Using the expected value and variance of a random variable X~Bin(n,p), find an expression for E(X^2)...

suppose that X ~ Bin(n, p) a. show that E(X^k)=npE((Y+1)^(k-1)) where Y ~ Bin(n-1, p) b....

suppose that X ~ Bin(n, p) a. show that E(X^k)=npE((Y+1)^(k-1)) where Y ~ Bin(n-1, p) b. use part (a) to find E(x^2)

If X ~ Bin (n, p) and Y ~ Bin (n, 1 - p). Verify that...

If X ~ Bin (n, p) and Y ~ Bin (n, 1 - p). Verify that for any k = 1, 2,.... P (X = k) = P (Y = n - k)

Calculate the mgf for a Bin(n,p) distribution. Use this to find the mean and variance.

Calculate the mgf for a Bin(n,p) distribution. Use this to find the mean and variance.

Define the variance of a random variable X to be V (X) = E[(X − E[X])2]....

Define the variance of a random variable X to be V (X) = E[(X − E[X])2]. Find the mean and variance of X if X ∼ Dunif({1, 3, 5, 7, 9}), by hand.

Suppose that a random variable X has a binomial distribution with n=2, p=0.5. Find the mean...

Suppose that a random variable X has a binomial distribution with n=2, p=0.5. Find the mean and variance of Y = X2

Let X~Poisson(4) random variable and Y an independent Bin(10,1/2) random variable. (a) Use Markov's inequality to...

Let X~Poisson(4) random variable and Y an independent Bin(10,1/2) random variable. (a) Use Markov's inequality to find an upper bound for P(X+Y > 15). (b) Use Chebyshev's inequality to find an upper bound for P(X+Y > 15)

Show that if two binomial random variables X ∼ Bin(a,p) and Y ∼ Bin(b,p) are independent,...

Show that if two binomial random variables X ∼ Bin(a,p) and Y ∼ Bin(b,p) are independent, then X + Y ∼ Bin(a + b, p), using the technique of moment generating function.

The expected value of a discrete uniform random variable U is 5. (a) Find P(U =...

The expected value of a discrete uniform random variable U is 5. (a) Find P(U = 3) (b) Find the variance of U

X is a binomial random variable with n = 15 and p = 0.4. a. Find...

X is a binomial random variable with n = 15 and p = 0.4. a. Find using the binomial distribution. b. Find using the normal approximation to the binomial distribution.

The random variable X is a binomial random variable with n=14 and p=0.7. What is the...

The random variable X is a binomial random variable with n=14 and p=0.7. What is the expected value of X? Do not round your answer.