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Instructor: Dr. Ayona Chatterjee Spring 2011.  If there are N equally likely possibilities of which one must occur and n are regarded as favorable, or.

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Presentation on theme: "Instructor: Dr. Ayona Chatterjee Spring 2011.  If there are N equally likely possibilities of which one must occur and n are regarded as favorable, or."— Presentation transcript:

1 Instructor: Dr. Ayona Chatterjee Spring 2011

2  If there are N equally likely possibilities of which one must occur and n are regarded as favorable, or as a success, then the probability of success is given by the ration n/N.  Example: Probability of drawing a red card from a pack of cards = 26/52 = 0.5.

3  Measures the likeliness of an outcome of an experiment.  The probability of an event is the proportion of the time that events of the same kind will occur in the long run.  Is a number between 0 and 1, with 0 and 1 included.  Probability of an event A is the ratio of favorable outcomes to event A to the total possible outcomes of that experiment.

4 An experiment is the process by which an observation or measurement is made. When an experiment is preformed it can result in one or more outcomes which are called events. A sample space associated with an experiment is the set containing all possible outcomes of that experiment. It is denoted by S. Elements of the sample space are called sample points.

5  Can be  Finite (toss a coin)  Countable (toss a coin till the first head appears)  Discrete (toss a coin)  Continuous (weight of a coin)

6 A manufacturer has five seemingly identical computer terminals available for shipping. Unknown to her, two of the five are defective. A particular order calls for two of the terminals and is filled by randomly selecting two of the five that are available. – List the sample space for this experiment. – Let A denote the event that the order is filled with two nondefective terminals. List the sample points in A.

7  Graphical representation of sets.  A’ is complement of event A.

8  POSTULATE 1: The probability of an event is a nonnegative real number that is P(A)>=0 for any subset A of S.  POSTULATE 2: P(S) = 1.  POSTULATE 3: If A 1, A 2, ….is a finite or infinite sequence of mutually exclusive events of S then P(A 1 U A 2 U…..)=P(A 1 )+P(A 2 )+……..

9  Two events A and B are said to be mutually exclusive if there are no elements common to the two sets. The intersection of the two sets is empty.

10  If A and A’ are complementary events in a sample space S, then P(A’)=1-P(A). Thus P(S) = 1.  P(Φ) = 0, probability of an empty set = 0.  If A and B are events in a sample space S and A is subset B the P(A) < =P(B).  If A and B are any two events in a sample space then P(A U B) = P(A)+P(B) – P(A B).

11  The conditional probability of an event A, given that an event B has occurred, is equal to  Provided P(B) > 0.  Theorem: If A and B are any two events in a sample space S and P(A)≠0, then

12  Two events A and B are independent if and only if  If A and B are independent then A and B’ are also independent. 

13  A coin is tossed three times. If A is the event that a head occurs on each of the first two tosses, B is the event that a tail occurs on the thrid toss and C is the event that exactly two tails occur in the three tosses, show that  Events A and B are independent.  Events B and C are dependent.

14  If B 1, B 2, …., and B k constitute a partition of the sample space S and P(B i ) ≠0, for i=1, 2, …., k, then for any event A in S such that P(A) ≠0

15  The reliability of a product is the probability that it will function within specified limits for a specific period of time under specified environmental conditions.  The reliability of a series system consisting of n independent components is given by  The reliability of a parallel system consisting of n independent components is given by  R i is the reliability of the ith component.

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