Sampling distributions. Example Take random sample of students. Ask “how many courses did you study for this past weekend?” Calculate a statistic, say,

Download Sampling distributions. Example Take random sample of students. Ask “how many courses did you study for this past weekend?” Calculate a statistic, say,

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<ul><li> Slide 1 </li> <li> Sampling distributions </li> <li> Slide 2 </li> <li> Example Take random sample of students. Ask how many courses did you study for this past weekend? Calculate a statistic, say, the sample mean. Sample 1:102 Mean = 1.0 Sample 2:114Mean = 2.0 </li> <li> Slide 3 </li> <li> Situation Different samples produce different results. Value of a statistic, like mean or proportion, depends on the particular sample obtained. But some values may be more likely than others. A sampling distribution is a probability distribution of a statistic. It indicates the likelihood of getting certain values. </li> <li> Slide 4 </li> <li> Sampling distribution of mean IF: data are normally distributed with mean and standard deviation , and random samples of size n are taken, THEN: The sampling distribution of the sample means is also normally distributed. The mean of all of the sample means is . The standard deviation of the sample means (standard error of the mean) is /sqrt(n). </li> <li> Slide 5 </li> <li> Example Adult nose length is normally distributed with mean 45 mm and standard deviation 6 mm. Take random samples of n = 4 adults. Then, sample means are normally distributed with mean 45 mm and standard error 3 mm [from 6/sqrt(4) = 6/2]. </li> <li> Slide 6 </li> <li> Using empirical rule... 68% of samples of n=4 adults will have an average nose length between 42 and 48 mm. 95% of samples of n=4 adults will have an average nose length between 39 and 51 mm. 99% of samples of n=4 adults will have an average nose length between 36 and 54 mm. </li> <li> Slide 7 </li> <li> What happens if we take larger samples? Adult nose length is normally distributed with mean 45 mm and standard deviation 6 mm. Take random samples of n = 36 adults. Then, sample means are normally distributed with mean 45 mm and standard error 1 mm [from 6/sqrt(36) = 6/6]. </li> <li> Slide 8 </li> <li> Again, using empirical rule... 68% of samples of n=36 adults will have an average nose length between 44 and 46 mm. 95% of samples of n=36 adults will have an average nose length between 43 and 47 mm. 99% of samples of n=36 adults will have an average nose length between 42 and 48 mm. So the larger the sample, the less the sample averages vary. </li> <li> Slide 9 </li> <li> What happens if data are not normally distributed? The Central Limit Theorem tells us... </li> <li> Slide 10 </li> <li> Central Limit Theorem Even if data are not normally distributed, as long as you take large enough samples, the sample averages will at least be approximately normally distributed. Mean of sample averages is still . Standard error of sample averages is still /sqrt(n). In general, large enough means more than 30 measurements. </li> <li> Slide 11 </li> <li> Big Deal? Knowing the distribution of sample means allows us to make decisions about the value of a population mean. Lets look at an application </li> </ul>

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