Box and Whisker Plots A box plot summarizes data using the median, upper and lower quartiles, and the extreme (least and greatest) values. It allows.

Slides:



Advertisements
Similar presentations
4-4 Variability Objective: Learn to find measures of variability.
Advertisements

12.3 – Analyzing Data.
Box and Whisker Plots.
Data Distributions Warm Up Lesson Presentation Lesson Quiz
Chapter 10 Section 1, 3-4. Warm-Up List the data in order from least to greatest. 1.) 23, 45, 61, 87, 91, 16, 22, 52 2.) 4.1, 4.2, 4.13, 4.15, )
Box-and-Whisker Plots. Important Terms Median:The middle number in a set of data when the data are arranged in numerical order. Quartile:One of four equal.
Boxplot Q1 Q3 Median largest observation that is not a suspected outlier smallest observation that is not a suspected outlier Whisker * outlier.
Objective Box-and-Whisker Plots Draw a box-and-whisker plot to organize real-life data. Read and interpret a box-and-whisker plot of real-life data.
Unit 1.1 Investigating Data 1. Frequency and Histograms CCSS: S.ID.1 Represent data with plots on the real number line (dot plots, histograms, and box.
STATISTICS. SOME BASIC STATISTICS MEAN (AVERAGE) – Add all of the data together and divide by the number of elements within that set of data. MEDIAN –
Statistics: Use Graphs to Show Data Box Plots.
Box and Whisker Plots SWBAT create, read, and identify the values of a box and whisker plot.
Box and Whisker Plots and the 5 number summary Chapter 6 Section 7 Ms. Mayer Algebra 1.
Box and Whisker Plot 5 Number Summary for Odd Numbered Data Sets.
Box and Whisker Plots A diagram that summarizes data by dividing it into four parts. It compares two sets of data.
Quartiles & Extremes (displayed in a Box-and-Whisker Plot) Lower Extreme Lower Quartile Median Upper Quartile Upper Extreme Back.
Box And Whisker Plots BY: Katie Benson Stephanie Ko Natalie Zglinicki.
What is a box and whisker plot? A box and whisker plot is a visual representation of how data is spread out and how much variation there is. It doesn’t.
Box-and-Whisker Plots
A Box and Whisker What??? A detailed guide to making and interpreting Box and Whisker Plots. Mrs. C. Fisher – Whetstone Elementary.
6.SP Warm Up Use the data below for Questions , 25, 37, 53, 26, 12, 70, What is the mean? 2. What is the median? 3. What is the mode? 4.
Percentiles and Box – and – Whisker Plots Measures of central tendency show us the spread of data. Mean and standard deviation are useful with every day.
What is the MEAN? How do we find it? The mean is the numerical average of the data set. The mean is found by adding all the values in the set, then.
Section 6 – Mean, Median, Mode and Range with Box and Whisker & Stem and Leaf Plots.
BOX PLOTS (BOX AND WHISKERS). Boxplot A graph of a set of data obtained by drawing a horizontal line from the minimum to maximum values with quartiles.
Math I - Notes Box and Whisker Plots I CAN create a box and whisker plot I CAN interpret a box and whisker plot A box and whisker plot is a data display.
Vocabulary to know: *statistics *data *outlier *mean *median *mode * range.
Box Plots Show the Spread of Data BOX PLOT NOTES.
Box and Whisker Plots This data shows the scores achieved by fifteen students who took a short maths test. The test was marked out of.
UNIT 8 Section 4 Distributed Practice #1. MEAN  * Mean is the average of a set of numbers.  To find the mean, or average of a set of data, add the numbers.
Drawing Box & Whisker Graphs Step #1 Place your data in order
Box-and-Whisker Plots
Find the lower and upper quartiles for the data set.
Box-and-Whisker Plots
Box-and-Whisker Plots
Box-and-Whisker Plots
Representing Quantitative Data
Percentiles and Box-and-Whisker Plots
Cronnelly.
Box and Whisker Plots 50% Step 1 – Order the series.
BOX-and-WHISKER PLOT (Box Plot)
Box-and-Whisker Plots
Box-and-Whisker Plots
Box-and-Whisker Plots
How to create a Box and Whisker Plot
Box and Whisker Plots.
Box-and-Whisker Plots
How to make a box and whisker plot
Unit 12: Intro to Statistics
Box-and-Whisker Plots
Box Plots.
CCM1A – Dr. Fowler Unit 2 – Lesson 3 Box-and-Whisker Plots
Mean As A Balancing Point
12.4 Box-and-Whisker Plots
Box and Whisker Plots A diagram that summarizes data by dividing it into four parts. It compares two sets of data. Dittamo & Lewis 2014.
Box-and-Whisker Plots
We have Been looking at:
Freebird
Box and Whisker Plots A.K.A Box Plots.
Box-and-Whisker Plots
Box and Whisker Plots and the 5 number summary
Box and Whisker Plots and the 5 number summary
Box Plots CCSS 6.7.
Box and Whisker Plots and the 5 number summary
Box-and-Whisker Plots
Box-and-Whisker Plots
Box-and-Whisker Plots
Find the Mean of the following numbers.
BOX-and-WHISKER PLOT (Box Plot)
Bell Ringer Solve 8x-4=52 D.E.A.R.
Presentation transcript:

