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100 200 300 400 Binomial Probability Joint ProbabilityConditional Probability More ProbabilityHodge Podge AP Statistics Jeopardy Basic Probability 500.

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Presentation on theme: "100 200 300 400 Binomial Probability Joint ProbabilityConditional Probability More ProbabilityHodge Podge AP Statistics Jeopardy Basic Probability 500."— Presentation transcript:

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2 100 200 300 400 Binomial Probability Joint ProbabilityConditional Probability More ProbabilityHodge Podge AP Statistics Jeopardy Basic Probability 500 600 100 200 300 400 500 600 100 200 300 400 500 600 100 200 300 400 500 600 100 200 300 400 500 600 100 200 300 400 500 600

3 Basic Probability - 100 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling a 5 or 6.

4 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an odd number. Basic Probability - 200

5 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling a number greater than 3. Basic Probability - 300

6 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of not rolling a 2. Basic Probability - 400

7 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an even number or a number greater than 3. Basic Probability - 500

8 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an even number and a number greater than 3. Basic Probability - 600

9 Suppose we have a loaded (weighted die) that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling a 5 or 6. ANS: 0.2 Basic Probability – 100 Answer

10 Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an odd number. ANS: 0.5 Basic Probability – 200 Answer

11 Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling a number greater than 3. ANS: 0.4 Basic Probability – 300 Answer

12 Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of not rolling a 2. ANS: 0.8 Basic Probability – 400 Answer

13 Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an even number or a number greater than 3. ANS: 0.6 Basic Probability – 500 Answer

14 Suppose we have a loaded (weighted) die that gives the outcomes 1-6 according to the following probability distribution: X123456 _ P(X)0.10.20.30.20.10.1 Find the probability of rolling an even number and a number greater than 3. ANS: 0.3 Basic Probability – 600 Answer

15 Binomial Probability - 100 Answer On multiple choice question with 5 choices what is the probability of answering a question incorrectly?

16 Answer A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(no questions answered correctly) Binomial Probability - 200

17 Answer A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(9 questions answered correctly) Binomial Probability - 300

18 Answer A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(10 questions answered correctly) Binomial Probability - 400

19 Answer A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(at least 9 questions answered correctly) Binomial Probability - 500

20 Answer A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P( no more than 8 questions answered correctly) Binomial Probability - 600

21 On multiple choice question with 5 choices what is the probability of answering a question incorrectly? ANS: 0.8 Binomial Probability-100 Answer

22 A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(no questions answered correctly) ANS: (0.8) 10 =0.10737 Binomial Probability-200 Answer

23 A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(9 questions answered correctly) ANS: 10(.2) 9 (.8) 1 =0.0000041 Binomial Probability-300 Answer

24 A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(10 questions answered correctly) ANS: 1(.2) 10 (.8) 0 =0.000000102 Binomial Probability-400 Answer

25 A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P(at least 9 questions answered correctly) ANS: 0.0000042 Binomial Probability-500 Answer

26 A multiple choice quiz has 10 multiple choice questions, each with 5 choices. Find P( no more than 8 questions answered correctly) ANS: 1-P(at least 9 correct)=0.9999958 Binomial Probability-600 Answer

27 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to none? Disjoint Probabilities-100

28 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to only Cal? Disjoint Probabilities-200

29 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to Cal or MIT but not NYU? Disjoint Probabilities-300

30 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to at least one of the schools? Disjoint Probabilities-400

31 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% Given that May is admitted to MIT, what is the probability that she will be admitted to NYU? Disjoint Probabilities-500

32 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% Given that May is admitted to Cal, what is the probability that she will be admitted to MIT but not NYU? Disjoint Probabilities-600

33 May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to none? ANS: 10% Disjoint Probabilities-100 Answer

34 May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to only Cal? ANS: 5% Disjoint Probabilities-200 Answer

35 May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to Cal or MIT but not NYU? ANS: 30% Disjoint Probabilities-300 Answer

36 May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% What is the probability that May will be admitted to at least one of the schools? ANS: 90% Disjoint Probabilities-400 Answer

