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Unit 7 Statistical Inference - 1 Estimation FPP Chapters 21,23, 26-29

Point Estimation Margin of Error Interval Estimation - Confidence Intervals Sample Size Computations Next: Statistical Tests of Hypotheses -Hypothesis Testing. Unit 7 Statistical Inference - 1 Estimation FPP Chapters 21,23, 26-29. A.05. Box models :

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Unit 7 Statistical Inference - 1 Estimation FPP Chapters 21,23, 26-29

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  1. Point Estimation Margin of Error Interval Estimation - Confidence Intervals Sample Size Computations Next: Statistical Tests of Hypotheses -Hypothesis Testing Unit 7Statistical Inference - 1EstimationFPP Chapters 21,23, 26-29 A.05

  2. Box models: If we know what goes in the box, then we can say how likely various outcomes are. In practice, we do not know what is in the box. We do not know the population parameters. Instead we use data to estimate the population parameters, such as average, %, sd, … That is, we infer the population parameters, based on the sample of data. We make INFERENCE from the SAMPLE (data) to the POPULATION. Estimation

  3. A Model for Estimation Sample Value = Parameter Value + (Bias) + Chance Error Thus, Estimate = Parameter Value + (Bias) + Chance Error Size of Chance Errors depends partly upon the sampling procedure ----------------------- Recall: Population Sample Parameter Statistic For now, assume random sampling, 100% response rate, and correct responses.

  4. Point estimate: To estimate the population average (mean) with a single value, use The likely size of your estimation error is Margin of Error = some multiple of SE Ex 1: Margin of error for estimating the population average by the sample average is proportional to SE(avg). Ex 2: Margin of error for estimating the population percent by the sample percent is proportional to SE(percent). Margin of Error

  5. About the poll This poll was conducted for The Seattle Times by Elway Research of Seattle. Pollsters contacted 403 randomly selected adults across the state by telephone April 6-11. The geographic distribution of the respondents was reflective of the population statewide. The poll has a margin of error of 5 percent, meaning that, in theory, results have a 95 percent chance of coming within 5 percentage points of results that would have been obtained had all adults in the state been interviewed. Newspaper Survey Example

  6. Combining Point Estimation & Margin of Error Interval estimate: Rather than give a single estimated value for the parameter, give instead an estimated interval of values. This combines point estimation margin of error Approximate level 68% confidence interval: sample estimate +/- 1 SE(estimate) Approximate level 95% confidence interval: sample estimate +/- 2 SE(estimate) Approximate level ____% confidence interval: sample estimate +/- 2 ___ SE(estimate) Interval Estimation

  7. A confidence interval is used when estimating an unknown parameter from sample data. The interval gives a range for the parameter - and a confidence level that the range covers the true value. The width of the interval depends upon how confident you want to be that your interval includes the population parameter value. Chances are in the sampling procedure, not in the parameter. Confidence Intervals

  8. Course credits Confidence IntervalExample-1

  9. Point estimate: Our group’s point estimate of the population average is: The likely size of our estimation error is: Interval estimate: Our approximate level 68% confidence interval for the population average is: Confidence Intervals- Ex 1

  10. Upper division Confidence IntervalExample- 2

  11. Point estimate: Our group’s point estimate of the population proportion is: The likely size of our estimation error is: Interval estimate: Our approximate level 68% confidence interval for the population proportion is: Confidence Intervals- Ex 2

  12. When estimating a population percentage (i.e. when sampling from a 0-1 box), the fraction of 0’s and 1’s in the box is unknown. The SD of the box can be estimated by substituting the fraction of 0’s and 1’s in the sample for the unknown fractions in the box. The estimate is good when the sample is reasonably *large*. The Bootstrap

  13. 40,000 students enrolled Simple random sample of 900, of whom 630 “grew up in Washington” Want to estimate % UW students who “grew up in WA” Use as estimate: Confidence IntervalExample- 3

  14. The Box Model Confidence Intervals- Ex 3

  15. If we draw another sample of 900 students, what is the chance that the observed sample % is between 65% and 75%? Confidence Intervals- Ex 3

  16. We don’t know what fraction of the population “grew up in WA”. So we estimate it & substitute our estimate into the formulae in place of the actual “true” fraction. The Bootstrap again

  17. . Bootstrapping

  18. An approximate level ____ % confidence level for the percent of UW students who “grew up in Washington” is … Confidence Intervals- Ex 3

  19. Before using this procedure for constructing an approx level ____ % CI, check that the following conditions are met. • simple random sample, • either the population histogram is approximately normal or the sample size is sufficiently large for the Central Limit Theorem to give us approximate normality Assumptions for a Confidence Interval

  20. IF the appropriate conditions are met, & we construct an approximate ____% confidence interval. We can be about ___% confident thatthis interval contains the true population parameter value. Interpreting a Confidence Interval

  21. The CI depends on the sample. The confidence level depends upon the procedure used (multiplier for the SE). For about 95% of all samples, the interval sample ____ +/- 2 SE(____) covers the population _____, and for the other 5% it fails. The chances are in the sampling procedure, not in the parameter. The parameter is a fixed number. Interpreting a Confidence Interval

  22. NO !! NO !! NO !! NO !! NO !! NO !! “There is a 95% chance that the parameter (population %) falls inside my interval, 46% +/ 3%.” NO !! NO !! NO !! NO !! NO !! NO !! No !! NO !! NO !!

  23. Check carefully that the appropriate conditions are met BEFORE applying any statistical procedure - including the construciton of Confidence Intervals. These confidence inteval methods are for simple random samples, and should NOT be used for other kinds of samples ! Warning !

  24. One of these is WRONG and one of these is CORRECT. UW enrollment - % “Washingtonians” ex. Approx level 95% Confidence interval [67%, 73%] “There is a 95% chance that the population % is between 67% and 73%.” “For about 95% of all samples, the interval sample % +/- 2 SE(%) Covers the population percentage. For the other 5% it fails.” Interpreting a Confidence Interval

  25. Because Using the Normal Approximation SE is estimated (unknown) To use these procedures, check good simple reandom sampel If the percentage is near 0% or 100%, then need much larger sample than if the percentage is near 50%. CHECK THESE CONDITIONS !!! Confidence Levels are Approximate

  26. Sample Size Computations

  27. A manufacturing process for bricks is known to give an output whose weights have sd 0.12 pounds, regardless of the mean weight. A random sample of 100 bricks is selected from today’s output. The sample mean is 4.07 pounds. Construct an approximate level 95% confidence interval for the mean weight of today’s brick production. Newb.88.295 Another Confidence Interval Example

  28. A personnel manager knows that historically, the scores on aptitude tests given to candidates for trainee positions have vollowed a normal distribution with SD 28.2. A simple random sample of 30 test scores for the curent year’s applicants was taken and found to have a sample mean of 122.0. Construct an approximate level 95% confidence interval for the mean score for all of this year’s applicants. Newb.8 295 And Another Confidence Interval Example

  29. The cloze readability procedure is designed to measure the effectiveness of a written communication. Research has indicated that a score of 0.57 or more on the cloze test demonstrates adequate understandability of the written material. A random sample of 352 certified public accountants was asked to read financial report messages. The sample mean score was 0,6041 and the sample SD was 0.1128. Construct an approximate level 95% confidence interval for the population mean score. Bootstrap Example

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