The use of Gaussian CDF If X ∼ N (5, 9), determine the following probabilities. Simply...

X is a Gaussian random variable with variance 9. It is known that the mean of...

X is a Gaussian random variable with variance 9. It is known that the mean of X is positive. It is also known that the probability P[X^2 > a] (using the standard Q-function notation) is given by P[X^2 > a] = Q(5) + Q(3). (a) [13 pts] Find the values of a and the mean of X (b) [12 pts] Find the probability P[X^4 -6X^2 > 27]

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...

Use the following data to construct a PDF and CDF such that probabilities could be read...

Use the following data to construct a PDF and CDF such that probabilities could be read from the CDF: [ 5.6, 4.1, 3.0, 4.2, 1.1, 6.3, 6.5, 5.1, 2.1, 9.4, 2.5, 3.0, 4.2, 1.1, 5.2, 3, 7.1, 5.5, 3.1, 8.8 ] For the PDF, suggest a frequency histogram with 5 equal bins on an x scale of 0 – 10.

Determine the following probabilities. a. For n=6 and (pie sign) = 0.15, what is P(X=0) b....

Determine the following probabilities. a. For n=6 and (pie sign) = 0.15, what is P(X=0) b. For n=10 and (pie sign) = 0.30, what is P(X=9) c. For n=10 and (pie sign) = 0.50, what is P(X=8) d. For n=3 and (pie sign) = 0.83, what is P(X=2)

Consider a binomial probability distribution with p=0.65 and n=8. Determine the probabilities below. a) P(x=2) b)...

Consider a binomial probability distribution with p=0.65 and n=8. Determine the probabilities below. a) P(x=2) b) P(x<=1) c) P (x >6)

1.Determine all the zeros and their multiplicities of the polynomial function f(x) = x 5 −...

1.Determine all the zeros and their multiplicities of the polynomial function f(x) = x 5 − 6x 3 + 4x 2 + 8x − 16 2. Find all the zeros of the function f(x) = x 5 − 4x 4 + x 3 − 4x 2 − 12x + 48 given that −2i and 4 are some of the zeros.

Use the binomial formula to calculate the following probabilities for an experiment in which n=7 and...

Use the binomial formula to calculate the following probabilities for an experiment in which n=7 and p=0.65. a. the probability that x is at most 1 b. the probability that x is at least 6 c. the probability that x is less than 1 a. The probability that x is at most 1 is ___.

If XX is a binomial random variable, compute the probabilities for each of the following cases:...

If XX is a binomial random variable, compute the probabilities for each of the following cases: (a) P(X≤1),n=9,p=0.3P(X≤1),n=9,p=0.3 Probability = (b) P(X>4),n=5,p=0.5P(X>4),n=5,p=0.5 Probability = (c) P(X<1),n=5,p=0.25P(X<1),n=5,p=0.25 Probability = (d) P(X≥3),n=6,p=0.25P(X≥3),n=6,p=0.25 Probability =

Use the z-table to determine the following probabilities. Sketch a normal curve for each problem with...

Use the z-table to determine the following probabilities. Sketch a normal curve for each problem with the appropriate probability area shaded. 1. P(z > 2.34) 2. P(z < -1.56) 3. P(z = 1.23) 4. P(-1.82 < z < 0.79) 5. Determine the z-score that corresponds with a 67% probability.

For the following probability distribution table assume p=.62 and n=3. Fill in the missing probabilities (p(x))....

For the following probability distribution table assume p=.62 and n=3. Fill in the missing probabilities (p(x)). x p(x) 0 1 2 3