10-1 Introduction 10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Figure 10-1 Two independent populations.

Slides:

Advertisements

Similar presentations

Copyright (c) 2004 Brooks/Cole, a division of Thomson Learning, Inc. Chapter 9 Inferences Based on Two Samples.

Advertisements

One sample T Interval Example: speeding 90% confidence interval n=23 Check conditions Model: t n-1 Confidence interval: 31.0±1.52 = (29.48, 32.52) STAT.

Confidence Interval and Hypothesis Testing for:

Comparing Two Population Means The Two-Sample T-Test and T-Interval.

Chapter 10 Two-Sample Tests

PSY 307 – Statistics for the Behavioral Sciences

9-1 Hypothesis Testing Statistical Hypotheses Statistical hypothesis testing and confidence interval estimation of parameters are the fundamental.

Today Today: Chapter 10 Sections from Chapter 10: Recommended Questions: 10.1, 10.2, 10-8, 10-10, 10.17,

Independent t-Test CJ 526 Statistical Analysis in Criminal Justice.

Business Statistics: A Decision-Making Approach, 6e © 2005 Prentice-Hall, Inc. Chap 9-1 Introduction to Statistics Chapter 10 Estimation and Hypothesis.

8 Statistical Intervals for a Single Sample CHAPTER OUTLINE

IEEM 3201 Two-Sample Estimation: Paired Observation, Difference.

4-1 Statistical Inference The field of statistical inference consists of those methods used to make decisions or draw conclusions about a population.

A Decision-Making Approach

13-1 Designing Engineering Experiments Every experiment involves a sequence of activities: Conjecture – the original hypothesis that motivates the.

Chapter 2 Simple Comparative Experiments

Horng-Chyi HorngStatistics II41 Inference on the Mean of a Population - Variance Known H 0 :  =  0 H 0 :  =  0 H 1 :    0, where  0 is a specified.

Inferences About Process Quality

Copyright © 2010 Pearson Education, Inc. Chapter 24 Comparing Means.

1 Inference About a Population Variance Sometimes we are interested in making inference about the variability of processes. Examples: –Investors use variance.

Chapter 10, sections 1 and 4 Two-sample Hypothesis Testing Test hypotheses for the difference between two independent population means ( standard deviations.

8-1 Introduction In the previous chapter we illustrated how a parameter can be estimated from sample data. However, it is important to understand how.

5-3 Inference on the Means of Two Populations, Variances Unknown

Hypothesis Testing and T-Tests. Hypothesis Tests Related to Differences Copyright © 2009 Pearson Education, Inc. Chapter Tests of Differences One.

Chapter 9 Title and Outline 1 9 Tests of Hypotheses for a Single Sample 9-1 Hypothesis Testing Statistical Hypotheses Tests of Statistical.

Statistical Inference for Two Samples

Two Sample Tests Ho Ho Ha Ha TEST FOR EQUAL VARIANCES

5-1 Introduction 5-2 Inference on the Means of Two Populations, Variances Known Assumptions.

Statistical Intervals for a Single Sample

Chapter 9 Hypothesis Testing and Estimation for Two Population Parameters.

10-1 Introduction 10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Figure 10-1 Two independent populations.

9-1 Hypothesis Testing Statistical Hypotheses Definition Statistical hypothesis testing and confidence interval estimation of parameters are.

Copyright (c) 2004 Brooks/Cole, a division of Thomson Learning, Inc. Chapter 9 Inferences Based on Two Samples.

1 10 Statistical Inference for Two Samples 10-1 Inference on the Difference in Means of Two Normal Distributions, Variances Known Hypothesis tests.

Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.

4 Hypothesis & Testing. CHAPTER OUTLINE 4-1 STATISTICAL INFERENCE 4-2 POINT ESTIMATION 4-3 HYPOTHESIS TESTING Statistical Hypotheses Testing.

Independent t-Test CJ 526 Statistical Analysis in Criminal Justice.

Statistics for Managers Using Microsoft Excel, 4e © 2004 Prentice-Hall, Inc. Chap 9-1 Chapter 9 Two-Sample Tests Statistics for Managers Using Microsoft.

© Copyright McGraw-Hill 2000

The Practice of Statistics, 5th Edition Starnes, Tabor, Yates, Moore Bedford Freeman Worth Publishers CHAPTER 10 Comparing Two Populations or Groups 10.1.

The Practice of Statistics, 5th Edition Starnes, Tabor, Yates, Moore Bedford Freeman Worth Publishers CHAPTER 10 Comparing Two Populations or Groups 10.1.

