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# 5.5: Median of Large Sets of Data

Difficulty Level: Basic Created by: CK-12
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Practice Median of Large Sets of Data
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Suppose you have a database of 1,200 songs and you want the find the median time it takes for a song to play. Can you see why it might not be practical to do the calculations by hand?

### Watch This

First watch this video to learn about finding the median of large sets of data using your calculator.

Then watch this video to see some examples.

### Guidance

Often, the number of data values is quite large, and the task of organizing the data can take a great deal of time. To help organize data, the TI-83 calculator can be used. The following examples will show you how to use the calculator to organize data and find the median for the data values.

#### Example A

The local police department spent the holiday weekend ticketing drivers who were speeding. 50 locations within the state were targeted as being ideal spots for drivers to exceed the posted speed limit. The number of tickets issued during the weekend in each of the locations is shown in the following table. What is the median number of speeding tickets issued? Use your TI calculator to find the answer.

\begin{align*}& 32 \quad 12 \quad 15 \quad 8 \quad \ 16 \quad 42 \ \quad 9 \quad \ 18 \quad 11 \quad 10\\ & 24 \quad 18 \quad 6 \quad \ 17 \quad 21 \quad 41 \quad \ 3 \ \quad \ 5 \quad \ 35 \quad 27\\ & 13 \quad 26 \quad 16 \quad 28 \quad 31 \quad 3 \quad \ \ 7 \quad \ 37 \quad 10 \quad 19\\ & 23 \quad 33 \quad 7 \quad \ 25 \quad 36 \quad 40 \quad \ 15 \quad 21 \quad 38 \quad 46\\ & 17 \quad 37 \quad 9 \quad \ \ 2 \quad 33 \quad \ 41 \quad \ 23 \quad 29 \quad 19 \quad 40\end{align*}

Using the TI-83 calculator:

Step 1:

Step 2:

The numbers that you entered into L1 are now sorted from smallest to largest.

Step 3:

You can now scroll down the list to reveal the ordered numbers.

There are 50 data values in the table. The median will be the mean of the number before the \begin{align*}\frac{n+1}{2}\end{align*} position and the number after the \begin{align*}\frac{n+1}{2}\end{align*} position: \begin{align*}\frac{n+1}{2}=\frac{50+1}{2}=\frac{51}{2}=25.5\end{align*}. The number before the 25.5 position is 19, and the number after the 25.5 position is 21. This means that the median is \begin{align*}\frac{19+21}{2}=\frac{40}{2}=20\end{align*}.

\begin{align*}& \ 2 \quad \ 3 \ \quad 3 \ \ \quad 5 \quad \ 6 \qquad 7 \quad \ \ 7 \quad \ 8 \quad \ \ 9 \quad \ \ 9\\ & 10 \quad 10 \quad 11 \quad 12 \quad 13 \quad \ 15 \ \quad 15 \quad 16 \quad 16 \quad 17\\ & 17 \quad 18 \quad 18 \quad 19 \quad \boxed{19 \quad 21} \quad 21 \quad 23 \quad 23 \quad 24\\ & 25 \quad 26 \quad 27 \quad 28 \quad 29 \quad \ \ 31 \quad 32 \quad 33 \quad 33 \quad 35\\ & 36 \quad 37 \quad 37 \quad 38 \quad 40 \quad \ \ 40 \quad 41 \quad 41 \quad 42 \quad 46\end{align*}

#### Example B

Calculate the median in Example A without sorting the data.

The following are 2 ways that you can use the TI-83 to determine the median of the values without sorting the data.

Method One:

All of the data values have been entered into L1. The median of the data values can now be determined by using the TI-83 as follows:

Med = 20 indicates that the median of the data values in L1 is 20.

Method Two:

Above the 0 key is the word CATALOG, and this function acts like the yellow pages of a telephone book. When you press \begin{align*}\boxed{\text{2ND}}\end{align*} \begin{align*}\boxed{\text{0}}\end{align*} to access the CATALOG menu, an alphabetical list of terms appears. You can either scroll down to the word median (this will take a long time) or press the blue \begin{align*}\div\end{align*} to access all terms beginning with the letter ‘m’.

Again, the median of the values in L1 is 20.

Whichever method you use, the result will be same. Using technology will save you time when you are determining the median of a set of data values.

