# SOCR EduMaterials Activities JointDistributions

## This is an activity to explore he joint distributions of X and Y through two simple examples.

You can access the following experiments in SOCR under Experiments.

**Exercise 1**: Die coin experiment:

A die is rolled and the number observed \( X \) is recorded. Then a coin is tossed number of times equal to the value of \(X</math?. For example if <math>X=2\) then the coin is tossed twice, etc. Let \(Y\) be the number of heads observed. Note: Assume that the die and the coin are fair.

**1.**Construct the joint probability distribution of \(X\) and \(Y\).**2.**Find the conditional expected value of \(Y\) given \(X=5\).**3.**Find the conditional variance of \(Y\) given \(X=5\).**4.**Find the expected value of \(Y\).**5.**Find the standard deviation of \(Y\).**6.**Graph the probability distribution of \(Y\).**7.**Use SOCR to graph and print the empirical distribution of \(Y\) when the experiment is performed**a.**\(n=1000\) times.**b.**\(n=10000\) times.

**8.**Compare the theoretical mean and standard deviation of \(Y\) (parts (4) and (5)) with the empirical mean and standard deviation found in part (8).

Below you can see a snapshot of the theoretical distribution of \( Y \).

**Exercise 2**: Coin Die experiment:

A coin is tossed and if heads is observed then a red die is rolled. If tails is observed then a green die is rolled. You can choose the distribution of each die as well as the probability of heads. Choose for the red die the 3-4 flat distribution and for the green die the skewed right distribution. Finally using the scroll button choose $p=0.2$ as the probability of heads. Let \(X\) be the score of the coin (1 for heads, 0 for tails), and let \(Y\) be the score of the die (1,2,3,4,5,6).

**1.**Construct the joint probability distribution of \(X, Y\).**2.**Find the marginal probability distribution of \(Y\) and verify that it is the same with the one given in the applet.**3.**Compute \(E(Y)\).**4.**Compute \(E(Y)\) using expectation by conditioning \(E[E(Y|X)]\).**5.**Run the experiment 1000 times take a snapshot and comment on the results.

Below you can see a snapshot of the theoretical distribution of \( Y \).

- SOCR Home page: http://www.socr.ucla.edu

{{translate|pageName=http://wiki.stat.ucla.edu/socr/index.php?title=SOCR_EduMaterials_Activities}