Table of Contents

Assigned Reading

Although our text does not conduct a formal probability review, it would be advised that you consult your prerequisite course's probability textbook. The free, online Khan Academy also has a nice collection of short probability and statistics tutorials covering a wide variety to topics applicable to this course.

Useful Equations

Rules of Integration

Chain Rule for Integration

Rules of Differentiation

Chain Rule for Differentiation

Laws for Probabilities of Events

Venn Diagram

Law of Addition

Definition of Conditional Probability

Bayes' Rule

Random Variables (RVs)

Conditional Probability

If X and Y are discrete RVs, the definition of conditional probability for all values of y such that Pr(Y = y) > 0 is

If X and Y are continuous RVs and have joint PDF f_XY(x,y), then the conditional PDF for all values of y such that f_Y(y) > 0 is

For RV X, we can find Pr(X <= x) by conditioning on RV Y. If Y is a discrete RV, then

If Y is a continuous RV with desity f_Y(y), then

Conditional Expectation

If X and Y are jointly discrete RVs, then for all values of y, such that Pr(Y = y) > 0,

Likewise, if X and Y are jointly continuous RVs, then for all values of y such that f_Y(y) > 0,

Computing Expectations by Conditioning

For RV X, we can find E[X] by conditioning on RV Y. If Y is a discrete RV, then

If Y is a continuous RV with density f_Y(y), then

Integer Series Identities

If 0 < p < 1, then

If a != 1, then

If a != 1, then

where, k factorial = k! = (k)(k - 1)(k - 2)(...)(1).

Combinations of Choosing k from n Elements

Frequently Used Random Variables

Exponential Continuous Random Variable

RV X with parameter α > 0 that supports [0, ∞)

Memoryless property:

Uniform Continuous Random Variable

RV X that supports [a, b]

Bernoulli Discrete Random Variable

RV X with parameter 0 < p < 1 that supports k = {0, 1} 

Binomial Discrete Random Variable

RV X with parameters positive integer n and 0 < p < 1 that supports k = {0, 1, ..., n} 

Geometric Discrete Random Variable

RV X with parameter 0 < p < 1 indicating the probability of success.

The number X of Bernoilli trials needed to get one success, supported on the set k = {1, 2, ...}

Memoryless property:

The number of Y = X - 1 failures before the first success, supported on the set k = {0, 1, ...}

Poisson Discrete Random Variable

RV X with parameter λ > 0 that supports k = {0, 1, ...}

Review of Random Variables (RVs)

Cumulative Distribution Function

A RV X is defined by a function F_X(x), called a cumulative distribution function (CDF) of X, which has the following properties:

Example

CDF of a RV:

Probability

For a RV X and any value a, F_X(a) represents the probability that X is less than or equal to a, i.e.:

Probability Space

F_X(x) defines a probability space, and

Continuous RVs

If the CDF of F_X(x) of the RV X is a continuous function of x, then X is a continuous RV.

Example

CDF of a continuous RV:

CDF of a non-continous RV:

Probability Density Function

If a RV X is continuous, and there is a function f_X(x), called the probability density function (PDF), such that:

then X is an absolutely continuous RV.

If X is differentiable at x, then:

The following are properties of a PDF:

Example

PDF of a continuous RV that is uniformly distributed on the interval [0,C]:

PDF of a continuous RV that is exponentially distributed with parameter α > 0: