Lesson 12More About Sampling Variability
Learning Goal
Let’s compare samples from the same population.
Learning Targets
I can use the means from many samples to judge how accurate an estimate for the population mean is.
I know that as the sample size gets bigger, the sample mean is more likely to be close to the population mean.
Lesson Terms
- interquartile range (IQR)
- proportion
Warm Up: Average Reactions
Problem 1
The other day, you worked with the reaction times of twelfth graders to see if they were fast enough to help out at the track meet. Look back at the sample you collected.
Calculate the mean reaction time for your sample.
Did you and your partner get the same sample mean? Explain why or why not.
Activity 1: Reaction Population
Your teacher will display a blank dot plot.
Problem 1
Plot your sample mean from the previous activity on your teacher’s dot plot.
Problem 2
What do you notice about the distribution of the sample means from the class?
Where is the center?
Is there a lot of variability?
Is it approximately symmetric?
Problem 3
The population mean is 0.442 seconds. How does this value compare to the sample means from the class?
Pause here so your teacher can display a dot plot of the population of reaction times.
Problem 4
What do you notice about the distribution of the population?
Where is the center?
Is there a lot of variability?
Is it approximately symmetric?
Problem 5
Compare the two displayed dot plots.
Problem 6
Based on the distribution of sample means from the class, do you think the mean of a random sample of 20 items is likely to be:
within 0.01 seconds of the actual population mean?
Explain or show your reasoning.
within 0.1 seconds of the actual population mean?
Explain or show your reasoning.
Activity 2: How Much Do You Trust the Answer?
The other day you worked with 2 different samples of viewers from each of 3 different television shows. Each sample included 10 viewers. Here are the mean ages for 100 different samples of viewers from each show.
Problem 1
For each show, use the dot plot to estimate the population mean.
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Problem 2
For each show, are most of the sample means within 1 year of your estimated population mean?
Problem 3
Suppose you take a new random sample of 10 viewers for each of the 3 shows. Which show do you expect to have the new sample mean closest to the population mean? Explain or show your reasoning.
Are you ready for more?
Problem 1
Market research shows that advertisements for retirement plans appeal to people between the ages of 40 and 55. Younger people are usually not interested and older people often already have a plan. Is it a good idea to advertise retirement plans during any of these three shows? Explain your reasoning.
Lesson Summary
This dot plot shows the weights, in grams, of 18 cookies. The triangle indicates the mean weight, which is 11.6 grams.
This dot plot shows the means of 20 samples of 5 cookies, selected at random. Again, the triangle shows the mean for the population of cookies. Notice that most of the sample means are fairly close to the mean of the entire population.
This dot plot shows the means of 20 samples of 10 cookies, selected at random. Notice that the means for these samples are even closer to the mean for the entire population.
In general, as the sample size gets bigger, the mean of a sample is more likely to be closer to the mean of the population.