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December 12, 2011 Lesson #21: Describing Numbers with the Mean & Standard Deviation.

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Presentation on theme: "December 12, 2011 Lesson #21: Describing Numbers with the Mean & Standard Deviation."— Presentation transcript:

1 December 12, 2011 Lesson #21: Describing Numbers with the Mean & Standard Deviation

2 Some Terminology 1.Mean – the average of the data. Will be shown by the symbol x (pronounced x- bar). 2.Deviation – the distance a number is from the mean.

3 Some Terminology 3.Standard Deviation – the average of all the deviations for the data set. Will be shown by the symbol “s”. 4.∑ = the symbol which represents summation. When you see this, you add up all of the numbers which are part of its problem.

4 How to find the Standard Deviation The following ten numbers represent grade point averages: 2.0 3.2 1.8 2.9 3.6 0.9 4.0 3.3 2.9 0.8 Step 1: Find the mean of the data. X – Bar = (2.0 + 3.2 + 1.8 + 2.9 + 3.6 + 0.9 + 4.0 + 3.3 + 2.9 + 0.8) / 10 X – Bar = 2.54

5 Step 2 – Find each deviation X minus X-Bar X minus X-Bar (Deviation) -0.54 0.66 -0.74 0.36 -1.64 1.46 0.76 0.36 1.06 -1.74 X (the data)X – Bar 2.02.54 3.22.54 1.82.54 2.92.54 0.92.54 4.02.54 3.32.54 2.92.54 3.62.54 0.82.54

6 Step 3 – Square the Deviations and Find their Sum X minus X-Bar (Deviation) -0.54 0.66 -0.74 0.36 -1.64 1.46 0.76 0.36 1.06 -1.74 X (the data) X – Bar 2.02.54 3.22.54 1.82.54 2.92.54 0.92.54 4.02.54 3.32.54 2.92.54 3.62.54 0.82.54 (X minus X-Bar) Squared 0.2916 0.4356 0.5476 0.1296 2.6896 2.1316 0.5776 0.1296 1.1236 3.0276 ∑(x-xbar)² = 11.084

7 Step 4 – Find the Variance Step 5 – Find the Standard Deviation Step 4 – Find the Variance Divide the value from step 3 by the number in the data set minus 1 (n-1) 11.084 / 9 ≈ 1.2316 Step 5 – Find the Standard Deviation Take the square root of the Variance √1.2316 ≈ 1.11

8 What this means The average distance all the numbers are from the mean is 1.11 units (grade points in this instance). When we get to Chapter 5 and are introduced to the Empirical Rule, we will discuss how Standard Deviation tells us how much of the data will lie within 68% of the mean, 95% of the mean, and 99.7% of the mean. This information will describe to you how “good” your data is (in these terms, how much “better” was your GPA in relation to your peers?)

9 Now, More about Standard Deviation The standard deviation describes the spread of the data. If s = 0, there is no spread (the data is all the same). The larger the value of s, the more wide spread the data. Standard deviation works best with a symmetric graph. When you describe a symmetric graph, use the mean as the center and standard deviation as the spread.

10 What if it’s not a Symmetric Graph? When you have a skewed graph, there are likely to be outliers. The standard deviation value will also be skewed as a result (much bigger than it should be). With a skewed graph, quartiles and the median are less affected, so it is best to use a 5 number summary to describe the data.

11 Homework #20 Worksheet to be handed out Don’t forget…You have a quiz tomorrow on the 5 number summary, outliers, and the box plot.


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