chap 4-1 a course in business statistics, 4th © 2006 prentice-hall, inc. a course in business...
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Chap 4-1A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
A Course In Business Statistics
4th Edition
Chapter 4Using Probability and
Probability Distributions
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Chap 4-2A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Chapter Goals
After completing this chapter, you should be able to:
Explain three approaches to assessing probabilities
Apply common rules of probability Use Bayes’ Theorem for conditional probabilities Distinguish between discrete and continuous
probability distributions Compute the expected value and standard
deviation for a discrete probability distribution
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Chap 4-3A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Important Terms
Probability – the chance that an uncertain event will occur (always between 0 and 1)
Experiment – a process of obtaining outcomes for uncertain events
Elementary Event – the most basic outcome possible from a simple experiment
Sample Space – the collection of all possible elementary outcomes
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Chap 4-4A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Sample Space
The Sample Space is the collection of all possible outcomes
e.g. All 6 faces of a die:
e.g. All 52 cards of a bridge deck:
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Chap 4-5A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Events
Elementary event – An outcome from a sample space with one characteristic Example: A red card from a deck of cards
Event – May involve two or more outcomes simultaneously Example: An ace that is also red from a deck
of cards
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Chap 4-6A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Visualizing Events
Contingency Tables
Tree Diagrams
Red 2 24 26
Black 2 24 26
Total 4 48 52
Ace Not Ace Total
Full Deck of 52 Cards
Red Card
Black Card
Not an Ace
Ace
Ace
Not an Ace
Sample Space
Sample Space2
24
2
24
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Chap 4-7A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Elementary Events
A automobile consultant records fuel type and vehicle type for a sample of vehicles
2 Fuel types: Gasoline, Diesel3 Vehicle types: Truck, Car, SUV
6 possible elementary events:
e1 Gasoline, Truck
e2 Gasoline, Car
e3 Gasoline, SUV
e4 Diesel, Truck
e5 Diesel, Car
e6 Diesel, SUV
Gasoline
Diesel
CarTruck
Truck
Car
SUV
SUV
e1
e2
e3
e4
e5
e6
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Chap 4-8A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Probability Concepts
Mutually Exclusive Events If E1 occurs, then E2 cannot occur
E1 and E2 have no common elements
Black Cards
Red Cards
A card cannot be Black and Red at the same time.
E1
E2
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Chap 4-9A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Independent and Dependent Events
Independent: Occurrence of one does not influence the probability of
occurrence of the other
Dependent: Occurrence of one affects the probability of the other
Probability Concepts
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Chap 4-10A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Independent Events
E1 = heads on one flip of fair coin
E2 = heads on second flip of same coin
Result of second flip does not depend on the result of the first flip.
Dependent Events
E1 = rain forecasted on the news
E2 = take umbrella to work
Probability of the second event is affected by the occurrence of the first event
Independent vs. Dependent Events
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Chap 4-11A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Assigning Probability
Classical Probability Assessment
Relative Frequency of Occurrence
Subjective Probability Assessment
P(Ei) =Number of ways Ei can occur
Total number of elementary events
Relative Freq. of Ei =Number of times Ei occurs
N
An opinion or judgment by a decision maker about the likelihood of an event
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Chap 4-12A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Rules of Probability
Rules for Possible Values
and Sum
Individual Values Sum of All Values
0 ≤ P(ei) ≤ 1
For any event ei
1)P(ek
1ii
where:k = Number of elementary events in the sample space
ei = ith elementary event
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Chap 4-13A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Addition Rule for Elementary Events
The probability of an event Ei is equal to the sum of the probabilities of the elementary events forming Ei.
That is, if:
Ei = {e1, e2, e3}
then:
P(Ei) = P(e1) + P(e2) + P(e3)
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Chap 4-14A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Complement Rule
The complement of an event E is the collection of all possible elementary events not contained in event E. The complement of event E is represented by E.
Complement Rule:
P(E)1)EP( E
E
1)EP(P(E) Or,
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Chap 4-15A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Addition Rule for Two Events
P(E1 or E2) = P(E1) + P(E2) - P(E1 and E2)
E1 E2
P(E1 or E2) = P(E1) + P(E2) - P(E1 and E2)Don’t count common elements twice!