37 May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% Given that May is admitted to MIT, what is the probability that she will be admitted to NYU? ANS: 0.2/0.45=0.4444 Disjoint Probabilities-500 Answer

38 Disjoint Probabilities-600 Answer May has applied to Cal, MIT, and NYU. She believes her chances of getting in to these schools are as follows: P(Cal) = 55%P(MIT) = 45%P(NYU) = 60% P(Cal and MIT) = 20%P(MIT and NYU) = 20% P(all three) = 5%P(only NYU) = 10% Given that May is admitted to Cal, what is the probability that she will be admitted to MIT but not NYU? ANS: 0.15/0.55=0.2727

39 Answer Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Find the probability that a randomly chosen person has a positive test result. Conditional Probability-100

40 Answer Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Find the probability that a person actually has heart disease given that he has a positive test result. Conditional Probability-200

41 Answer Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Are the events of having heart disease and a positive test result independent? Justify your answer using a rule of probability. Conditional Probability-300

42 Answer Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Are the events of having heart disease and a positive test result independent? Justify your answer using a rule of probability. Conditional Probability-400

43 Answer Given below is a two-way table showing the survival rate at a hospital following two different types of surgery performed on critically ill patients. “Survived” means the patient lived at least 6 weeks following the surgery. Given a patient had surgery B, what is the probability they survived? Surgery Type ASurgery Type B Died.023.005 Survived.702.270 Conditional Probability-500

44 Answer Given below is a two-way table showing the survival rate at a hospital following two different types of surgery performed on critically ill patients. “Survived” means the patient lived at least 6 weeks following the surgery. Using a rule of probability, show that the events A = {a patient survived at least 6 weeks} and B = {a patient had surgery type B} are not independent. Surgery Type ASurgery Type B Died.023.005 Survived.702.270 Conditional Probability-600

45 Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Find the probability that a randomly chosen person has a positive test result. ANS: (.8)(.96)+(.92)(.07)=0.1412 Conditional Probability-100 Answer

46 Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Find the probability that a person actually has heart disease given that he has a positive test result. ANS: 0.0768/0.1412=0.5439 Conditional Probability-200 Answer

47 Heart disease is the #1 killer today. Suppose that 8% of the patients in a small town are known to have heart disease. And suppose that a test is available that is positive in 96% of the patients with heart disease, but is also positive in 7% of patients who do not have heart disease. Are the events of having heart disease and a positive test result independent? Justify your answer using a rule of probability. ANS: NO, P(HD)≠P(HD|+) 0.08≠0.5439 Conditional Probability-300 Answer

48 Given below is a two-way table showing the survival rate at a hospital following two different types of surgery performed on critically ill patients. “Survived” means the patient lived at least 6 weeks following the surgery. What is the probability that a patient survived? ANS: 0.972 Surgery Type ASurgery Type B Died.023.005 Survived.702.270 Conditional Probability-400 Answer

49 Given below is a two-way table showing the survival rate at a hospital following two different types of surgery performed on critically ill patients. “Survived” means the patient lived at least 6 weeks following the surgery. Given a patient had surgery B, what is the probability they survived? ANS: 0.270/0.275=0.9818 Surgery Type ASurgery Type B Died.023.005 Survived.702.270 Conditional Probability-500 Answer

50 Conditional Probability-600 Answer Given below is a two-way table showing the survival rate at a hospital following two different types of surgery performed on critically ill patients. “Survived” means the patient lived at least 6 weeks following the surgery. Using a rule of probability, show that the events A = {a patient survived at least 6 weeks} and B = {a patient had surgery type B} are not independent. ANS: P(A)≠P(A|B) 0.972≠0.9818 Surgery Type ASurgery Type B Died.023.005 Survived.702.270

51 Answer A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(B). # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 100

52 Answer A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(B C ). # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 200

53 Answer A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find (B U C). # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 300

54 Answer A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(A ∩ D). # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 400

55 Answer If P(A)=0.2 and P(B)=0.6 and A and B are independent, find P(A or B). More Probability - 500

56 More Probability - 600 Answer If P(A) = 0.3, P(A or B) = 0.65, and A and B are independent, what is P(A and B)?

57 A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(B). ANS: 0.3125 # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 100 Answer

