- Definition
- How do I calculate it?
- TI89 Instructions
- How Much Can Data Vary?
- Variance of a Binomial Distribution
- Population Variance
- Sample Variance
- Variance on a TI-83

## Definition

Variance measures how far a data set is spread out. The technical definition is *“The average of the squared differences from the mean,”* but all it really does is to give you a very **general idea of the spread of your data**. A value of zero means that there is no variability; All the numbers in the data set are the same.

- The data set 12, 12, 12, 12, 12 has a var. of zero (the numbers are identical).
- The data set 12, 12, 12, 12,
**13**has a var. of 0.167; a small change in the numbers equals a very small var. - The data set 12, 12, 12, 12,
**13,013**has a var. of 28171000; a large change in the numbers equals a very large number.

While performing variance and standard deviation calculations by hand can be time consuming and tedious, the TI-89 can help you perform these calculations in seconds. **Finding a variance** on a TI-89 is as simple as entering a few numbers and hitting a couple of keys. These instructions are for the TI-89 Titanium or the regular TI-89.

## Variance TI-89: Steps

Watch the video or read the article below:

**Example problem:** Find the Variance for the following data set: 2, 4, 5, 6, 8, 10, 15, 23.

**Step 1:** Press the HOME key. The home key is on the left hand side, third button from the top.

**Step 2:** Press the CATALOG key

It’s located below the APPS key in the top middle of your keypad.

**Step 3:** Press the down arrow key to scroll to **variance(**. Press the ENTER key.

*A quicker way*: once you get into the catalog, type the letter v (using the ALPHA key) to take you to the beginning of the v list.

**Step 4:** Press the 2ND key and then the open parenthesis key “(“. If you did this correctly, you should have a curly bracket. The following should now be showing on your screen:

**variance({**

**Step 5:** Enter your data set. Each number should be followed by a comma.

In our example, enter:

2, 4, 5, 6, 8, 10, 15, 23.

So you get: **variance({2,4,5,6,8,10,15,23**

**Step 6:** Press, the 2ND button, then the close parenthesis button twice. These keystrokes close the expression so you have:

**variance({2,4,5,6,8,10,15,23})**. (**Important!** Your expression must look exactly like this, with both sets of parentheses and curly parentheses.)

**Step 7:** Press ENTER.

**Step 8:** Press The diamond (♦) key and then press ENTER to get a decimal answer if the calculator gives you a radical or fractional expression (and it probably will).

That’s how to find variance TI-89! The variance for the data set {2,4,5,6,8,10,15,23} is displayed, which is **47.5536**.

Lost your guidebook? You can download a new one from the TI website here.

## How Much Can Data Vary?

The smallest a variance gets is zero, but technically, it can be **infinite **with numbers in the millions or even billions and beyond.

## How do I calculate it?

The variance for a **population** is calculated by:

- Finding the mean(the average).
- Subtracting the mean from each number in the data set and then squaring the result. The results are squared to make the negatives positive. Otherwise negative numbers would cancel out the positives in the next step. It’s the distance from the mean that’s important, not positive or negative numbers.
- Averaging the squared differences.

However, it’s more usual in statistics to find the variance for a **sample**. When you calculate it for a sample, divide by the sample size minus one (*Why use n-1?*) when calculating the average squared difference in Step 3 above. See: Finding Sample Variance.

Use our online var. and standard deviation calculator, which shows you the **step-by-step calculations for your individual data set.** You can also calculate the σ^{2} in Minitab.

### Standard Deviation

The square root of the variance is the standard deviation. While var. gives you a rough idea of spread, the standard deviation is more concrete, giving you exact distances from the mean.

## Variance of a Binomial Distribution

A binomial distribution is a simple experiment where there is “success” or “failure.” For example, choosing a winning lottery ticket could be a binomial experiment (you either win or lose!). Tossing a coin to try and get heads is also binomial (with tossing a heads being a “success” and a tails a “failure”). The formula for the variance of binomial distribution is **n*p (1-p) or n*p*q.** The two formulas are equivalent because q = (1-p).

**Sample problem:**If you flip a coin 50 times and try to get heads, what is the variance of binomial distribution?

Step 1: Find “p”. The first step to solving this problem is to realize that the probability of getting a heads is 50 percent, or .5. Therefore, “p” (the probability) is .5.