■ Addition Rule:
E1 E2+ =
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Chap 4-16A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Addition Rule Example
P(Red or Ace) = P(Red) +P(Ace) - P(Red and Ace)
= 26/52 + 4/52 - 2/52 = 28/52Don’t count the two red aces twice!
BlackColor
Type Red Total
Ace 2 2 4
Non-Ace 24 24 48
Total 26 26 52
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Chap 4-17A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Addition Rule for Mutually Exclusive Events
If E1 and E2 are mutually exclusive, then
P(E1 and E2) = 0
So
P(E1 or E2) = P(E1) + P(E2) - P(E1 and E2)
= P(E1) + P(E2)
= 0
E1 E2
if mutually
exclusiv
e
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Chap 4-18A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Conditional Probability
Conditional probability for any
two events E1 , E2:
)P(E
)EandP(E)E|P(E
2
2121
0)P(Ewhere 2
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Chap 4-19A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
What is the probability that a car has a CD player, given that it has AC ?
i.e., we want to find P(CD | AC)
Conditional Probability Example
Of the cars on a used car lot, 70% have air conditioning (AC) and 40% have a CD player (CD). 20% of the cars have both.
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Chap 4-20A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Conditional Probability Example
No CDCD Total
AC .2 .5 .7
No AC .2 .1 .3
Total .4 .6 1.0
Of the cars on a used car lot, 70% have air conditioning (AC) and 40% have a CD player (CD). 20% of the cars have both.
.2857.7
.2
P(AC)
AC)andP(CDAC)|P(CD
(continued)
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Chap 4-21A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Conditional Probability Example
No CDCD Total
AC .2 .5 .7
No AC .2 .1 .3
Total .4 .6 1.0
Given AC, we only consider the top row (70% of the cars). Of these, 20% have a CD player. 20% of 70% is about 28.57%.
.2857.7
.2
P(AC)
AC)andP(CDAC)|P(CD
(continued)
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Chap 4-22A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
For Independent Events:
Conditional probability for independent events E1 , E2:
)P(E)E|P(E 121 0)P(Ewhere 2
)P(E)E|P(E 212 0)P(Ewhere 1
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Chap 4-23A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Multiplication Rules
Multiplication rule for two events E1 and E2:
)E|P(E)P(E)EandP(E 12121
)P(E)E|P(E 212 Note: If E1 and E2 are independent, thenand the multiplication rule simplifies to
)P(E)P(E)EandP(E 2121
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Chap 4-24A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Tree Diagram Example
Diesel P(E2) = 0.2
Gasoline P(E1) = 0.8
Truck: P(E3|E1
) = 0.2
Car: P(E4|E1) = 0.5
SUV: P(E5|E1) = 0.3
P(E1 and E3) = 0.8 x 0.2 = 0.16
P(E1 and E4) = 0.8 x 0.5 = 0.40
P(E1 and E5) = 0.8 x 0.3 = 0.24
P(E2 and E3) = 0.2 x 0.6 = 0.12
P(E2 and E4) = 0.2 x 0.1 = 0.02
P(E3 and E4) = 0.2 x 0.3 = 0.06
Truck: P(E3|E2) = 0.6
Car: P(E4|E2) = 0.1
SUV: P(E5|E2) = 0.3
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Chap 4-25A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Bayes’ Theorem
where:
Ei = ith event of interest of the k possible events
B = new event that might impact P(Ei)
Events E1 to Ek are mutually exclusive and collectively exhaustive
)E|)P(BP(E)E|)P(BP(E)E|)P(BP(E
)E|)P(BP(EB)|P(E
kk2211
iii
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Chap 4-26A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Bayes’ Theorem Example
A drilling company has estimated a 40% chance of striking oil for their new well.
A detailed test has been scheduled for more information. Historically, 60% of successful wells have had detailed tests, and 20% of unsuccessful wells have had detailed tests.
Given that this well has been scheduled for a detailed test, what is the probability
that the well will be successful?
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Chap 4-27A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Let S = successful well and U = unsuccessful well P(S) = .4 , P(U) = .6 (prior probabilities) Define the detailed test event as D Conditional probabilities:
P(D|S) = .6 P(D|U) = .2
Revised probabilities
Bayes’ Theorem Example
EventPrior
Prob.
Conditional Prob.
Joint
Prob.
Revised
Prob.
S (successful) .4 .6 .4*.6 = .24 .24/.36 = .67
U (unsuccessful) .6 .2 .6*.2 = .12 .12/.36 = .33
Sum = .36
(continued)
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Chap 4-28A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Given the detailed test, the revised probability of a successful well has risen to .67 from the original estimate of .4
Bayes’ Theorem Example
EventPrior
Prob.
Conditional Prob.
Joint
Prob.
Revised
Prob.
S (successful) .4 .6 .4*.6 = .24 .24/.36 = .67
U (unsuccessful) .6 .2 .6*.2 = .12 .12/.36 = .33
Sum = .36
(continued)
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Chap 4-29A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Introduction to Probability Distributions
Random Variable Represents a possible numerical value from
a random event
Random
Variables
Discrete Random Variable
ContinuousRandom Variable
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Chap 4-30A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Discrete Random Variables
Can only assume a countable number of values
Examples:
Roll a die twiceLet x be the number of times 4 comes up (then x could be 0, 1, or 2 times)
Toss a coin 5 times. Let x be the number of heads
(then x = 0, 1, 2, 3, 4, or 5)
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Chap 4-31A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Experiment: Toss 2 Coins. Let x = # heads.
T
T
Discrete Probability Distribution
4 possible outcomes
T
T
H
H
H H
Probability Distribution
0 1 2 x
x Value Probability
0 1/4 = .25
1 2/4 = .50
2 1/4 = .25
.50
.25
Pro
bab
ility
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Chap 4-32A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
A list of all possible [ xi , P(xi) ] pairs
xi = Value of Random Variable (Outcome)
P(xi) = Probability Associated with Value
xi’s are mutually exclusive (no overlap)
xi’s are collectively exhaustive (nothing left out)
0 P(xi) 1 for each xi
P(xi) = 1
Discrete Probability Distribution
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Chap 4-33A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Discrete Random Variable Summary Measures
Expected Value of a discrete distribution (Weighted Average)
E(x) = xi P(xi)
Example: Toss 2 coins, x = # of heads, compute expected value of x:
E(x) = (0 x .25) + (1 x .50) + (2 x .25) = 1.0
x P(x)
0 .25
1 .50
2 .25
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Chap 4-34A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Standard Deviation of a discrete distribution
where:
E(x) = Expected value of the random variable x = Values of the random variableP(x) = Probability of the random variable having
the value of x
Discrete Random Variable Summary Measures
P(x)E(x)}{xσ 2x
(continued)
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Chap 4-35A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Example: Toss 2 coins, x = # heads, compute standard deviation (recall E(x) = 1)
Discrete Random Variable Summary Measures
P(x)E(x)}{xσ 2x
.707.50(.25)1)(2(.50)1)(1(.25)1)(0σ 222x
(continued)
Possible number of heads = 0, 1, or 2
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Chap 4-36A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Two Discrete Random Variables
Expected value of the sum of two discrete random variables:
E(x + y) = E(x) + E(y) = x P(x) + y P(y)
(The expected value of the sum of two random variables is the sum of the two expected values)
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Chap 4-37A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Covariance
Covariance between two discrete random variables:
σxy = [xi – E(x)][yj – E(y)]P(xiyj)
where:
xi = possible values of the x discrete random variable
yj = possible values of the y discrete random variable
P(xi ,yj) = joint probability of the values of xi and yj occurring
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Chap 4-38A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Covariance between two discrete random variables:
xy > 0 x and y tend to move in the same direction
xy < 0 x and y tend to move in opposite directions
xy = 0 x and y do not move closely together
Interpreting Covariance
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Chap 4-39A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Correlation Coefficient
The Correlation Coefficient shows the strength of the linear association between two variables
where:
ρ = correlation coefficient (“rho”)σxy = covariance between x and yσx = standard deviation of variable xσy = standard deviation of variable y
yx
yx
σσ
σρ
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Chap 4-40A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
The Correlation Coefficient always falls between -1 and +1
= 0 x and y are not linearly related.
The farther is from zero, the stronger the linear relationship:
= +1 x and y have a perfect positive linear relationship
= -1 x and y have a perfect negative linear relationship
Interpreting the Correlation Coefficient
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Chap 4-41A Course In Business Statistics, 4th © 2006 Prentice-Hall, Inc.
Chapter Summary
Described approaches to assessing probabilities
Developed common rules of probability
Used Bayes’ Theorem for conditional probabilities
Distinguished between discrete and continuous probability distributions
Examined discrete probability distributions and their summary measures