Chapter 2: Modeling Distributions of Data

Similar documents
Section 2.2 Normal Distributions. Normal Distributions

CHAPTER 2 Modeling Distributions of Data

Section 2.2 Normal Distributions

Chapter 2 Modeling Distributions of Data

CHAPTER 2 Modeling Distributions of Data

CHAPTER 2 Modeling Distributions of Data

Name: Date: Period: Chapter 2. Section 1: Describing Location in a Distribution

CHAPTER 2: Describing Location in a Distribution

Lecture 3 Questions that we should be able to answer by the end of this lecture:

Lecture 3 Questions that we should be able to answer by the end of this lecture:

So..to be able to make comparisons possible, we need to compare them with their respective distributions.

Chapter 2: The Normal Distribution

Chapter 6. THE NORMAL DISTRIBUTION

Key: 5 9 represents a team with 59 wins. (c) The Kansas City Royals and Cleveland Indians, who both won 65 games.

Unit 5: Estimating with Confidence

Chapter 6. THE NORMAL DISTRIBUTION

Chapter 2: The Normal Distributions

Chapter 5: The standard deviation as a ruler and the normal model p131

Normal Distribution. 6.4 Applications of Normal Distribution

Density Curve (p52) Density curve is a curve that - is always on or above the horizontal axis.

AP Statistics. Study Guide

STA Module 4 The Normal Distribution

STA /25/12. Module 4 The Normal Distribution. Learning Objectives. Let s Look at Some Examples of Normal Curves

Lecture 6: Chapter 6 Summary

Data Analysis & Probability

Introduction to the Practice of Statistics Fifth Edition Moore, McCabe

Normal Data ID1050 Quantitative & Qualitative Reasoning

appstats6.notebook September 27, 2016

CHAPTER 1. Introduction. Statistics: Statistics is the science of collecting, organizing, analyzing, presenting and interpreting data.

6-1 THE STANDARD NORMAL DISTRIBUTION

The Normal Distribution

UNIT 1A EXPLORING UNIVARIATE DATA

Chapter 6 Normal Probability Distributions

MAT 110 WORKSHOP. Updated Fall 2018

Learning Objectives. Continuous Random Variables & The Normal Probability Distribution. Continuous Random Variable

Chapter 1. Looking at Data-Distribution

BIOL Gradation of a histogram (a) into the normal curve (b)

height VUD x = x 1 + x x N N 2 + (x 2 x) 2 + (x N x) 2. N

Chapter 2: Statistical Models for Distributions

Prepare a stem-and-leaf graph for the following data. In your final display, you should arrange the leaves for each stem in increasing order.

Vocabulary. 5-number summary Rule. Area principle. Bar chart. Boxplot. Categorical data condition. Categorical variable.

Learner Expectations UNIT 1: GRAPICAL AND NUMERIC REPRESENTATIONS OF DATA. Sept. Fathom Lab: Distributions and Best Methods of Display

Student Learning Objectives

Continuous Improvement Toolkit. Normal Distribution. Continuous Improvement Toolkit.

AP Statistics Summer Assignment:

Section 1.2. Displaying Quantitative Data with Graphs. Mrs. Daniel AP Stats 8/22/2013. Dotplots. How to Make a Dotplot. Mrs. Daniel AP Statistics

Part I, Chapters 4 & 5. Data Tables and Data Analysis Statistics and Figures

Section 10.4 Normal Distributions

Chapter2 Description of samples and populations. 2.1 Introduction.

Sec 6.3. Bluman, Chapter 6 1

Statistics Lecture 6. Looking at data one variable

Probability Distributions

Statistics: Normal Distribution, Sampling, Function Fitting & Regression Analysis (Grade 12) *

MAT 102 Introduction to Statistics Chapter 6. Chapter 6 Continuous Probability Distributions and the Normal Distribution

Stat 528 (Autumn 2008) Density Curves and the Normal Distribution. Measures of center and spread. Features of the normal distribution

The first few questions on this worksheet will deal with measures of central tendency. These data types tell us where the center of the data set lies.

