7.2 Confidence Intervals for the Mean When Is Unknown · 25.01.2013 · Bluman, Chapter 7 7.2...
Transcript of 7.2 Confidence Intervals for the Mean When Is Unknown · 25.01.2013 · Bluman, Chapter 7 7.2...
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for are used in confidence intervals in order to keep the interval at a given level, such as the 95%.
These values are taken from the Student t distribution, most often called the t distribution.
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for are used in confidence intervals in order to keep the interval at a given level, such as the 95%.
These values are taken from the Student t distribution, most often called the t distribution.
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for are used in confidence intervals in order to keep the interval at a given level, such as the 95%.
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for are used in confidence intervals in order to keep the interval at a given level, such as the 95%.
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1Friday, January 25, 13
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Bluman, Chapter 7
7.2 Confidence Intervals for the Mean When σ Is Unknown
The value of σ, when it is not known, must be estimated by using s, the standard deviation of the sample.
When s is used, especially when the sample size is small (less than 30), critical values greater than the values for are used in confidence intervals in order to keep the interval at a given level, such as the 95%.
These values are taken from the Student t distribution, most often called the t distribution.
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Bluman, Chapter 7
Characteristics of the t Distribution
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Bluman, Chapter 7
Characteristics of the t DistributionThe t distribution is similar to the standard normal distribution in these ways:
1. It is bell-shaped.2. It is symmetric about the mean.3. The mean, median, and mode are equal to 0
and are located at the center of the distribution.
4. The curve never touches the x axis.
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Bluman, Chapter 7
Characteristics of the t Distribution
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Bluman, Chapter 7
Characteristics of the t DistributionThe t distribution differs from the standard normal distribution in the following ways:
1. The variance is greater than 1.2. The t distribution is actually a family of
curves based on the concept of degrees of freedom, which is related to sample size.
3. As the sample size increases, the t distribution approaches the standard normal distribution.
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Bluman, Chapter 7
Degrees of Freedom The symbol d.f. will be used for degrees of
freedom.
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Bluman, Chapter 7
Degrees of Freedom The symbol d.f. will be used for degrees of
freedom. The degrees of freedom for a confidence
interval for the mean are found by subtracting 1 from the sample size. That is, d.f. = n - 1.
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Bluman, Chapter 7
Degrees of Freedom The symbol d.f. will be used for degrees of
freedom. The degrees of freedom for a confidence
interval for the mean are found by subtracting 1 from the sample size. That is, d.f. = n - 1.
Note: For some statistical tests used later in this book, the degrees of freedom are not equal to n - 1.
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Bluman, Chapter 7
The degrees of freedom are n - 1.
Formula for a Specific Confidence Interval for the Mean When σ IsUnknown and n < 30
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Bluman, Chapter 7
Chapter 7Confidence Intervals and Sample Size
Section 7-2Example 7-5Page #371
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Bluman, Chapter 7
Example 7-5: Using Table F
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Bluman, Chapter 7
Find the tα/2 value for a 95% confidence interval when the sample size is 22.
Degrees of freedom are d.f. = 21.
Example 7-5: Using Table F
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Bluman, Chapter 7
Find the tα/2 value for a 95% confidence interval when the sample size is 22.
Degrees of freedom are d.f. = 21.
Example 7-5: Using Table F
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Bluman, Chapter 7
Chapter 7Confidence Intervals and Sample Size
Section 7-2Example 7-6Page #372
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Bluman, Chapter 7
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Ten randomly selected people were asked how long they slept at night. The mean time was 7.1 hours, and the standard deviation was 0.78 hour. Find the 95% confidence interval of the mean time. Assume the variable is normally distributed.
Since σ is unknown and s must replace it, the t distribution (Table F) must be used for the confidence interval. Hence, with 9 degrees of freedom, tα/2 = 2.262.
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Ten randomly selected people were asked how long they slept at night. The mean time was 7.1 hours, and the standard deviation was 0.78 hour. Find the 95% confidence interval of the mean time. Assume the variable is normally distributed.
