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CHAPTER 17 Ted Shi, Kevin Yen Betters, 1st PROBABILITY MODELS
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WHY DO WE USE PROBABILITY?
Instead of simulations, we can use actual probabilities to determine the chance of an event occurring.
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WHAT IS A BERNOULLI TRIAL?
Two possible outcomes on each trial: Success Failure Probability, p, is the same on each trail Each trial is independent of one another Or, if not independent, then sample must be < 10% of pop. Not usually that interesting…
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WHY/HOW DO WE USE A GEOMETRIC PROBABILITY MODEL?
Tell us how long, and with what probability, we can achieve success, denoted by “Geom(p)” Follows rules of Bernoulli’s trials. Formulas: P ( X = x ) = ( q x – 1 )( p ) μ = 1 / p σ = √ ( q / p2 ) p = probability of success q = 1 – p = probability of failure X = no. of trials until first success
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WHY/HOW DO WE USE A BINOMIAL PROBABILITY / MODEL?
Interested in number of successes (usually > 1) in a specific number of trials Not as easy as it seeeeems. Formulas: P ( X = x ) = ( n C x ) ( p x )( q n - x ) n = number of trials p = probability of success q = 1 – p = probability of failure x = no. of successes in n trials
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BINOMIAL MODEL CONT. Formulas (cont.): μ = ( n )( p )
σ = √ ( n )( q )( p ) n = number of trials p = probability of success q = 1 – p = probability of failure x = no. of successes in n trials
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APPLYING THE NORMAL MODEL
Normal models extend indefinitely – need to consider 3 standard deviations Useful when dealing with large number of trials involving binomial models Works well if we expect at least 10 success/failures Success/Failure Condition A Binomoial model can be considered Normal if we expect np ≥ 10 and nq ≥ 10
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CONTINUOUS RANDOM VARIABLES
The Binomial Model is discrete (success = 1, 2, etc.) The Normal Model is continuous (any random variable at any value :o ) Continuity Correction “For continuous random variables we can no longer list all the possible outcomes and their probabilities” e.g. donating ≥ 1850 pints of blood vs donating exactly pints of blood
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QUESTION 17: STILL MORE LEFTIES
Original premise: Question 13. Assume that 13% of people are left-handed. If we select 5 people at random, find the probability of each outcome described below
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QUESTION 17: STILL MORE LEFTIES
Our Situation: Question 17. Suppose we choose 12 people instead of the 5 chosen in Exercise 13. Conditions: Is this a Bernoulli trial? Yes. Success: LEFT, Failure: Right Independent? No, but less than 10% of population.
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QUESTION 17: STILL MORE LEFTIES
A) Find the mean and standard deviation of the number of right-handers in the group. P (right-handed) = 0.87 μ = ( n )( p ) σ = √ ( n )( q )( p ) = (12)(0.87) = √ (12)(0.13)(0.87) = people = people
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QUESTION 17: STILL MORE LEFTIES
B)What’s the probability that they’re not all right- handed? P (all not right-handed) = 1 – P(all right-handed) = 1 – P (X = x) = 1 – P( X = 12 right handed ppl) = 1 – (12 C 12 )(0.8712)(0.130) = 0.812 p (right handed) = 0.87, p (left handed) = 0.13
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QUESTION 17: STILL MORE LEFTIES
C) What’s the probability that there are no more than 10 righties? P (no more than10 righties) = P (X ≤ 10) = P (X =0) + P (X = 1) + P (X =2) ...+P (X = 10) = (120)(0.13)12 (0.87)0+(121)(0.13)11(0.87)1...+(122)(0.13)10(0.87)2 = 0.475 P (no more than10 righties) = 0.475
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QUESTION 17: STILL MORE LEFTIES
D) What’s the probability that there are exactly 6 of each? P (exactly 6 of each) = P(Y =6) = (126) (0.13)6 (0.87)6 = P (exactly 6 of each) =
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QUESTION 17: STILL MORE LEFTIES
E) What’s the probability that the majority is right- handed? P (majority righties) = P(Y ≥ 7) = P (X ≤ 10) = P (X = 7) + P (X = 8) + P (X = 9) ...+P (X = 12) = (127)(0.13)5 (0.87)7 + (128)(0.13)4 (0.87) (1212)(0.13)0 (0.87)12 = 0.998 P (majority righties) = 0.998
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QUESTION 19: TENNIS, ANYONE?
A certain tennis player makes a successful first serve 70% of the time. Assume that each serve is independent of the others.
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QUESTION 19: TENNIS, ANYONE?
A) If she serves 6 times, what’s the probability she gets all 6 serves in? P (all six serves in) = P (X = 6) = (66)(0.70)6 (0.30)0 = 0.118 P (all six serves in) = 0.118
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QUESTION 19: TENNIS, ANYONE?
B) If she serves 6 times, what’s the probability she gets exactly 4 serves in? P (exactly four serves in) = P (X = 4) = (64)(0.70)4 (0.30)2 = 0.324 P (exactly four serves in) = 0.324
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QUESTION 19: TENNIS, ANYONE?
C)If she serves 6 times, what’s the probability she gets at least 4 serves in? P (at least four serves in) = P (X = 4) + P (X = 5) = P (X = 6) = (64)(0.70)4 (0.30)2 + (65)(0.70)5 (0.30)1 + (66)(0.70)6 (0.30)0 = 0.744 P (at least four serves in) = 0.744
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QUESTION 19: TENNIS, ANYONE?
D) If she serves 6 times, what’s the probability she gets no more than 4 serves in? P (no more than four serves in) = P (X = 0) + P (X = 1) + P (X = 2) + P (X = 3) + P (X = 4) = (60)(0.70)0 (0.30)6 + (61)(0.70)1 (0.30)5 + (62)(0.70)2 (0.30) (63)(0.70)3 (0.30)3 + (64)(0.70)4 (0.30)2 = 0.580 P (no more than four serves in) = 0.580
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