1 9 Tests of Hypotheses for a Single Sample. © John Wiley & Sons, Inc. Applied Statistics and Probability for Engineers, by Montgomery and Runger. 9-1.

Chapter 10 Statistical Inference for Two Samples Twice as much fun as one sample.

5-1 Introduction 5-2 Inference on the Means of Two Populations, Variances Known Assumptions.

Copyright © 2013 Pearson Education, Inc. All rights reserved Chapter 9 Inferences Based on Two Samples Confidence Intervals and Tests of Hypotheses.

- We have samples for each of two conditions. We provide an answer for “Are the two sample means significantly different from each other, or could both.

Chapter 10 Statistical Inference for Two Samples More than one but less than three! Chapter 10B < X

Business Statistics, 4e, by Ken Black. © 2003 John Wiley & Sons Business Statistics, 4e by Ken Black Chapter 10 Statistical Inferences about Two.

SECTION 1 HYPOTHESIS TEST FOR THE DIFFERENCE IN TWO POPULATION PROPORTIONS Two-Population Tests With Qualitative Data  A lot.

Comparing Means Chapter 24. Plot the Data The natural display for comparing two groups is boxplots of the data for the two groups, placed side-by-side.

Chapter 9 Inferences Based on Two Samples: Confidence Intervals and Tests of Hypothesis.

Copyright © 2013 Pearson Education, Inc. All rights reserved Chapter 8 Inferences Based on a Single Sample Tests of Hypothesis.

T tests comparing two means t tests comparing two means.

Learning Objectives After this section, you should be able to: The Practice of Statistics, 5 th Edition1 DESCRIBE the shape, center, and spread of the.

Comparing Two Means Ch. 13. Two-Sample t Interval for a Difference Between Two Means.

Lecture 8 Estimation and Hypothesis Testing for Two Population Parameters.

Chapter 8 Estimation ©. Estimator and Estimate estimator estimate An estimator of a population parameter is a random variable that depends on the sample.

Hypothesis Tests u Structure of hypothesis tests 1. choose the appropriate test »based on: data characteristics, study objectives »parametric or nonparametric.

Copyright (c) 2004 Brooks/Cole, a division of Thomson Learning, Inc. Chapter 7 Inferences Concerning Means.

Chapter 14 Single-Population Estimation. Population Statistics Population Statistics:  , usually unknown Using Sample Statistics to estimate population.

Introduction For inference on the difference between the means of two populations, we need samples from both populations. The basic assumptions.

Statistical Quality Control, 7th Edition by Douglas C. Montgomery.

Chapter 4. Inference about Process Quality

Math 4030 – 10b Inferences Concerning Variances: Hypothesis Testing

Psychology 202a Advanced Psychological Statistics

Chapter 2 Simple Comparative Experiments

CONCEPTS OF ESTIMATION

9 Tests of Hypotheses for a Single Sample CHAPTER OUTLINE

Presentation transcript:

10-1 Introduction

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Figure 10-1 Two independent populations.

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Assumptions

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.1 Hypothesis Tests for a Difference in Means, Variances Known

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-1

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-1

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-1

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.2 Choice of Sample Size Use of Operating Characteristic Curves Two-sided alternative: One-sided alternative:

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.2 Choice of Sample Size Sample Size Formulas Two-sided alternative:

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.2 Choice of Sample Size Sample Size Formulas One-sided alternative:

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-3

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.3 Identifying Cause and Effect When statistical significance is observed in a randomized experiment, the experimenter can be confident in the conclusion that it was the difference in treatments that resulted in the difference in response. That is, we can be confident that a cause-and-effect relationship has been found.

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known 10-2.4 Confidence Interval on a Difference in Means, Variances Known Definition

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-4

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Example 10-4

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known Choice of Sample Size

10-2 Inference for a Difference in Means of Two Normal Distributions, Variances Known One-Sided Confidence Bounds Upper Confidence Bound Lower Confidence Bound

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.1 Hypotheses Tests for a Difference in Means, Variances Unknown Case 1: We wish to test:

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.1 Hypotheses Tests for a Difference in Means, Variances Unknown Case 1: The pooled estimator of 2:

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.1 Hypotheses Tests for a Difference in Means, Variances Unknown Case 1:

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Definition: The Two-Sample or Pooled t-Test*

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-5

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-5

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-5

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-5

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Minitab Output for Example 10-5

Figure 10-2 Normal probability plot and comparative box plot for the catalyst yield data in Example 10-5. (a) Normal probability plot, (b) Box plots.