58 A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(B C ). ANS: 0.6875 # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 200 Answer

59 A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(B U C). ANS: 0.625 # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 300 Answer

60 A couple plans to have 4 children. Let X be the number of girls the family has. The probability distribution is A = the couple has an even number of girls B = the couple has 3 or more girls C = the couple has less than 2 girls. D = the couple has at least 1 girl. Find P(A ∩ D). ANS: 0.4375 # of girls 0 1 2 3 4 Probability.0625.2500.3750.2500.0625 More Probability - 400 Answer

61 If P(A)=0.2 and P(B)=0.6 and A and B are independent, find P(A or B). ANS: 0.2+0.6-(0.2)(0.6)=0.68 More Probability - 500 Answer

62 More Probability - 600 Answer If P(A) = 0.3, P(A or B) = 0.65, and A and B are independent, what is P(A and B)? ANS: 0.5

63 Answer Suppose we roll a red die and a green die. Let A be the event that the number of spots showing on the red die is 3 or less and B be the event that the number of spots showing on the green die is more than 3. The events A and B are: A)DisjointB) Complements C) IndependentD) Reciprocals Hodge Podge-100 Hodge Podge-100

64 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Are the events A and B disjoint? Hodge Podge-200 Hodge Podge-200

65 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Find P(B and C c ) Hodge Podge-300 Hodge Podge-300

66 Answer Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Find P(B|C) Hodge Podge-400 Hodge Podge-400

67 Answer Fire departments often respond to medical emergency calls in addition to fire emergency calls. Suppose that 15% of medical emergency calls end up being false alarms and that 6% of fire emergency calls end up being false alarms. Also, suppose that 35% of all calls are medical emergency calls. Find the probability that a call is a false alarm. Hodge Podge-500 Hodge Podge-500

68 Answer Fire departments often respond to medical emergency calls in addition to fire emergency calls. Suppose that 15% of medical emergency calls end up being false alarms and that 6% of fire emergency calls end up being false alarms. Also, suppose that 35% of all calls are medical emergency calls. Find the probability that a call was a medical emergency given that it was a false alarm. Hodge Podge-600 Hodge Podge-600

69 Suppose we roll a red die and a green die. Let A be the event that the number of spots showing on the red die is 3 or less and B be the event that the number of spots showing on the green die is more than 3. The events A and B are: A)DisjointB) Complements C) IndependentD) Reciprocals ANS: C Hodge Podge-100 Answer Hodge Podge-100 Answer

70 Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Are the events A and B disjoint? ANS: No Hodge Podge-200 Answer Hodge Podge-200 Answer

71 Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Find P(B and C c ) ANS: 0.2 Hodge Podge-300 Answer Hodge Podge-300 Answer

72 Suppose we have a loaded (weighted) die that gives the outcomes 1–6 according to the following probability distribution: X 1 2 3 4 5 6 P(X) 0.10.20.30.20.10.1 Let A be the event rolling an odd number. Let B be the event rolling an even number. Let C be the event rolling a number greater than 3. Find P(B|C) ANS: 0.3/0.4=0.75 Hodge Podge-400 Answer Hodge Podge-400 Answer

73 Fire departments often respond to medical emergency calls in addition to fire emergency calls. Suppose that 15% of medical emergency calls end up being false alarms and that 6% of fire emergency calls end up being false alarms. Also, suppose that 35% of all calls are medical emergency calls. Find the probability that a call is a false alarm. ANS: (0.35)(0.15)+(0.65)(0.06)=0.915 Hodge Podge-500 Answer Hodge Podge-500 Answer

74 Hodge Podge-600 Answer Hodge Podge-600 Answer Fire departments often respond to medical emergency calls in addition to fire emergency calls. Suppose that 15% of medical emergency calls end up being false alarms and that 6% of fire emergency calls end up being false alarms. Also, suppose that 35% of all calls are medical emergency calls. Find the probability that a call was a medical emergency given that it was a false alarm. ANS: ((0.35)(0.15))/(0.0915)=0.5738

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