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Chapter 6. Probability What is it? -the likelihood of a specific outcome occurring Why use it? -rather than constantly repeating experiments to make sure.

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Presentation on theme: "Chapter 6. Probability What is it? -the likelihood of a specific outcome occurring Why use it? -rather than constantly repeating experiments to make sure."— Presentation transcript:

1 Chapter 6

2 Probability What is it? -the likelihood of a specific outcome occurring Why use it? -rather than constantly repeating experiments to make sure the same findings occur, scientists make probability statements Criteria: -each specific event, must have an equally likely outcome *EX: Coin flip, the probability of getting heads must be equal to getting tails -the probability (p) assigned to each specific event must be equal to or greater than zero OR equal to or less than 1.00. *p=0 means the event can’t occur & p=1.00 means it must occur *no p-value can fall outside these limits -the sum of the probabilities assigned to all the specific events must equal 1.00. *EX: Coin flip, heads p=.50 & tails p=.50

3 Probabilities Expressed as Symbols: -decimal: p=.50 *ie. An event will occur 50 times out of 100 -percentage: p=50% *ie. An event will occur 50% of the time -fraction: p=1/2 *ie. An event will occur 1 out of every 2 times -using “less than sign”: p <.05 *means the probability is less than.05 Two types: 1. Expected Relative Frequency: the outcome you expect to get if you repeat an event a large number of times -EX: coin flip, expect to get heads 1 out of 2 times (or ½) 2. Subjective Interpretation of Probability: how certain you are that a particular thing will happen -EX: “95% chance that my favorite restaurant is open tonight” Probability

4 Classical Model: calculate BEFORE observations are made assumes that the alternative events are mutually exclusive -ie. ONLY ONE CAN be the observed outcome are collectively exhaustive -ie. one of these outcomes MUST result have equal likelihood Calculation: Probability=Possible Successful Outcomes/All Possible Outcomes -EX: Probability of getting a 3 or lower when rolling dice *Possible Successful Outcomes=3 (Could roll a 1, 2 0R 3) *All Possible Outcomes= 6 (Could roll a 1, 2, 3, 4, 5, 6) *p=3/6=.50 Calculating the probability of multiple outcomes: -EX: Probability of rolling a 3 two times in a row? *p=(1/6)(1/6) =.17 x.17 =.03

5 Probability Empirical Model: calculate AFTER observations have been made used when events are NOT equally likely -EX: a loaded coin weighted to land on heads (so tails is NOT equally likely) events are mutually exclusive -ie. one coin can’t land on heads & tails at the same time past observations are used to calculate future probability -calculation assumes there have been a lot of past observations made Calculation: p = number of past observations for an outcome / total observations -EX: What is the probability that on this 3 rd down the Chargers will convert? -converted four 3 rd downs so far this game (past observations) -had 16 3 rd down opportunities so far this game (total observations) -p=4/16 or.25 or 25%

6 Gambler’s Fallacy: assuming that after a losing streak, the probability must swing the other way & a win will surely occur. -WRONG! Events are independent of each other *ie. The outcome of the previous event has no effect on the next event Probability versus Odds: -probability states the likelihood events will occur -odds state the likelihood event will not occur *EX: What is the likelihood of rolling a die & getting any number? -Probability=1/6 -Odds= 5 to 1 (because there are 5 sides that won’t come & 1 that will) -To calculate from probability to odds: odds=p/(1-p) *EX: p=.20 odds=.20/(1-.20)=.20/.80 or 1/4 read/written as “4 to 1 against” OR *EX: p=.80 odds=.80/(1-.80)=.80/.20 or 4/1 read/written as “4 to 1 in favor” Probability Gambler’s Fallacy

7 Probability Normal Distribution, Z-scores &Probability: -the normal curve allows us to make statements about probability -the percentages we calculated with z-scores can be used as probability ie. Calculations about the area between, above or below z-scores -convert percentages to probability: p= percentage/100 EX: On a normal distribution with M=25 & SD=2.42, what is the probability that any single score will fall above a raw score of 27? -calculate the z-score: z=27-25/2.42=.83 -look up percentage: 29.67% -subtract it from 50 50%-29.67%=20.33% -convert to probability p=20.33/100=.20 p=.20


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