y are uncorrelated but dependent, even though they are Gaussian. Hint: use the definition of covariance cov[X,Y]=E [XY] −E [X] E [Y ] and...

Let X and Y be independent N(0,1) RVs. Suppose U = (X+Y)/squareroot(2) and V = (X-Y)/squareroot(2)....

Let X and Y be independent N(0,1) RVs. Suppose U = (X+Y)/squareroot(2) and V = (X-Y)/squareroot(2). Please derive the joint distribution of (U, V ) by using the Jacobian matrix method.

Let X and Y be i.i.d and follow a uniform distribution in [0,1]. Find the joint...

Let X and Y be i.i.d and follow a uniform distribution in [0,1]. Find the joint distribution of(U,V) where U=X+Y and V =X/Y.

Let C = { x#y | x, y ∈ {0,1}∗ and x ̸= y}. Show that...

Let C = { x#y | x, y ∈ {0,1}∗ and x ̸= y}. Show that C is a context-free language.

Assume that X~N(0, 1), Y~N(0, 1) and X and Y are independent variables. Let Z =...

Assume that X~N(0, 1), Y~N(0, 1) and X and Y are independent variables. Let Z = X+Y, and joint density of Y and Z is expressed as f(y, z) = g(z|y)*h(y) g(z|y) is conditional distribution of Z given y, and h(y) is density of Y how can i get f(y, z)?

Let f: (0,1) -> R be uniformly continuous and let Xn be in (0,1) be such...

Let f: (0,1) -> R be uniformly continuous and let Xn be in (0,1) be such that Xn-> 1 as n -> infinity. Prove that the sequence f(Xn) converges