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.1 Hypotheses Tests for a Difference in Means, Variances Unknown Case 2: is distributed approximately as t with degrees of freedom given by

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.1 Hypotheses Tests for a Difference in Means, Variances Unknown Case 2:

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-6

Example 10-6 Figure 10-3 Normal probability plot of the arsenic concentration data from Example 10-6.

Example 10-6

Example 10-6

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown 10-3.3 Choice of Sample Size Two-sided alternative:

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Example 10-7

10-3 Inference for a Difference in Means of Two Normal Distributions, Variances Unknown Minitab Output for Example 10-7

10-3.4 Confidence Interval on the Difference in Means Case 1:

10-3.4 Confidence Interval on the Difference in Means Case 1: Example 10-8

10-3.4 Confidence Interval on the Difference in Means Case 1: Example 10-8

10-3.4 Confidence Interval on the Difference in Means Case 1: Example 10-8

10-3.4 Confidence Interval on the Difference in Means Case 1: Example 10-8

10-3.4 Confidence Interval on the Difference in Means Case 2: Definition

10-4 Paired t-Test A special case of the two-sample t-tests of Section 10-3 occurs when the observations on the two populations of interest are collected in pairs. Each pair of observations, say (X1j , X2j ), is taken under homogeneous conditions, but these conditions may change from one pair to another. The test procedure consists of analyzing the differences between hardness readings on each specimen.

10-4 Paired t-Test The Paired t-Test

10-4 Paired t-Test Example 10-9

10-4 Paired t-Test Example 10-9

10-4 Paired t-Test Example 10-9

10-4 Paired t-Test Paired Versus Unpaired Comparisons

10-4 Paired t-Test A Confidence Interval for D Definition

10-4 Paired t-Test Example 10-10

10-4 Paired t-Test Example 10-10

10-5 Inferences on the Variances of Two Normal Populations 10-5.1 The F Distribution We wish to test the hypotheses: The development of a test procedure for these hypotheses requires a new probability distribution, the F distribution.

10-5 Inferences on the Variances of Two Normal Populations 10-5.1 The F Distribution

10-5 Inferences on the Variances of Two Normal Populations 10-5.1 The F Distribution

10-5 Inferences on the Variances of Two Normal Populations 10-5.1 The F Distribution The lower-tail percentage points f-1,u, can be found as follows.

10-5 Inferences on the Variances of Two Normal Populations 10-5.3 Hypothesis Tests on the Ratio of Two Variances

10-5 Inferences on the Variances of Two Normal Populations 10-5.3 Hypothesis Tests on the Ratio of Two Variances

10-5 Inferences on the Variances of Two Normal Populations Example 10-11

10-5 Inferences on the Variances of Two Normal Populations Example 10-11

10-5 Inferences on the Variances of Two Normal Populations Example 10-11

10-5 Inferences on the Variances of Two Normal Populations 10-5.4 -Error and Choice of Sample Size

10-5 Inferences on the Variances of Two Normal Populations Example 10-12

10-5 Inferences on the Variances of Two Normal Populations 10-5.5 Confidence Interval on the Ratio of Two Variances

10-5 Inferences on the Variances of Two Normal Populations Example 10-13

10-5 Inferences on the Variances of Two Normal Populations Example 10-13

10-5 Inferences on the Variances of Two Normal Populations Example 10-13

10-6 Inference on Two Population Proportions 10-6.1 Large-Sample Test for H0: p1 = p2 We wish to test the hypotheses:

10-6 Inference on Two Population Proportions 10-6.1 Large-Sample Test for H0: p1 = p2 The following test statistic is distributed approximately as standard normal and is the basis of the test:

10-6 Inference on Two Population Proportions 10-6.1 Large-Sample Test for H0: p1 = p2

10-6 Inference on Two Population Proportions Example 10-14

10-6 Inference on Two Population Proportions Example 10-14

10-6 Inference on Two Population Proportions Example 10-14

10-6 Inference on Two Population Proportions Minitab Output for Example 10-14

10-6 Inference on Two Population Proportions 10-6.3 -Error and Choice of Sample Size

10-6 Inference on Two Population Proportions 10-6.3 -Error and Choice of Sample Size

10-6 Inference on Two Population Proportions 10-6.3 -Error and Choice of Sample Size

10-6 Inference on Two Population Proportions 10-6.4 Confidence Interval for p1 – p2

10-6 Inference on Two Population Proportions Example 10-15

10-6 Inference on Two Population Proportions Example 10-15