#### Example C

The following data values represent the numbers of chocolate bars sold by students during a recent fundraising campaign. What was the median number of chocolate bars sold? Use your TI calculator to find the answer.

Number of Bars Number of Students
11 6
12 8
13 5
14 13
15 17
16 15

When a set of data values is given in the form of a frequency table, technology is often used to determine the median. Using the TI-83 calculator:

Notice that in this example, each of the individual data values was entered into LI to calculate the median.

### Guided Practice

Calculate the median for the data in Example C by entering the frequency table and not each of the individual data values into your calculator. The data is shown again below:

Number of Bars Number of Students
11 6
12 8
13 5
14 13
15 17
16 15

First, the frequency table can be entered into L1 and L2 as follows:

Next, press \begin{align*}\boxed{\text{2ND}}\end{align*} \begin{align*}\boxed{\text{MODE}}\end{align*} to go back to the main screen, and then press \begin{align*}\boxed{\text{2ND}}\end{align*} \begin{align*}\boxed{\text{STAT}}\end{align*} and go to the MATH menu:

Choose median by pressing \begin{align*}\boxed{\text{4}}\end{align*} or by using the down arrow and pressing \begin{align*}\boxed{\text{ENTER}}\end{align*}, and then enter L1 and L2 separated by a comma and close the parentheses so that you have median(L1, L2):

Finally, press \begin{align*}\boxed{\text{ENTER}}\end{align*} to calculate the answer:

### Practice

1. A minor hockey league has 50 active players who range in age from 10 years to 15 years. The following table shows the ages of the players:
Age of Players(yrs) Number of Players
10 6
11 8
12 7
13 11
14 10
15 8

Use your TI calculator to determine the median age of the players.

1. A die was thrown 14 times, and the results of each throw are shown: What is the median score for the 14 rolls of the die? Use your TI calculator to find the answer.
2. At a local golf club, 100 players competed in a 1-day tournament. The fifth hole of the course is a par 6. The scores of each player on this hole were recorded, and the results are shown below: \begin{align*}&\text{Score} && 2 \quad 3 \quad 4 \quad \ \ 5 \quad \ 6 \quad \ 7 \quad \ 8\\ &\text{Number of Players} && 3 \quad 8 \quad 22 \quad 29 \quad 20 \quad 8 \quad 10\end{align*} Use your TI calculator to find the median score for the players.
3. A math teacher at a local high school begins every class with a warm-up quiz based on the work presented the previous day. Each test consists of 6 questions valued at 1 point for each correct answer. The results of Monday’s quiz for the 40 students in the class are shown below: \begin{align*}&\text{Mark} && 0 \quad 1 \quad 2 \quad 3 \quad \ 4 \quad 5 \quad 6\\ & \text{Number of Students} && 2 \quad 6 \quad 7 \quad 10 \quad 5 \quad 3 \quad 7\end{align*} What is the median score for Monday’s quiz? Use your TI calculator to find the answer.
4. In Canada, with the loonie and the toonie, you could have a lot of coins in your pocket. A number of high school students were asked how many coins they had in their pocket, and the results are shown in the following table: \begin{align*}&\text{Number of Coins} && 0 \quad 1 \quad 2 \quad 3 \quad 4 \quad 5 \quad 6 \quad 7\\ &\text{Number of Students} && 2 \quad 5 \quad 8 \quad 9 \quad 6 \quad 4 \quad 9 \quad 7\end{align*} Use your TI calculator to find the median number of coins that a student had in his or her pocket.
5. A group of 12 students participated in a local dirt bike race that required them to cover a 1-mile course in the fastest time possible. The times, in minutes, of the 12 participants are shown below: \begin{align*}&3.5 \ \text{min} \quad 4.2 \ \text{min} \quad 3.1 \ \text{min} \quad 5.3 \ \text{min} \quad 6.2 \ \text{min} \quad 4.6 \ \text{min}\\ &5.1 \ \text{min} \quad 6.7 \ \text{min} \quad 5.4 \ \text{min} \quad 4.4 \ \text{min} \quad 3.9 \ \text{min} \quad 5.0 \ \text{min}\end{align*} What is the median time of the participants in the race? Use your TI calculator to find the answer.

For the data in each of the following frequency tables, find the median. All of the data is shown in each of the screenshots.

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