4. Let X, Y be non-negative continuous random variables with probability density functions (pdf) gx(x)and gy (y), respectively. Further, let f(x, y) denote their joint pdf. We say that X and Y are independentif f(x, y) = 9x(x)hy (y) for all x, y ≥ 0.Further, we define the expectation of X to beE[X] = √rg(x)dx,to be the expectation of XY.0with a similar definition for Y but g replaced by h and x replaced by y. We also defineE[XY] = (0,00)x (0,00)110,00)x (0,00) 29 (x, y) dedy(0,∞)Use Fubini's theorem (which you may assume holds) to show that if X and Y are independent, thenE[XY] = E[X]E[Y].[2]

Answered: 1. Let X, Y be non-negative continuous…

A First Course in Probability (10th Edition)

10th Edition

ISBN:9780134753119

Author:Sheldon Ross

Publisher:Sheldon Ross

Chapter1: Combinatorial Analysis

Section: Chapter Questions

Problem 1.1P: a. How many different 7-place license plates are possible if the first 2 places are for letters and...

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Suppose that X, Y are jointly continuous with joint probability density function f( x, y){ xe^-x(1+y), ifx >0 and y >00, otherwise. (a) Find the marginal density functions of X and Y. (b) Calculate the expectation E[XY]. (c) Calculate the expectation EIX/(1+ Y )1. (e) Determine if the random variables X and Y in this exercise are independent.
Find the moment-generating function of the continuous random variable X whose probability density is given by f(x) = 1 for 0 < x < 1 0 elsewhere and use it to find μ’1,μ’2, and σ^2.
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Suppose that the random variables X and Y have a joint density function given by: f(x,y) = {c(2x+y) for 2≤x≤6 and 0≤y≤5, 0 otherwise P(3 < X < 5, Y >1), P(X < 3), P(X +Y > 5), Find the joint distribution function (cdf),
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