Problem 1 (16 points). Suppose that X and Y are independent random variables and that Y...

Question

Question

Problem 1 (16 points). Suppose that X and Y are independent random variables and that Y follows a geometric distribution with

math Statistics-And-Probability

Answer 1

Answer #1

P(XCY) = P(y=x) 2 = P (Y>) P(X=-) ouP(1-0)] P(x=a) 1946 P(1-P) 9-17 P(x=x) [ - InGeo (p) og Þ(ip)97 P (r= a) rug-7 P(x) - p §

Answer 2

Similar Homework Help Questions

Problem 3. Let X and Y be two independent random variables taking nonnegative integer values (a)...

Problem 3. Let X and Y be two independent random variables taking nonnegative integer values (a) Prove that for any nonnegative integer m 7m k=0 b) Suppose that X~ B (n, p) and Y ~ B(m. p), and X, Y are independent. What is the distribution of the random variable Z X + Y? (c) Prove the following formula for binomial coefficients: n\ _n + m for kmin (m, n) (d) Let X ~ B (n, 1/2). What is P...
Let Ņ, X1. X2, . . . random variables over a probability space It is assumed that N takes nonnegative inteqer values. Let Zmax [X1, -. .XN! and W-min\X1,... ,XN Find the distribution function of Z...

Let Ņ, X1. X2, . . . random variables over a probability space It is assumed that N takes nonnegative inteqer values. Let Zmax [X1, -. .XN! and W-min\X1,... ,XN Find the distribution function of Z and W, if it suppose N, X1, X2, are independent random variables and X,, have the same distribution function, F, and a) N-1 is a geometric random variable with parameter p (P(N-k), (k 1,2,.)) b) V - 1 is a Poisson random variable with...
10) (11) Let X and Y be 2 independent random variables. Suppose X ~ Gamma(0, 38)...

10) (11) Let X and Y be 2 independent random variables. Suppose X ~ Gamma(0, 38) and Y ~ Gamma(a, 2B). Let 2 = 2X +3Y. Determine the probability distribution of Z. (Hint: use the method of moment-generating functions

Let X, Y be independent random variables where X is binomial(n = 4, p = 1/3)...

Let X, Y be independent random variables where X is binomial(n = 4, p = 1/3) and Y is binomial(n = 3,p = 1/3). Find the moment-generating functions of the three random variables X, Y and X + Y . (You may look up the first two. The third follows from the first two and the behavior of moment-generating functions.) Now use the moment-generating function of X + Y to find the distribution of X + Y .
let X and Y be two independent and identically distributed exponential random variables with parameter lambada...

let X and Y be two independent and identically distributed exponential random variables with parameter lambada = 1. Let Z= X/Y. Find the probability P[Z<=2]
Let X, Y, and Z be three i.i.d. geometric random variables with parameter p, i.e., the...

Let X, Y, and Z be three i.i.d. geometric random variables with parameter p, i.e., the probability mass function of X is PX(k) = (1 − p) k−1p, k = 1, 2, . . . Find the conditional probability distribution of X + Y given X + Y + Z, i.e., find: P(X + Y = i|X + Y + Z = j).

Problem 4 Let X and y be independent Poisson(A) and Poisson(A2) random variables, respectively. i. Write...

Problem 4 Let X and y be independent Poisson(A) and Poisson(A2) random variables, respectively. i. Write an expression for the PMF of Z -X + Y. i.e.. pz[n] for all possible n. ii. Write an expression for the conditional PMF of X given that Z-n, i.e.. pxjz[kn for all possible k. Which random variable has the same PMF, i.e., is this PMF that of a Bernoulli, binomial, Poisson, geometric, or uniform random variable (which assumes all possible values with equal...
Problem D: Suppose X1, .,X, are independent random variables. Let Y be their sum, that is...

Problem D: Suppose X1, .,X, are independent random variables. Let Y be their sum, that is Y 1Xi Find/prove the mgf of Y and find E(Y), Var(Y), and P (8 Y 9) if a) X1,.,X4 are Poisson random variables with means 5, 1,4, and 2, respectively. b) [separately from part a)] X,., X4 are Geometric random variables with p 3/4. i=1
Let X and Y be two discrete random independent random variables. p(x) = 1/3 for x...

Let X and Y be two discrete random independent random variables. p(x) = 1/3 for x =-2,-1,0 p(y) = 1/2 for y =1,6 Z = X + Y. What is the distribution of Z using the method of MGF's

Let Xi and X2 independent random variables, with distribution functions F1, and F2, respectively Let Y a Bernoulli random variable with parameter p. Suppose that Y, X1 and X2 are independent. Proof u...

Let Xi and X2 independent random variables, with distribution functions F1, and F2, respectively Let Y a Bernoulli random variable with parameter p. Suppose that Y, X1 and X2 are independent. Proof using the de finition of distribution function that the the distribution function of Z =Y Xit(1-Y)X2 is F = pF14(1-p)F2 Don't use generatinq moment functions, characteristic functions) Xi and X2 independent random variables, with distribution functions F1, and F2, respectively Let Y a Bernoulli random variable with parameter...