Daily Reading from group sms2 to group sms1

Standard Deviation

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Getting Started	General Instructions \| Introduction to Your Study \| Experimental Design \| Stating a Hypothesis
Descriptive Statistics	Histograms \| Central Tendency \| Standard Deviation \| Confidence Intervals
Comparing Two Samples	Samples and Populations \| Choosing a T-Test \| Independent T-Test \| P-Values and T-Tables
Important Concepts	The Normal Distribution \| Z Scores \| Probability Distributions
Levels	You are currently on Standard Deviation at level 1. Level 1 \| Level 2 \| Level 3
Next Topic	Central Tendency \| Confidence Intervals

Explanation

The average of your data summarises it all in a single value. That certainly throws away a lot of information. If you were to know one more thing about the data, after the average, what would be the most useful thing? The range (largest and smallest) might be useful, but there is a different measure that is even better - the standard deviation.

The standard deviation measures how much the data varies:

A large number means the data varies a lot
A small number means the data varies a little
A standard deviation of zero indicates that all the values in the data are identical

For example, the standard deviation of temperature in Florida is less than it is in New York.

The standard deviation tells you something more about the average too, as it measures variation in terms of how far from the mean all the values in the sample fall. Values are further from the mean on average when standard deviation is large than they are when it is small.

The symbol for the standard deviation is of a sample of data is s.

Exploration

Use the game on the left to explore how standard deviation works. Imagine you are an archer - your target is shown on the screen. You are quite good and you hit the centre more often than not, so that is your average. To know whether you are better than somebody else whose average is also the centre, you need to know the standard deviation of your shots.

The target shows where your shots have landed and the standard deviation of your shots is shown above the target. Click anywhere on the left of the screen to reduce your standard deviation and click anywhere on the right to increase it (you will need repeated clicks to see much of a change).

What is the relationship between the standard deviation (s) and how spread out your shots are?
How could you move the shots in towards the average (the centre)?
Are the shots more spread out when standard deviation is large or small?
Would the better archer have a larger or smaller standard deviation?

( You need to enable Java to see this applet. )

You can see now why standard deviation is more useful than range. If you had one bad shot and hit the very edge of the target, the range of your shots would be from that point, no matter how close the rest of your shots are. Standard deviation takes into account how far apart all the values are from each other, not just the distance between the extremes.

Application

The standard deviation for dailyreading when smstreatment is sms2 is 1.28
The standard deviation for dailyreading when smstreatment is sms1 is 1.1

Which sample has the most variation between its values?

Central Tendency | Confidence Intervals