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1 Chapter 9: Introduction to Inference
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2 Thumbtack Activity Toss your thumbtack in the air and record whether it lands either point up (U) or point down (D). Do this 25 times (n=25). Calculate p-hat. Repeat the above process two more times, for a total of three estimates. Record your p-hat on a separate post-it note.
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3 We’ve just begun a sampling distribution. Strictly speaking, a sampling distribution is: A theoretical distribution of the values of a statistic (in our case, the proportion) in all possible samples of the same size (n=25 here) from the same population. Sampling Variability: The value of a statistic varies from sample-to- sample in repeated random sampling. We do not expect to get the same exact value for the statistic for each sample!
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4 Definitions Parameter: A number that describes the population of interest. Rarely do we know its value, because we do not (typically) have all values of all individuals from a population. We use µ and σ for the mean and standard deviation of a population. P and σ p for proportions. Statistic: A number that describes a sample. We often use a statistic to estimate an unknown parameter. We use x-bar and s for the mean and standard deviation of a sample. P-hat and σ p-hat for proportions.
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5 Sampling Distribution The sampling distribution answers the question, “What would happen if we repeated the sample or experiment many times?” Formal statistical inference is based on the sampling distribution of statistics.
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6 Inference Inference is the statistical process by which we use information collected from a sample to infer something about the population of interest. Two main types of inference: Interval estimation (Section 9.1) Tests of significance (Section 9.2)
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7 Constructing Confidence Intervals Back to the thumbtack activity … Interpretation of 95% C.I.: If the sampling distribution is approximately normal, then the 68-95-99.7 rule tells us that about 95% of all p-hat values will be within two standard deviations of p (upon repeated samplings). If p-hat is within two standard deviations of p, then p is within two standard deviations of p-hat. So about 95% of the time, the confidence interval will contain the true population parameter p.
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8 Internet Demonstration, C.I. http://bcs.whfreeman.com/yates/pages/bcs- main.asp?s=00020&n=99000&i=99020.01&v=category&o=&ns =0&uid=0&rau=0 http://bcs.whfreeman.com/yates/pages/bcs- main.asp?s=00020&n=99000&i=99020.01&v=category&o=&ns =0&uid=0&rau=0
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9 Interpretation of 95% CI (Commit to memory!) 95% of all confidence intervals constructed in the same manner will contain the true population parameter. 5% of the time they will not.
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11 p. 492
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13 Finding a 95% C.I.
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14 Practice See example 9.3, p. 495 Exercises 9.1-9.4, p. 495
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15 Creating the C.I. Estimate +/- Margin of error
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16 Another practice problem 9.5, p. 496
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17 p. 496
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18 Finding a confidence interval, general form
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19 Figure 9.5, p. 502
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21 Practice 9.9 and 9.10, p. 505
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22 Confidence intervals with the calculator
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23 9.2 Significance Testing An evolutionary psychologist at Harvard University claims that 80% (p=0.80) of American adults believes in the theory of evolution. To test his claim, he takes an SRS of 1,120 adults. Here are the results: 851 said “Yes” when asked, “Do you believe in the theory of evolution?” What is the proportion who said yes? Is this enough evidence to say that the proportion of adults who do not believe in the theory of evolution is different from 0.80?
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24 Example, cont. This requires a significance test: Hypotheses: Ho: p=0.80 Ha: p≠0.80 Let’s use our calculators to conduct the appropriate test: 5: 1-prop ztest
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25 Example Results P-value
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26 p. 516
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27 Hypotheses Alternate hypothesis H a: Can be one-sided (H a : p> some number or p< some number) or two-sided (H a : p≠ some number)
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28 HW 9.24-9.26, p. 521 Reading: pp. 509-525
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29 p. 519
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30 Sampling Applet http://www.ruf.rice.edu/~lane/stat_sim /sampling_dist/ http://www.ruf.rice.edu/~lane/stat_sim /sampling_dist/
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