Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mean Absolute Deviation

Published byEmery Norton Modified over 5 years ago

Similar presentations

Presentation on theme: "Mean Absolute Deviation"— Presentation transcript:

1

2 Mean Absolute Deviation

3 Describing Data There are two ways to describe a set of data:
Graphically Dot plot, Bar Graph, Histogram , Boxplot Numerically Using a single number to describe the relationship of the data Mean, Median, Mode, Range, IQR Use this slide to remind students of where they are in the study of one-variable statistics. This lesson continues our study of describing data numerically. Now we turn to measures of spread.

4 We describe the measure of center using:
Measures of Center We describe the measure of center using: Mean: A numerical measure that is the arithmetic “average” of the data. Use the mean to describe a data set if there is NO outlier! Outliers greatly affect the mean! Median: Describes the middle of a data set. Not usually affected by outliers or affected very little. 50% of data is above and 50% of data is below the median Use this slide to remind students of where they are in the study of one-variable statistics. This lesson continues our study of describing data numerically. Now we turn to measures of spread.

5 Measures of Spread/Variability describe
how much values typically vary from the center These measures are: Range – describes the distance from the highest to lowest data pieces; found using maximum minus minimum Interquartile Range (IQR) – describes the middle 50% of the data ; found using Q3 – Q1 Mean Absolute Deviation (MAD) – shows how much data values vary from the mean. Low MAD indicates data points are not very spread out. High MAD indicates data points are not close together, are very spread out!

6 A low mean absolute deviation indicates
Highlight the following in your notes: A low mean absolute deviation indicates that the data points tend to be very close to the mean and not spread out very far so the mean is an accurate description of “typical”, and a high mean absolute deviation indicates that the data points are spread out over a large range of values.

7 Now let’s explore “deviations from the mean” as a way to determine how accurately the mean may describe “typical”.

8 Thinking about the Situation
Consider the following test scores: Who is the best student? How do you know? Take a few minutes to decide with your partner Student Test 1 Test 2 Test 3 Test 4 Li 65 82 93 100 Bessie 86 89 83 Jamal 80 99 73 88 Let students discuss this in their groups and make a decision. Have them share out their ideas. Answers: What is the mean score for each student? 85 points Based on the mean, who is the best student? Let them share their opinions. This may end up running into the third question. If it doesn’t come up, say “They all have the same mean, so they are equal as students.” What do they think? If asked to select one student, who would you pick as the best student? Explain. Accept their explanations without judgment. Some may look at Johnny’s increasing trend over time. Some may look at Will’s consistency. Some may note Anna’s one low grade. Be sure that arguments for each student being the “best” come out, even if you have to be the one who makes them. The point is, just using the mean to describe each student is not enough. I think that we can all agree that they are not “equal” in their test performance. We need more information than just the typical test score. One thing to look at is how consistent each student is, and measures of spread will give us that information.

9 So with all students having the same mean, let’s see if we can dig a little deeper in our comparison. The MEAN ABSOLUTE DEVIAITON (MAD) will help us. Let’s take a few minutes to explore MAD.

10 Mean Absolute Deviation (MAD)
STEP 1: Find the mean STEP 2: Subtract the mean from each piece of data STEP 3: Find the absolute value of each difference STOP and do example on the back of this paper with students using the data set 1, 2, 4, 8, and 10 STEP 4: Find the mean of the new differences (deviations)

11 Mean Absolute Deviation
Step 1: Mean = Step 2: Step 3: Data Values Difference Data Minus Mean Absolute Value 1 2 4 8 10 Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5. Total of Values: Step 4:

12 So what exactly is deviation?
-4 -3 +5 -1 +3 Remember that the mean is the balance point for a set of data: For example, the mean of 1, 2, 4,8, and 10 is 5 because it balances the distances on a number line from the mean to each data value. (-4) + (-3) + (-1) = -8 (+5 ) + (+3) = +8

13 Mean Absolute Deviation
-3.2 +3.2 Notice that our Mean Absolute Deviation or MAD was 3.2 and most of our original data does fall within plus or minus 3.2 points of the mean of 5. Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5.

14 Now take a few minutes to go back to our original question about the best student. Find the MAD score for each student and then make a decision based on all of your data about the best student. Be prepared to discuss. Student Test 1 Test 2 Test 3 Test 4 Li 65 82 93 100 Bessie 86 89 83 Jamal 80 99 73 88 After a few minutes to determine the MAD ask students to make their call about the best student and give a reason. There is a space on the notes for students to record their work.

15 Li Data Values Difference Data Minus Mean Absolute Value 65 82 93 100
Step 1: Mean = Step 2: Step 3: Data Values Difference Data Minus Mean Absolute Value 65 82 93 100 Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5. Total of Values: Step 4:

16 Bessie Data Values Difference Data Minus Mean Absolute Value 82 86 89
Step 1: Mean = Step 2: Step 3: Data Values Difference Data Minus Mean Absolute Value 82 86 89 83 Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5. Total of Values: Step 4:

17 Jamal Data Values Difference Data Minus Mean Absolute Value 80 99 73
Step 1: Mean = Step 2: Step 3: Data Values Difference Data Minus Mean Absolute Value 80 99 73 88 Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5. Total of Values: Step 4:

18 Now you try the CLASSWORK found on your handout.
When you and your partner have completed the work individually, check to see if you agree. We will review this section together in a few minutes

19 Classwork Data Values Difference Data Minus Mean Absolute Value 30 38
Step 1: Mean = Step 2: Step 3: Data Values Difference Data Minus Mean Absolute Value 30 38 40 42 48 Let’s go back to our number line to visualize this. Most of the data falls within plus or minus 3.2 points of 5. Total of Values: Step 4:

Download ppt "Mean Absolute Deviation"

Similar presentations

Chapter 5 – 1 Chapter 5: Measures of Variability The Importance of Measuring Variability The Range IQR (Inter-Quartile Range) Variance Standard Deviation.

Chapter 5 – 1 Chapter 5: Measures of Variability The Importance of Measuring Variability The Range IQR (Inter-Quartile Range) Variance Standard Deviation.
Quiz 2.1 Clear your desk except for a pencil & calculator!

Quiz 2.1 Clear your desk except for a pencil & calculator!
. Is it statistical? Dot plots and mean Median, Mode, and Best Measure of Central Tendency Range, Quartiles, and IQR Outlier and Mean Absolute Deviation.

. Is it statistical? Dot plots and mean Median, Mode, and Best Measure of Central Tendency Range, Quartiles, and IQR Outlier and Mean Absolute Deviation.
Measures of Central Tendency & Spread

Measures of Central Tendency & Spread
Think About the Situation

Think About the Situation
Summary Statistics, Center, Spread, Range, Mean, and Median Ms. Daniels Integrated Math 1.

Summary Statistics, Center, Spread, Range, Mean, and Median Ms. Daniels Integrated Math 1.
Statistics and Data Analysis

Statistics and Data Analysis
Chapter 14 Statistics and Data Analysis. Data Analysis Chart Types Frequency Distribution.

Chapter 14 Statistics and Data Analysis. Data Analysis Chart Types Frequency Distribution.
Statistics Unit Test Review Chapters 11 & 12. 11-1/11-2 Mean(average): the sum of the data divided by the number of pieces of data Median: the value appearing.

Statistics Unit Test Review Chapters 11 & /11-2 Mean(average): the sum of the data divided by the number of pieces of data Median: the value appearing.
Shoe Size  Please write your shoe size on the board.  Girls put yours on the girl’s chart  Boys put yours on the boy’s chart.

Shoe Size  Please write your shoe size on the board.  Girls put yours on the girl’s chart  Boys put yours on the boy’s chart.
EXPLORING descriptions of SPREAD. Describing Data There are two ways to describe a set of data: Graphically Dot plot – Bar Graph – Histogram – Boxplot.

EXPLORING descriptions of SPREAD. Describing Data There are two ways to describe a set of data: Graphically Dot plot – Bar Graph – Histogram – Boxplot.
Analysis of Quantitative Data

Analysis of Quantitative Data
Chapter 1: Exploring Data

Chapter 1: Exploring Data
Introduction To compare data sets, use the same types of statistics that you use to represent or describe data sets. These statistics include measures.

Introduction To compare data sets, use the same types of statistics that you use to represent or describe data sets. These statistics include measures.
CHAPTER 1 Exploring Data

CHAPTER 1 Exploring Data
Statistics Unit Test Review

Statistics Unit Test Review
EXPLORING descriptions of SPREAD Math 6 Plus Unit 13

EXPLORING descriptions of SPREAD Math 6 Plus Unit 13
Statistics.

Statistics.
EXPLORING descriptions of SPREAD UNIT 13

EXPLORING descriptions of SPREAD UNIT 13
U4D3 Warmup: Find the mean (rounded to the nearest tenth) and median for the following data: 73, 50, 72, 70, 70, 84, 85, 89, 89, 70, 73, 70, 72, 74 Mean:

U4D3 Warmup: Find the mean (rounded to the nearest tenth) and median for the following data: 73, 50, 72, 70, 70, 84, 85, 89, 89, 70, 73, 70, 72, 74 Mean:

Similar presentations

Ads by Google