Box and Whisker Plots

A box plot summarizes data using the median, upper and lower quartiles, and the extreme (least and greatest) values. It allows you to see important characteristics of the data at a glance.

Example Problem: The gas mileages in miles per gallon (mpg) of 4-cylinder manual transmission cars are in a table on the next slide

MPG of 4-cylinder cars

To make a box plot, organize the data by either making a stem and leaf plot or just arranging the data in order least to greatest.

Find the median of the data. It is 32 This divides the data in half. The lower half : and the upper half:

Find the median of the top half of the data This is called the high median, upper quartile or quartile 3. It is 38.

Take the lower half of the data and find the median of it This data, 29, is called the low median, lower quartile or quartile 1.

Next, find the lower and upper extremes. This simply means the lowest data, 24, and the highest data, 44. Lets organize all 5 pieces of data together so we can see them.

Lower extreme = 24 Lower quartile(Q1) =29 Median (Q2) = 32 Upper quartile(Q3) =38 Upper extreme(Q4)=44 The data is now divided into quartiles(4ths) so each quartile represents one-fourth of the data.

Next, make a number line that will best display the 5 pieces of data ( )

Place a dot above the number line to show the lower extreme and one for the upper extreme.

Put a vertical slash above the number line for the median and one for the lower and upper quartiles.

Enclose the vertical slashes into a box. Draw a line from the right center of the box to the upper extreme and one from the lower end of the box to the lower extreme, forming the whiskers.

You must label the number line to tell what the data represents. Miles per gallon (mpg)

All graphs must have a title that clearly represents what your graph is showing. Miles per Gallon of 4-cylinder Cars Miles per gallon (mpg)

Interpreting the Box Plot: Study your Box and Whisker Plot to determine what it is telling you. Make a statement about what it is saying, then support the statement with facts from your graph.

You should include the following in your interpretation: Range or spread of the data and what it means to your graph Quartilescompare them. What are they telling you about the data? Median- this is an important part of the graph, and should be an important part of the interpretation. Percentages should be used to interpret the data, where relevant.

We will now interpret the data we have on mpg of 4-cylinder cars. We will do this step-by-step, then put all the interpretation together as our final summary.

Miles per Gallon of 4-cylinder Cars Miles per gallon (mpg)

Make a statement about what it is saying, then support the statement with facts from your graph: The Box and Whisker Plot clearly shows that there is a lot of different gas mileages on various 4-cylinder vehicles

Miles per Gallon of 4-cylinder Cars Miles per gallon (mpg)

Range or spread of the data and what it means to your graph The mileage ranged from 24 miles per gallon(mpg) to a high of 44 mpg. This is a 20 miles per gallon spread, which in car mileage is quite a bit of difference.

Quartilescompare them. What are they telling you about the data? The first quartile reads as 32 mpg which means that 75% of the vehicles in this study got 32 mpg or more. The 3 rd quartile tells us that 25% of these cars got 38 mpg or higher which is really good mileage.

Median- this is an important part of the graph, and should be an important part of the interpretation. The median cuts the data in half. The median is 32 mpg. Therefore half the cars in the study received 32 mpg or higher.

Put all the data together in a summary that is clearly stated, uses facts based on the graph, and is easy to follow.

The Box and Whisker Plot clearly shows that there is a lot of different gas mileages on various 4-cylinder vehicles. The mileage ranged from 24 miles per gallon(mpg) to a high of 44 mpg. This is a 20 miles per gallon spread, which in car mileage is quite a bit of difference.

The first quartile reads as 32 mpg which means that 75% of the vehicles in this study got 32 mpg or more. The 3 rd quartile tells us that 25% of these cars got 38 mpg or higher which is really good mileage.

The median cuts the data in half. The median is 32 mpg. Therefore half the cars in the study received 32 mpg or higher. From this study, we can conclude that there is a wide range of gas mileage that should be considered when traveling or purchasing a vehicle.