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Radian to Degree Measure

Radian-to-degree conversion is a method of converting the measurement of angles in geometry or trigonometry. There are two main units used to measure the degree of anglesradians and degrees. The unit radians is often used because it is a dimensionless quantity. The measure of an angle can be converted from radians to degrees using a formula. First, we need to understand each unit of measurement.

Radians

When you rotate the radius completely around the circle, it completes one rotation. The angle subtended at the center of the circle by the radius after one complete rotation is 2 π radians. The angle in radians subtended by the radius at the center of the circle is the ratio of the length of the arc to the length of the radius. When the length of the arc becomes equal to the length of the radius, the angle subtended at the center becomes one radian. We denote the unit radian as "rad".

Degrees

Angles are measured in degrees. One full revolution is divided into 360 equal parts and each part is called a degree. The symbol for degrees is denoted by "º". When solving certain types of problems, it is preferable to convert the unit of an angle from radians to degrees to understand it better. The instrument used to measure an angle in degrees is a protractor.

Converting radians to degrees

When comparing degree measure and radian measure, remember the equations:

360 ° = 2 π radian

180 ° = π radian

From the latter, we obtain the equation xml 1 radian = 180 π ° . This leads us to the rule to convert radian measure to degree measure. To convert from radians to degrees, multiply the radians by 180 ° π .

Example 1

Convert π 4 radians to degrees.

( π 4 rad ) ( 180 ° π ) = ( 180 4 ° ) = 45 °

Example 2

Convert 9 π 5 radians to degrees.

( 9 π 5 rad ) ( 180 ° π ) = 9 ( 36 ) ° = 324 °

Example 3

Convert 3 radians to degrees.

( 3 rad ) ( 180 π ° ) = ( 540 π ° ) 171.89 °

Topics related to the Radian to Degree Measure

Degree to Radian Measure

Degree Measure of an Angle

Expected Value

Flashcards covering the Radian to Degree Measure

Trigonometry Flashcards

CLEP Precalculus Flashcards

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Get help learning about radian to degree measure

Learning how to convert radian measure to degree measure can be confusing to some students. If your student needs help mastering this topic, set them up with a professional tutor who is an expert in math. A private tutor can meet with your student in a 1-on-1 setting without distractions so they can focus on the steps they need to take that are required to convert radians to degrees. A tutor can also discover your student's learning style and use that to create lessons that cater to the way they learn best. If your student is struggling with converting radian measure to degree measure, contact the Educational Directors at Varsity Tutors today to learn how tutoring can help.

Stem-and-Leaf Plots

Stem and leaf plots are one way of representing data in a simple and efficient way to read. Stem and leaf plots have several advantages that make them especially useful for the purpose of analyzing large sets of data easily.

Stem and leaf plot definition

The stem and leaf plot is a graphical way of organizing data that makes it easy to notice the frequency of different values. Stem and leaf plots are pictorial representations of grouped data, but they can also be called modal representations. This is because, with a quick glance at the stem and leaf plot, we can easily determine the mode.

Data visualization

Statistics are often easier to read and understand when they are shown in a graphic format. There are many ways to represent statistical data graphically, such as bar graphs, histograms, line graphs, column charts, tree maps, and stem and leaf plots, among others.

Displaying statistical data visually, or data visualization is a useful way to provide accessible ways to analyze patterns and trends across a large set of data. These are used by governments, scientists, and climatologists to record data and present it graphically for easier access.

A basic understanding of different ways of data visualization is useful in all sorts of different fields. Stem and leaf plots organize data points by the place value of the leading digits.

When making a stem and leaf plot, each item of data is separated into two parts. The "stems" typically represent the digits in the highest place value of each data point. The "leaves" represent the remaining digits of each data point.

How to create a stem and leaf plot

Example 1

Suppose you are given the data set 35 37 24 23 27 31 33 49 34 41 35 . The digits in the tens place would be the "stems" and the digits in the ones place would be the "leaves". The smallest digit in the tens place is 2 and the largest is 4. List them vertically on the left side. For each stem, list the corresponding leaves in increasing order on the right side.

Stem Leaf
2 3 4 7
3 1 3 4 5 5 7
4 1 9

Note that there are two 5s in the second row because there are two 35s in the data set.

Making a stem and leaf plot for decimals

When making a stem and leaf plot for data that is in decimal form, you can forget about the decimals. You may break the stem and leaf apart at the point of the decimal or you may not, but on the plot itself, you do not represent the decimal points.

Example 2

Make a stem and leaf plot for the following data set:

0.1325 0.1329 0.1331 0.1332 0.1332 0.1333 0.1337 0.1344 0.1348 0.1351

Note that in this case, the data is already presented in ascending order. This will not usually be the case.

Since the digits 0.13 are common to all data points, you will arrange the 0.132, 0.133, 0.134, and 0.135 in the left column.

132 5 9
133 1 2 2 3 7
134 4 8
135 1

Be sure to include a "key" to show the place value that is meant. In this case, the key is:

132 | 5 = 0.1325

Using a stem and leaf plot to find the median, mode, and range of a data set

Use the previous stem and leaf plot to find the median, mode, and range of the data set.

Example 3

There are 10 elements in this set. Since this is an even number of elements, the median of the data is the mean of the 5th and 6th data points. Counting on the stem and leaf plot, we see that 133|2 and 133|3 are the 5th and 6th entries. So the median is:

0.1332 + 0.1333 2 = 0.13325

To find the mode, simply look for the leaf that is repeated the most times under a single stem. In this case, 133 | 2 occurs twice, so the mode is 0.1332.

To find the range of the data set, subtract the least number from the greatest.

0.1351 - 0.1325 = 0.0026

The range is 0.0026

Practice using stem and leaf plots

Use the following set of data to create a stem and leaf plot. Then find the median, mode, and range of the data set.

126 138 142 133 156 138 147 159 162 148 154 142 138 146

First, arrange the data in ascending order:

126 133 138 138 138 142 142 146 147 148 154 156 159 162

Then create the stem and leaf plot.

12 6
13 3 8 8 8
14 2 2 6 7 8
15 4 6 9
16 2

There are 14 data points in this set, so the median will fall between the 7th and 8th data points, which are 142 and 146.

142 + 146 2 = 144

So the median is 144.

The mode is 138, as there are three data points with this number, more than any other data points.

To find the range, subtract 126 from 162.

162 - 126 = 36

The range is 36.

Topics related to the Stem-and-Leaf Plots

Frequency Distributions

Bar Graphs

Probability Distribution

Flashcards covering the Stem-and-Leaf Plots

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Common Core: High School - Statistics and Probability Flashcards

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Get help learning about stem and leaf plots

Stem and leaf plots can be fun to make, but they can be confusing at first. If your student is having difficulty understanding stem and leaf plots, connect them with a private tutor who can show them the step-by-step process to create and utilize these visual data representations. An expert tutor can work with your student using their learning styles so they understand the content even if it seemed confusing when the instructor presented it. Contact the Educational Directors at Varsity Tutors today to learn how tutoring can help your student master stem and leaf plots.

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