Chapter 2 Describing, Exploring, and Comparing Data

STA Rev. F Learning Objectives. Learning Objectives (Cont.) Module 3 Descriptive Measures

Unit 7 Statistics. AFM Mrs. Valentine. 7.1 Samples and Surveys

Lecture Slides. Elementary Statistics Twelfth Edition. by Mario F. Triola. and the Triola Statistics Series. Section 2.1- #

Chapter 3: Data Description - Part 3. Homework: Exercises 1-21 odd, odd, odd, 107, 109, 118, 119, 120, odd

Lecture Slides. Elementary Statistics Twelfth Edition. by Mario F. Triola. and the Triola Statistics Series. Section 6.2-1

CHAPTER 2: SAMPLING AND DATA

Math 14 Lecture Notes Ch. 6.1

Chapter 5snow year.notebook March 15, 2018

Sections 4.3 and 4.4

IT 403 Practice Problems (1-2) Answers

No. of blue jelly beans No. of bags

Chapter 6: DESCRIPTIVE STATISTICS

1. The Normal Distribution, continued

Using Large Data Sets Workbook Version A (MEI)

Probability & Statistics Chapter 6. Normal Distribution

STP 226 ELEMENTARY STATISTICS NOTES PART 2 - DESCRIPTIVE STATISTICS CHAPTER 3 DESCRIPTIVE MEASURES

10.4 Measures of Central Tendency and Variation

10.4 Measures of Central Tendency and Variation

The Normal Distribution

4.3 The Normal Distribution

Parents Names Mom Cell/Work # Dad Cell/Work # Parent List the Math Courses you have taken and the grade you received 1 st 2 nd 3 rd 4th

Statistics: Interpreting Data and Making Predictions. Visual Displays of Data 1/31

Chapter 2: Descriptive Statistics

Data Statistics Population. Census Sample Correlation... Statistical & Practical Significance. Qualitative Data Discrete Data Continuous Data

Chapter 2. Descriptive Statistics: Organizing, Displaying and Summarizing Data

Name Date Types of Graphs and Creating Graphs Notes

Chapter 3 - Displaying and Summarizing Quantitative Data

Measures of Position

Basic Statistical Terms and Definitions

Averages and Variation

AP Statistics Prerequisite Packet

Measures of Dispersion

23.2 Normal Distributions

Math 120 Introduction to Statistics Mr. Toner s Lecture Notes 3.1 Measures of Central Tendency

The standard deviation 1 n

Unit 8 SUPPLEMENT Normal, T, Chi Square, F, and Sums of Normals

Connecticut Alternate Assessment: Individual Student Report Performance Literals Mathematics

IQR = number. summary: largest. = 2. Upper half: Q3 =

What s Normal Anyway?

Ch6: The Normal Distribution

Normal Curves and Sampling Distributions

Distributions of random variables

Slide Copyright 2005 Pearson Education, Inc. SEVENTH EDITION and EXPANDED SEVENTH EDITION. Chapter 13. Statistics Sampling Techniques

Transcription:

Chapter 2: Modeling Distributions of Data Section 2.2 The Practice of Statistics, 4 th edition - For AP* STARNES, YATES, MOORE

Chapter 2 Modeling Distributions of Data 2.1 Describing Location in a Distribution 2.2

Section 2.2 Learning Objectives After this section, you should be able to DESCRIBE and APPLY the 68-95-99.7 Rule DESCRIBE the standard Normal Distribution PERFORM Normal distribution calculations ASSESS Normality

One particularly important class of density curves are the Normal curves, which describe Normal distributions. All Normal curves are symmetric, single-peaked, and bellshaped A Specific Normal curve is described by giving its mean µ and standard deviation σ. Two Normal curves, showing the mean µ and standard deviation σ.

Definition: A Normal distribution is described by a Normal density curve. Any particular Normal distribution is completely specified by two numbers: its mean µ and standard deviation σ. The mean of a Normal distribution is the center of the symmetric Normal curve. The standard deviation is the distance from the center to the change-of-curvature points on either side. We abbreviate the Normal distribution with mean µ and standard deviation σ as N(µ,σ). Normal distributions are good descriptions for some distributions of real data. Normal distributions are good approximations of the results of many kinds of chance outcomes. Many statistical inference procedures are based on Normal distributions.

The 68-95-99.7 Rule Although there are many Normal curves, they all have properties in common. Definition: The 68-95-99.7 Rule ( The Empirical Rule ) In the Normal distribution with mean µ and standard deviation σ: Approximately 68% of the observations fall within σ of µ. Approximately 95% of the observations fall within 2σ of µ. Approximately 99.7% of the observations fall within 3σ of µ.

