Section 4.2 Some Probability Rules—Compound Events.

Slides:



Advertisements
Similar presentations
Multiplication Rule: Basics
Advertisements

Probabilities of Compound Events
: The Multiplication Rule & Conditional Probabilities Objective: To use the addition rule to calculate probabilities CHS Statistics.
Probability Sample Space Diagrams.
PROBABILITY OF INDEPENDENT AND DEPENDENT EVENTS SECTION 12.5.
Compound Events Compound event - an event that is a combination of two or more stages P(A and B) - P(A) X P(B)
Chapter 6 Probabilit y Vocabulary Probability – the proportion of times the outcome would occur in a very long series of repetitions (likelihood of an.
Probability Denoted by P(Event) This method for calculating probabilities is only appropriate when the outcomes of the sample space are equally likely.
“Baseball is 90% mental. The other half is physical.” Yogi Berra.
NOTES: Page 40. Probability Denoted by P(Event) This method for calculating probabilities is only appropriate when the outcomes of the sample space are.
“Baseball is 90% mental. The other half is physical.” Yogi Berra.
Conditional Probability
Math 409/409G History of Mathematics
Section 2 Probability Rules – Compound Events Compound Event – an event that is expressed in terms of, or as a combination of, other events Events A.
Copyright © Cengage Learning. All rights reserved. Elementary Probability Theory 5.
Probability. Probability: Likeliness that an event will occur.
AP Statistics Chapter 6 Notes. Probability Terms Random: Individual outcomes are uncertain, but there is a predictable distribution of outcomes in the.
Chapter 15 B: The Multiplication Rule & Conditional Probabilities
Tree Diagram Worksheet
Chapter 2: Rational Numbers 2.7 Probability of Compound Events.
Splash Screen.
9.7 Probability of Multiple Events. Dependent events – when the outcome of one event affects the outcome of a second event Dependent events – when the.
PROBABILITY RULES – compound Events You roll two dice. What is the probability that you get a 5 on each die ?
 Denoted by P(Event) This method for calculating probabilities is only appropriate when the outcomes of the sample space are equally likely.
Section 4-6 Probability of Compound Events SPI 53B: Compute the probability of a simple compound event Objective: Compute the probability of a simple.
Probability – the likelihood that an event will occur. Probability is usually expressed as a real number from 0 to 1. The probability of an impossible.
The Addition Rule TUTORIAL Summary To find the probability of event A or B, we must first determine whether the events are mutually exclusive.
Larson/Farber Ch. 3 Section 3.3 The Addition Rule Statistics Mrs. Spitz Fall 2008.
12/7/20151 Math b Conditional Probability, Independency, Bayes Theorem.
Math I.  Probability is the chance that something will happen.  Probability is most often expressed as a fraction, a decimal, a percent, or can also.
Probability. Rules  0 ≤ P(A) ≤ 1 for any event A.  P(S) = 1  Complement: P(A c ) = 1 – P(A)  Addition: If A and B are disjoint events, P(A or B) =
Math I.  Probability is the chance that something will happen.  Probability is most often expressed as a fraction, a decimal, a percent, or can also.
Probability Likelihood of an event occurring! Random Circumstances A random circumstance is one in which the outcome is unpredictable. Test results are.
Probability Basics Section Starter Roll two dice and record the sum shown. Repeat until you have done 20 rolls. Write a list of all the possible.
Probability.
12.5 – Probability of Compound Events
Larson/Farber Ch. 3 Section 3.3 The Addition Rule.
Aim: ‘And’ Probabilities & Independent Events Course: Math Lit. Aim: How do we determine the probability of compound events? Do Now: What is the probability.
12-7 Probability of Compound Events (AND problems) Goal: Find the probability of a compound event. Eligible Content: A
What is the probability of two or more independent events occurring?
Independent Events The occurrence (or non- occurrence) of one event does not change the probability that the other event will occur.
Probability Part 4 – “Or” Events. Probability Warm-up In a survey, 16 percent of American children said they use flattery to get their parents to buy.
Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 15 Probability Rules!
Lesson 4-6 Probability of Compound Events Objectives: To find the probability of independent and dependent events.
16.2 Probability of Events Occurring Together
Addition Rules for Probability Mutually Exclusive Events When do you add/ when do you subtract probabilities?
11.3 Probability of Multiple Events Learning goal find the probability of the event A and B find the probability of the event A or B.
Chapter 15 Probability Rules Robert Lauzon. Probability Single Events ●When you are trying to find the probability of a single outcome it can be found.
Chapter 15 Probability Rules!. The General Addition Rule If A and B are disjoint use: P(A  B) = P(A) + P(B) If A and B are not disjoint, this addition.
Probability. Definitions Probability: The chance of an event occurring. Probability Experiments: A process that leads to well- defined results called.
Probability Probability Day 4. Independent Practice Topic 3 packet pg
 Page  Complete Assessment.  The following represents the body temperatures of healthy students Find the.
Probability II.
Chapter 15 Probability Rules!.
International Studies Charter School.
Probability Rules.
Probability II.
Good afternoon! August 9, 2017.
Statistics 300: Introduction to Probability and Statistics
Smart Start A bag contains 5 blue marbles, 6 purple marbles and 3 green marbles. One marble is selected at a time and once the marble is selected it is.
Compound Probability.
Section 14.5 – Independent vs. Dependent Events
Wed + nes + day! Warm-Up… Quickwrite…
Probability Simple and Compound.
Probability.
1.7 Addition Rule - Tree Diagrams (1/3)
Chapter 5 – Probability Rules
Probability of Independent Event
Compound Events – Independent and Dependent
Lesson 56 – Probability of Dependent Events – Conditional Probabilty
Presentation transcript:

Section 4.2 Some Probability Rules—Compound Events

2 P(Event A AND Event B) -Multiply probabilities -BUT first consider if events are independent or not -Ex 1: Roll two fair die. P(rolling a 5 on both) = -Ex 2: Six marbles in a bag (3 green, 2 blue, 1 red) P(2 green balls w/replacement) = P(2 green balls w/o replacement) =

3 cont’d For ex.1

4 Conditional Probability Notation: P(A|B) means given event B occurred, it’s the probability of event A occurring OR P(B|A) means given event A occurred, it’s the probability of event B occurring

5 Ex 3 P(A= Andrew will be alive in 10 yrs) = 0.72 P(B= Ellen will be alive in 10 yrs) = 0.92 Assuming their lives don’t effect each other… P(both will be alive in 10 yrs) =

6 Ex digital cameras. Drawing 2 at random to check quality (w/o replacement). The lot contains 10 defective cameras. P(both cameras drawn are defective) =

7 Multiplication Rule if events are Independent Multiplication Rule if events are not Independent

8 Notes: If two events are independent then, P(A | B) = P(A) Or P(B|A) = P(B) Ex: P(rolling a 3, given you rolled a 4) = And you can solve for the conditional probability:

9 P(Event A OR Event B) -Add probabilities -BUT consider if events are disjoint (or mutually exclusive) -Disjoint Events: are events that cannot occur together. So P(A and B) = 0

10 Ex 5 31 students total: 15 freshmen (9 girls, 6 boys) 8 sophomores (3 girls, 5 boys) 6 juniors (4 girls, 2 boys) 2 seniors (1 girl, 1 boy) a) P(randomly selecting a freshman or sophomore) =

11 (b) P(selecting a male or a sophomore) = cont’d

12 Addition Rule for disjoint events Addition Rule for non-disjoint events

13 Ex 6 P(slacks being too tight) = 0.30 P(slacks being too loose) = 0.10 a)Are the events mutually exclusive? b)P(too tight or too loose) =

14 Ex 7 Professor is preparing an exam. P(students need work in math) = 0.80 P(students need work in english) = 0.70 P(need both areas) = 0.55 a)Are the events mutually exclusive? b)P(need math or need english) =

15 Contingency Tables Employee Type Democrat (D)Republican (R) Independent (I) Row Total Executive (E) Production worker (PW) Column total (grant total) a)P(D) =P(E) = b)P(D | E) = c)Are D and E independent? d)P(D and E) = e) P(D or E) =

16 Contingency Table continued… a)P(I) =P(PW) = b)P(I | PW) = c)P(I and PW) = d)Use the multiplication rule for P(I and PW) = e)Is the answer in c the same as d? f)P(I or PW) g)Are I and PW mutually exclusive? Employee Type Democrat (D)Republican (R) Independent (I) Row Total Executive (E) Production worker (PW) Column total (grant total)

17