An integer N is chosen from 1 to 10 uniformly at random. Two random variables are...

An integer N is chosen from 1 to 10 uniformly at random. Two random variables are...

An integer N is chosen from 1 to 10 uniformly at random. Two random variables are defined: X is 1 plus the remainder on division of N by 3. So e.g. when N = 5, the remainder on division by 3 is 2, so X = 3. Y is [N/3]. So e.g. when N = 5, Y = 2. (a) Find E[X], E[Y ] and Var[Y ]. (b) Are X and Y independent?

An integer N is chosen from 1 to 10 uniformly at random. Two random variables are...

An integer N is chosen from 1 to 10 uniformly at random. Two random variables are defined: X is 1 plus the remainder on division of N by 3. So e.g. when N = 5, the remainder on division by 3 is 2, so X = 3. Y is dN/3e. So e.g. when N = 5, Y = 2. (a) Find E[X], E[Y ] and Var[Y ]. (b) Are X and Y independent?

Let X ~ N(1,3) and Y~ N(5,7) be two independent random variables. Find... Var(X + Y...

Let X ~ N(1,3) and Y~ N(5,7) be two independent random variables. Find... Var(X + Y + 32) Var(X -Y) Var(2X - 4Y)

Let X and Y be independent random variables, uniformly distribued on the interval [0, 2]. Find...

Let X and Y be independent random variables, uniformly distribued on the interval [0, 2]. Find E[e^(X+Y) ].

Let n be a positive integer and p and r two real numbers in the interval...

Let n be a positive integer and p and r two real numbers in the interval (0,1). Two random variables X and Y are defined on a the same sample space. All we know about them is that X∼Geom(p) and Y∼Bin(n,r). (In particular, we do not know whether X and Y are independent.) For each expectation below, decide whether it can be calculated with this information, and if it can, give its value (in terms of p, n, and r)....

11. An integer is chosen uniformly at random from the range [1, 100000]. What is the...

11. An integer is chosen uniformly at random from the range [1, 100000]. What is the probability that the number is divisible by one or more of 4, 6, 9?

Problems 9 and 10 refer to the discrete random variables X and Y whose joint distribution...

Problems 9 and 10 refer to the discrete random variables X and Y whose joint distribution is given in the following table. Y=-1 Y=0 Y=1 X=1 1/4 1/8 0    X=2 1/16 1/16 1/8 X=3 1/16 1/16 1/4 P9: Compute the marginal distributions of X and Y, and use these to compute E(X), E(Y), Var(X), and Var(Y). P10: Compute Cov(X, Y) and the correlation ρ for the random variables X and Y. Are X and Y independent?

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)

a) Let Xi for i = 1,2,...n be random variables with E[Xi] = μi (not necessarily...

a) Let Xi for i = 1,2,...n be random variables with E[Xi] = μi (not necessarily independent). Show that E[∑ni =1 Xi] = [∑ni =1 μi]. Show from Definition b) Suppose that random variables Yi for i = 1, 2,...,n are independent and identically distributed withE[Yi] =γ(gamma) and Var[Yi] = σ2, Use part (a) to show that E[Ybar] =γ(gamma). (c) Suppose that random variables Yi for i = 1, 2,...,n are independent and identically distributed with E[Yi] =γ(gamma) and Var[Yi]...

If X, Y are random variables with E(X) = 2, Var(X) = 3, E(Y) = 1,...

If X, Y are random variables with E(X) = 2, Var(X) = 3, E(Y) = 1, Var(Y) =2, ρX,Y = −0.5 (a) For Z = 3X − 1 find µZ, σZ. (b) For T = 2X + Y find µT , σT (c) U = X^3 find approximate values of µU , σU