Example, p. 113 The distribution of Iowa Test of Basic Skills (ITBS) vocabulary scores for 7 th grade students in Gary, Indiana, is close to Normal. Suppose the distribution is N(6.84, 1.55). a) Sketch the Normal density curve for this distribution. b) What percent of ITBS vocabulary scores are less than 3.74? c) What percent of the scores are between 5.29 and 9.94?

The Standard Normal Distribution All Normal distributions are the same if we measure in units of size σ from the mean µ as center. Definition: The standard Normal distribution is the Normal distribution with mean 0 and standard deviation 1. If a variable x has any Normal distribution N(µ,σ) with mean µ and standard deviation σ, then the standardized variable z x - has the standard Normal distribution, N(0,1).

The Standard Normal Table Because all Normal distributions are the same when we standardize, we can find areas under any Normal curve from a single table. Definition: The Standard Normal Table Table A is a table of areas under the standard Normal curve. The table entry for each value z is the area under the curve to the left of z. Suppose we want to find the proportion of observations from the standard Normal distribution that are less than 0.81. We can use Table A: P(z < 0.81) =.7910 Z.00.01.02 0.7.7580.7611.7642 0.8.7881.7910.7939 0.9.8159.8186.8212

Example, p. 117 Finding Areas Under the Standard Normal Curve Find the proportion of observations from the standard Normal distribution that are between -1.25 and 0.81. Can you find the same proportion using a different approach? 1 - (0.1056+0.2090) = 1 0.3146 = 0.6854

Normal Distribution Calculations How to Solve Problems Involving State: Express the problem in terms of the observed variable x. Plan: Draw a picture of the distribution and shade the area of interest under the curve. Do: Perform calculations. Standardize x to restate the problem in terms of a standard Normal variable z. Use Table A and the fact that the total area under the curve is 1 to find the required area under the standard Normal curve. Conclude: Write your conclusion in the context of the problem.

Normal Distribution Calculations When Tiger Woods hits his driver, the distance the ball travels can be described by N(304, 8). What percent of Tiger s drives travel between 305 and 325 yards? When x = 305, z = When x = 325, z = 305-304 8 325-304 8 0.13 2.63 Using Table A, we can find the area to the left of z=2.63 and the area to the left of z=0.13. 0.9957 0.5517 = 0.4440. About 44% of Tiger s drives travel between 305 and 325 yards.

Assessing Normality The Normal distributions provide good models for some distributions of real data. Many statistical inference procedures are based on the assumption that the population is approximately Normally distributed. Consequently, we need a strategy for assessing Normality. Plot the data. Make a dotplot, stemplot, or histogram and see if the graph is approximately symmetric and bell-shaped. Check whether the data follow the 68-95-99.7 rule. Count how many observations fall within one, two, and three standard deviations of the mean and check to see if these percents are close to the 68%, 95%, and 99.7% targets for a Normal distribution.

Normal Probability Plots Most software packages can construct Normal probability plots. These plots are constructed by plotting each observation in a data set against its corresponding percentile s z-score. Interpreting Normal Probability Plots If the points on a Normal probability plot lie close to a straight line, the plot indicates that the data are Normal. Systematic deviations from a straight line indicate a non-normal distribution. Outliers appear as points that are far away from the overall pattern of the plot.

Section 2.2 Summary In this section, we learned that The are described by a special family of bellshaped, symmetric density curves called Normal curves. The mean µ and standard deviation σ completely specify a Normal distribution N(µ,σ). The mean is the center of the curve, and σ is the distance from µ to the change-of-curvature points on either side. All Normal distributions obey the 68-95-99.7 Rule, which describes what percent of observations lie within one, two, and three standard deviations of the mean.

Section 2.2 Summary In this section, we learned that All Normal distributions are the same when measurements are standardized. The standard Normal distribution has mean µ=0 and standard deviation σ=1. Table A gives percentiles for the standard Normal curve. By standardizing, we can use Table A to determine the percentile for a given z-score or the z-score corresponding to a given percentile in any Normal distribution. To assess Normality for a given set of data, we first observe its shape. We then check how well the data fits the 68-95-99.7 rule. We can also construct and interpret a Normal probability plot.

Looking Ahead In the next Chapter We ll learn how to describe relationships between two quantitative variables We ll study Scatterplots and correlation Least-squares regression

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback