1. Calculate Probability of a Given Outcome © Dale R. Geiger 20111

2. The Dice Game Divide the students into equal groups Each group receives a pair of dice Students will each roll the dice five times, keeping track of the total of each roll There will be a prize for highest individual score and lowest individual score. There will be a prize for the group that finishes the task first © Dale R. Geiger 20112

3. Terminal Learning Objective Action: Calculate probability of a given outcome Condition: You are a cost advisor technician with access to all regulations/course handouts, and awareness of Operational Environment (OE)/Contemporary Operational Environment (COE) variables and actors. Standard: With at least 80% accuracy: Identify and enter relevant report data into macro enabled templates to solve Probability equations © Dale R. Geiger 20113

4. What is Probability? Probability is the likelihood or chance of a particular outcome in relation to all possible outcomes Implies a division or ratio relationship: Occurrence of Particular Outcome Occurrence of All Outcomes Defining all possible outcomes in real-life scenarios can be difficult, if not impossible To help us understand the concept of probability we use simple examples with easily determined outcomes © Dale R. Geiger 20114

5. What is Probability? The probability of an outcome must be a number between 0 and 1 (inclusive) Probabilities are frequently stated as percentages Probability of an impossible event is 0 or 0% Probability of an absolutely certain event is 1 or 100% © Dale R. Geiger 20115

6. What is Probability? Example: What are the possible outcomes when flipping a single coin? Heads -or- Tails What is the chance or probability of Heads? Heads is one of only two possible outcomes The probability is 1/2 or 50% (with a fair coin) Probability of Tails is also 50% © Dale R. Geiger 20116

7. What is Probability? The sum of the individual probabilities of all possible outcomes must equal 100% Probability of all possible coin-flip outcomes: Heads 50% Tails 50% 100% © Dale R. Geiger 20117

8. Defining Outcomes Using two different coins, what are the possible outcomes? 1.Two Heads 2.Two Tails 3.One Head and one Tail 4.One Tail and one Head © Dale R. Geiger 20118

9. Defining Outcomes What is the probability of each outcome? OutcomePossible Ways to Achieve Outcome /Total= Probability% 2 Heads1/4= 25% 2 Tails1/4= 25% 1 Head-1 Tail*2/4= 50% Total4/4= 100% *The combination may be 1 head-1 tail or 1 tail-1 head © Dale R. Geiger 20119

10. Check on Learning What is the probability of an impossible event? The sum of the probabilities of all possible outcomes must be equal to? © Dale R. Geiger 201110

11. The Dice Game What are the possible outcomes for the total of both dice when rolling a pair of dice? Look at the results of the game to see what different outcomes occurred It is possible to roll any of the following totals: 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 How many of each outcome actually occurred? How many in proportion to the total number of rolls? © Dale R. Geiger 201111

12. The Dice Game OutcomePossible Ways to AchieveNumber of WaysProbability 21-111/36 or 2.8% 31-2, 2-122/36 or 5.6% 41-3, 2-2, 3-133/36 or 8.3% 51-4, 2-3, 3-2, 4-144/36 or 11.1% 61-5, 2-4, 3-3, 4-2, 5-155/36 or 13.9% 71-6, 2-5, 3-4, 4-3, 5-2, 6-166/36 or 16.7% 82-6, 3-5, 4-4, 5-3, 6-255/36 or 13.9% 93-6, 4-5, 5-4, 6-344/36 or 11.1% 104-6, 5-5, 6-433/36 or 8.3% 115-6, 6-522/36 or 5.6% 126-611/36 or 2.8% Total3636/36 or 100% © Dale R. Geiger 201112

13. Calculating Probability 1.Define all possible or relevant outcomes 2.Determine number of ways of achieving the particular outcome 3.Determine total number of ways of achieving all possible or relevant outcomes 4.Divide the number of ways of achieving the particular outcome by the total ways of achieving all possible or relevant outcomes 5.Probability = Number of ways of achieving the particular outcome Total number of ways of achieving all outcomes © Dale R. Geiger 201113

14. Practice Problems When rolling a pair of dice, what is the probability of rolling a total divisible by 5? Of all of the possible outcomes (2-12), which ones are divisible by 5? How many ways of achieving each of those? © Dale R. Geiger 201114

15. Practice Problems When rolling a pair of dice, what is the probability of an even numbered total? Of all of the possible outcomes (2-12), which ones are even? How many ways of achieving each of those? © Dale R. Geiger 201115

16. Practice Problems When rolling a pair of dice, what is the probability of a total divisible by 4? By 3? How would you approach this problem? © Dale R. Geiger 201116

17. Practice Problems The bag of candy has 20 red candies, 10 yellow and 5 green. You reach in and take one. What is the probability of getting a green one? A red? A yellow? What are the possible outcomes? How many ways to achieve each outcome? © Dale R. Geiger 201117

18. Check on Learning What is the first step in calculating probability? What is the formula for calculating probability? © Dale R. Geiger 201118

19. Probability of Negative Outcome It may not be relevant to define the probabilities of all possible outcomes What may be relevant is to define two possible outcomes: Positive – a particular outcome Negative – all other outcomes If the probability of one is known, the other can be calculated Probability of Positive = P Probability of Negative = 100% - P © Dale R. Geiger 201119

20. Probability of Negative Outcome Example: When tossing two coins, what is the probability of at least one Head? Positive outcome = at least one Head Negative outcome = no Heads © Dale R. Geiger 201120

21. Probability of Negative Outcome What are the possible ways to achieve a positive outcome? Three ways: Head-Head, Head-Tail, Tail-Head What are the possible ways to achieve a negative outcome? One way: Tail-Tail Probability of at least one Head is 3/4 or 75% Probability of no Heads is 1/4 or 25% © Dale R. Geiger 201121

22. Practice Problems When rolling a pair of dice, what is the probability of NOT rolling a total of 6? Of NOT rolling a total of 7? What is the probability of NOT rolling a number divisible by 5? © Dale R. Geiger 201122

23. Practice Problems The probability of passing a certain class is known to be 80%. What is the probability of NOT passing? © Dale R. Geiger 201123

24. Check on Learning How would you express the probability of NOT being struck by lightning? What is the probability of NOT rolling a 2 when rolling two dice? © Dale R. Geiger 201124

25. Independent Scenarios The probability that two independent outcomes will BOTH occur is equal to the product of both outcomes Since both probabilities are less than 100%, the probability of BOTH will be less than the probability of either one alone Examples: 80% * 60% = 48% ½ * ½ = ¼ © Dale R. Geiger 201125

26. Independent Scenarios When tossing two coins, what is the probability of achieving two Heads twice in a row? The 2 nd toss is not dependent upon the 1 st Probability of two Heads on the 1 st toss = 25% Probability of two Heads on the 2 nd toss = 25% Probability of two Heads on both tosses = 25% * 25% = 6.25% © Dale R. Geiger 201126

27. Practice Problems What is the probability of rolling a total of 7 twice in a row? Probability of 7 * Probability of 7 16.7% * 16.7% = 2.8% What is the probability of rolling a total other than 7 twice in a row? Probability of not 7 * Probability of not 7 (1 – 16.7% ) * (1 – 16.7%) = 69.4% © Dale R. Geiger 201127

28. Practice Problems What is the probability of rolling a total of 7 twice in a row? Probability of 7 * Probability of 7 16.7% * 16.7% = 2.8% What is the probability of rolling a total other than 7 twice in a row? Probability of not 7 * Probability of not 7 (1 – 16.7% ) * (1 – 16.7%) = 69.4% © Dale R. Geiger 201128

29. Practice Problems What is the probability of rolling a total of 7 twice in a row? Probability of 7 * Probability of 7 16.7% * 16.7% = 2.8% What is the probability of rolling a total other than 7 twice in a row? Probability of not 7 * Probability of not 7 (1 – 16.7% ) * (1 – 16.7%) = 69.4% © Dale R. Geiger 201129

30. Practice Problems The probability that Bob will pass the course is 95%. The probability that Ted will pass the course is 60% What is the probability of both Bob and Ted passing? Probability of Bob passing * Probability of Ted passing 95% * 60% = 57% © Dale R. Geiger 201130

31. Practice Problems The probability that Bob will pass the course is 95%. The probability that Ted will pass the course is 60% What is the probability of both Bob and Ted passing? Probability of Bob passing * Probability of Ted passing 95% * 60% = 57% © Dale R. Geiger 201131

32. Check on Learning Even if the probabilities of two independent events are not known, what can be said about the probability of BOTH events occurring? © Dale R. Geiger 201132

33. Conditional Scenarios What is the probability of an outcome given a particular condition has already occurred? The condition reduces the number of possible outcomes Probability of Outcome A given Conditional Outcome B has already occurred = Probability of BOTH A and B Probability of Condition B © Dale R. Geiger 201133

34. Conditional Probabilities The probability that Ted will pass the course is 60%. The probability that Bob will pass the course is 95%. Given that Bob has already passed the course, what is the probability of both Bob and Ted passing? © Dale R. Geiger 201134

35. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201135

36. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201136

37. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201137

38. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201138

39. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201139

40. Conditional Probability What is the desired “Outcome A”? Both pass What is the “Condition B” or given? Bob passes Probability of BOTH Ted and Bob passing Probability of Bob passing = Probability of Ted * Probability of Bob Probability of Bob = 60% * 95% 95% = 60% © Dale R. Geiger 201140

41. Conditional Probability If the probability of the Outcome A is truly independent of Condition B, then… The probability of Outcome A given Conditional Outcome B will be equal to the probability of Outcome A alone: Probability of A * Probability of B Probability of B © Dale R. Geiger 201141

42. What If? What if Bob and Ted are brothers who are extremely competitive? Given that Bob has already passed the course, will the probability of Ted passing the course change? We can’t say exactly how Bob’s passing the course will affect Ted, but it seems likely that it will If the probability of A given B is different than the probability of A alone, then we say the two outcomes are dependent © Dale R. Geiger 201142

43. Check on Learning 10% of students receive an A in English and 15% receive an A in Math. What is the probability of receiving an A in both classes? If you have already received an A in English, what is the probability of receiving an A in Math? Are there any other factors that might affect your actual outcome? © Dale R. Geiger 201143

44. Practical Exercise © Dale R. Geiger 201144