Step 2: Find “q”, or 1-p. These two are equivalent. They are the probability of *not* getting a heads (in other words, the probability of getting a tails). 1 – 0.5 = 0.5. Therefore, “q” (or 1 – p) = 0.5.

Step 3: Multiply Step 1 (p) by Step 2 (q) by “n” (the number of trials). We are flipping the coin 50 times, so the number of trials is 50 (n = 50).

N * p * q = 50 * .5 * .5 = 12.5.

The var. of binomial distribution for flipping a coin 50 times is 12.5.

**OK, So what does the Binomial Variance mean?**

In essence, not a lot! The variance isn’t used for much at all, except for calculating standard deviation. For example, the standard deviation for this particular binomial distribution is:

√12.5 = 3.54.

You’ll use the variance for things like calculating z-scores (this typically comes later in a stats class, after normal distributions), which has a standard deviation in the bottom of the formula:

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## Population Variance

The population variance is a type of **parameter**. If you aren’t sure what a parameter is, you may want to review:

What is the Difference Between a Statistic and a Parameter?

The formula is:

Watch the video to learn how to find the population variance or read the steps below:

## How to find the Population Variance.

Most of the time in statistics, you’ll want to find the sample variance, not the population variance. Why? Because statistics is usually all about making inferences from samples, not populations. If you had all of the data from a population, there would be no need for statistics at all! That said, there really is very little difference between the formula for the population variance and the formula for the sample variance. If you have sample data, you can still use this formula. You’d just need to insert your data into the columns instead of your population data. If you prefer to plug the numbers straight into the formula, just make sure you use the population mean and not the sample mean(). In addition, the most common sample variance formula uses n-1 in the denominator instead of n.

**Sample problem:** Find the population variance for the following set of numbers: 28, 29, 30, 31, 32.

Step 1: Draw a table. Label the columns as shown and then write down your X values (the items in your population) in column 1:

X | X-μ | (X-μ)^2 |

28 | ||

29 | ||

30 | ||

31 | ||

32 |

Step 2: Find the mean. The mean for this set of data is (28 + 29 + 30 + 31 + 32) / 5 = 30.

Step 3: Fill in column 2. This column is your X value minus the mean. For example, the first entry is 28 – 30 = -2.

X | X-μ | (X-μ)^2 |

28 | -2 | |

29 | -1 | |

30 | 0 | |

31 | 1 | |

32 | 2 |

Step 4: Square the values from Step 3 and place those squares in the third column:

X | X-μ | (X-μ)^2 |

28 | -2 | 4 |

29 | -1 | 1 |

30 | 0 | 0 |

31 | 1 | 1 |

32 | 2 | 4 |

Step 5: Add up all of the numbers in column 3 (this is the summation Σ part of the formula):

4 + 1 + 0 + 1 + 4 = 10

Step 6: Divide by the number of items in your data set:

10 / 5 = 2

The population variance for this set of data is 2.

## Variance on a TI-83

Watch the video or read the article below:

## Variance on a TI-83 Overview

You could find the standard deviation for a list of data using the TI 83 calculator and square the result, but you won’t get an accurate answer unless you square the entire answer, including *all* of the significant digits. There’s a “trick” to getting the TI-83 variance, and it involves copying the standard deviation to the Home screen and then squaring it to get the variance.

## Variance on a TI-83: Steps

**Sample problem:** Find the variance for the heights of the top 12 buildings in London, England. The heights, (in feet) are: 800, 720, 655, 655, 625, 600, 590, 529, 513, 502, 502, 502.

**Step 1:** Enter the above data into a list. Press the STAT button and then press ENTER. Enter the first number (800), and then press ENTER. Continue entering numbers, pressing ENTER after each entry.

**Step 2:** Press STAT.

**Step 3:** Press the right arrow button (the arrow keys are located at the top right of the keypad) to select **Calc**.

**Step 4:** Press ENTER to highlight **1-Var Stats**.

**Step 5:** Press ENTER again to bring up a list of stats.

**Step 6:** Press VARS 5 to bring up a list of the available Statistics variables.

**Step 7:** Press 3 to select “Sx” which is our standard deviation.

**Step 8:** Press x^{2}, then Enter to display the variance, which is **9326.628788**.

*That’s how to find the Variance on a TI-83!
*

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