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STA 291 Spring 2008 Lecture 14 Dustin Lueker.

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1 STA 291 Spring 2008 Lecture 14 Dustin Lueker

2 Confidence Interval To calculate the confidence interval, we use the Central Limit Theorem Use this formula if σ is known Also, we need a that is determined by the confidence level Formula for 100(1-α)% confidence interval for μ STA 291 Spring 2008 Lecture 14

3 Confidence Interval To find a confidence interval for μ with σ unknown and n≥30 use the following formula If the sample size is smaller than 30 we will use a different distribution from the normal STA 291 Spring 2008 Lecture 14

4 Interpreting Confidence Intervals
Incorrect statement With 95% probability, the population mean will fall in the interval from 3.5 to 5.2 To avoid the misleading word “probability” we say We are 95% confident that the true population mean will fall between 3.5 and 5.2 STA 291 Spring 2008 Lecture 14

5 Confidence Interval Changing our confidence level will change our confidence interval Increasing our confidence level will increase the length of the confidence interval A confidence level of 100% would require a confidence interval of infinite length Not informative There is a tradeoff between length and accuracy Ideally we would like a short interval with high accuracy (high confidence level) STA 291 Spring 2008 Lecture 14

6 Facts about Confidence Intervals
The width of a confidence interval Increases as the confidence level increases Increases as the error probability decreases Increases as the standard error increases Decreases as the sample size n increases STA 291 Spring 2008 Lecture 14

7 Choice of Sample Size Start with the confidence interval formula that includes the population standard deviation Mathematically we need to solve the above equation for n STA 291 Spring 2008 Lecture 14

8 Example About how large a sample would have been adequate if we merely needed to estimate the mean to within 0.5, with 95% confidence? Assume Note: We will always round the sample size up to ensure that we get within the desired error bound. STA 291 Spring 2008 Lecture 14

9 Confidence Interval for Unknown σ
To account for the extra variability of using the sample standard deviation instead of the population standard deviation and having a sample size of less than 30 the student’s t- distribution is used instead of the normal distribution STA 291 Spring 2008 Lecture 14

10 Finding tα/2 Need to know α and degrees of freedom (df) α=.05, n=23
STA 291 Spring 2008 Lecture 14

11 Example A sample of 12 individuals yields a mean of 5.4 and a variance of 16. Construct a 98% confidence interval for the population mean. STA 291 Spring 2008 Lecture 14

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