Since σ is unknown and s must replace it, the t distribution (Table F) must be used for the confidence interval. Hence, with 9 degrees of freedom, tα/2 = 2.262.
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Ten randomly selected people were asked how long they slept at night. The mean time was 7.1 hours, and the standard deviation was 0.78 hour. Find the 95% confidence interval of the mean time. Assume the variable is normally distributed.
Since σ is unknown and s must replace it, the t distribution (Table F) must be used for the confidence interval. Hence, with 9 degrees of freedom, tα/2 = 2.262.
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Example 7-6: Sleeping Time
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Bluman, Chapter 7
One can be 95% confident that the population mean is between 6.5 and 7.7 inches.
Example 7-6: Sleeping Time
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Bluman, Chapter 7
Chapter 7Confidence Intervals and Sample Size
Section 7-2Example 7-7Page #372
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Bluman, Chapter 7
The data represent a sample of the number of home fires started by candles for the past several years. Find the 99% confidence interval for the mean number of home fires started by candles each year.
5460 5900 6090 6310 7160 8440 9930
Step 1: Find the mean and standard deviation. The mean is = 7041.4 and standard deviation s = 1610.3.
Step 2: Find tα/2 in Table F. The confidence level is 99%, and the degrees of freedom d.f. = 6t .005 = 3.707.
Example 7-7: Home Fires by Candles
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Bluman, Chapter 7
The data represent a sample of the number of home fires started by candles for the past several years. Find the 99% confidence interval for the mean number of home fires started by candles each year.
5460 5900 6090 6310 7160 8440 9930
Step 1: Find the mean and standard deviation. The mean is = 7041.4 and standard deviation s = 1610.3.
Step 2: Find tα/2 in Table F. The confidence level is 99%, and the degrees of freedom d.f. = 6t .005 = 3.707.
Example 7-7: Home Fires by Candles
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Bluman, Chapter 7
The data represent a sample of the number of home fires started by candles for the past several years. Find the 99% confidence interval for the mean number of home fires started by candles each year.
5460 5900 6090 6310 7160 8440 9930
Step 1: Find the mean and standard deviation. The mean is = 7041.4 and standard deviation s = 1610.3.
Example 7-7: Home Fires by Candles
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Bluman, Chapter 7
The data represent a sample of the number of home fires started by candles for the past several years. Find the 99% confidence interval for the mean number of home fires started by candles each year.
5460 5900 6090 6310 7160 8440 9930
Step 1: Find the mean and standard deviation. The mean is = 7041.4 and standard deviation s = 1610.3.
Step 2: Find tα/2 in Table F. The confidence level is 99%, and the degrees of freedom d.f. = 6
Example 7-7: Home Fires by Candles
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Bluman, Chapter 7
The data represent a sample of the number of home fires started by candles for the past several years. Find the 99% confidence interval for the mean number of home fires started by candles each year.
5460 5900 6090 6310 7160 8440 9930
Step 1: Find the mean and standard deviation. The mean is = 7041.4 and standard deviation s = 1610.3.
Step 2: Find tα/2 in Table F. The confidence level is 99%, and the degrees of freedom d.f. = 6t .005 = 3.707.
Example 7-7: Home Fires by Candles
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Bluman, Chapter 7
Example 7-7: Home Fires by Candles
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Step 3: Substitute in the formula.
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Bluman, Chapter 7
Example 7-7: Home Fires by Candles
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Step 3: Substitute in the formula.
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Bluman, Chapter 7
Example 7-7: Home Fires by Candles
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Step 3: Substitute in the formula.
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Bluman, Chapter 7
Example 7-7: Home Fires by Candles
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Step 3: Substitute in the formula.
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Bluman, Chapter 7
Example 7-7: Home Fires by Candles
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Step 3: Substitute in the formula.
One can be 99% confident that the population mean number of home fires started by candles each year is between 4785.2 and 9297.6, based on a sample of home fires occurring over a period of 7 years.
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Bluman, Chapter 7
Homework
Sec 7.2 Page 374 #1-4 all and 5-19 every other odds
Optional: if you have a TI 83 or 84 calc see page 376
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