BHS 204-01 Methods in Behavioral Sciences I May 9, 2003 Chapter 6 and 7 (Ray) Control: The Keystone of the Experimental Method.

Slides:

Advertisements

Similar presentations

C82MST Statistical Methods 2 - Lecture 2 1 Overview of Lecture Variability and Averages The Normal Distribution Comparing Population Variances Experimental.

Advertisements

Design of Experiments and Analysis of Variance

Conducting a User Study Human-Computer Interaction.

BHS Methods in Behavioral Sciences I April 25, 2003 Chapter 6 (Ray) The Logic of Hypothesis Testing.

Experimental Design & Analysis

Chapter 3 Analysis of Variance

PSY 307 – Statistics for the Behavioral Sciences

BHS Methods in Behavioral Sciences I

Lecture 9: One Way ANOVA Between Subjects

8. ANALYSIS OF VARIANCE 8.1 Elements of a Designed Experiment

One-way Between Groups Analysis of Variance

S519: Evaluation of Information Systems

Statistics for the Social Sciences

Chapter 9 - Lecture 2 Computing the analysis of variance for simple experiments (single factor, unrelated groups experiments).

Independent Sample T-test Classical design used in psychology/medicine N subjects are randomly assigned to two groups (Control * Treatment). After treatment,

Statistical Methods in Computer Science Hypothesis Testing II: Single-Factor Experiments Ido Dagan.

Inferential Statistics

Chapter 12 Inferential Statistics Gay, Mills, and Airasian

Choosing Statistical Procedures

Chapter 9 Two-Sample Tests Part II: Introduction to Hypothesis Testing Renee R. Ha, Ph.D. James C. Ha, Ph.D Integrative Statistics for the Social & Behavioral.

AM Recitation 2/10/11.

PS 225 Lecture 15 Analysis of Variance ANOVA Tables.

Chapter 4 Hypothesis Testing, Power, and Control: A Review of the Basics.

Hypothesis Testing.

Chapter 8 Introduction to Hypothesis Testing

ANOVA Greg C Elvers.

1 1 Slide © 2005 Thomson/South-Western Chapter 13, Part A Analysis of Variance and Experimental Design n Introduction to Analysis of Variance n Analysis.

1 1 Slide © 2008 Thomson South-Western. All Rights Reserved Chapter 13 Experimental Design and Analysis of Variance nIntroduction to Experimental Design.

McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. Statistical Inferences Based on Two Samples Chapter 9.

Which Test Do I Use? Statistics for Two Group Experiments The Chi Square Test The t Test Analyzing Multiple Groups and Factorial Experiments Analysis of.

1)Test the effects of IV on DV 2)Protects against threats to internal validity Internal Validity – Control through Experimental Design Chapter 10 – Lecture.

Learning Objectives In this chapter you will learn about the t-test and its distribution t-test for related samples t-test for independent samples hypothesis.

Educational Research: Competencies for Analysis and Application, 9 th edition. Gay, Mills, & Airasian © 2009 Pearson Education, Inc. All rights reserved.

PSY 307 – Statistics for the Behavioral Sciences Chapter 16 – One-Factor Analysis of Variance (ANOVA)

Experimental Design: One-Way Correlated Samples Design

Between-Groups ANOVA Chapter 12. >When to use an F distribution Working with more than two samples >ANOVA Used with two or more nominal independent variables.

Chapter 10: Analyzing Experimental Data Inferential statistics are used to determine whether the independent variable had an effect on the dependent variance.

Inference and Inferential Statistics Methods of Educational Research EDU 660.

Statistics for the Social Sciences Psychology 340 Fall 2012 Analysis of Variance (ANOVA)

One-Way ANOVA ANOVA = Analysis of Variance This is a technique used to analyze the results of an experiment when you have more than two groups.

1 Chapter 15 Introduction to the Analysis of Variance IThe Omnibus Null Hypothesis H 0 :  1 =  2 =... =  p H 1 :  j =  j′ for some j and j´

Chapter 9 Three Tests of Significance Winston Jackson and Norine Verberg Methods: Doing Social Research, 4e.

Human-Computer Interaction. Overview What is a study? Empirically testing a hypothesis Evaluate interfaces Why run a study? Determine ‘truth’ Evaluate.

Chapter 14 – 1 Chapter 14: Analysis of Variance Understanding Analysis of Variance The Structure of Hypothesis Testing with ANOVA Decomposition of SST.

Chapter 14 Repeated Measures and Two Factor Analysis of Variance

Statistical Inference for the Mean Objectives: (Chapter 9, DeCoursey) -To understand the terms: Null Hypothesis, Rejection Region, and Type I and II errors.

1 Objective Compare of two population variances using two samples from each population. Hypothesis Tests and Confidence Intervals of two variances use.

 Descriptive Methods ◦ Observation ◦ Survey Research  Experimental Methods ◦ Independent Groups Designs ◦ Repeated Measures Designs ◦ Complex Designs.

Three Broad Purposes of Quantitative Research 1. Description 2. Theory Testing 3. Theory Generation.

© 2006 by The McGraw-Hill Companies, Inc. All rights reserved. 1 Chapter 7 Sampling, Significance Levels, and Hypothesis Testing Three scientific traditions.

Chapter 10 The t Test for Two Independent Samples

Copyright (C) 2002 Houghton Mifflin Company. All rights reserved. 1 Understandable Statistics S eventh Edition By Brase and Brase Prepared by: Lynn Smith.

Chapter 12 Introduction to Analysis of Variance PowerPoint Lecture Slides Essentials of Statistics for the Behavioral Sciences Eighth Edition by Frederick.

Chapter 13 Repeated-Measures and Two-Factor Analysis of Variance

Hypothesis Testing Chapter 6. Steps for Conducting Scientific Research Step 1: Formulate a hypothesis Step 2: Design a study Step 3: Collect & analyze.

Analyzing Statistical Inferences July 30, Inferential Statistics? When? When you infer from a sample to a population Generalize sample results to.

Statistics for Political Science Levin and Fox Chapter Seven

Copyright c 2001 The McGraw-Hill Companies, Inc.1 Chapter 11 Testing for Differences Differences betweens groups or categories of the independent variable.

CHAPTER 10 ANOVA - One way ANOVa.

Introduction to ANOVA Research Designs for ANOVAs Type I Error and Multiple Hypothesis Tests The Logic of ANOVA ANOVA vocabulary, notation, and formulas.

Slides to accompany Weathington, Cunningham & Pittenger (2010), Chapter 12: Single Variable Between- Subjects Research 1.

© 2006 by The McGraw-Hill Companies, Inc. All rights reserved. 1 Chapter 11 Testing for Differences Differences betweens groups or categories of the independent.

Aron, Aron, & Coups, Statistics for the Behavioral and Social Sciences: A Brief Course (3e), © 2005 Prentice Hall Chapter 10 Introduction to the Analysis.

©2013, The McGraw-Hill Companies, Inc. All Rights Reserved Chapter 4 Investigating the Difference in Scores.

Statistical Inference for the Mean Objectives: (Chapter 8&9, DeCoursey) -To understand the terms variance and standard error of a sample mean, Null Hypothesis,

Educational Research Inferential Statistics Chapter th Chapter 12- 8th Gay and Airasian.

Internal Validity – Control through

Chapter 10 Introduction to the Analysis of Variance

BHS Methods in Behavioral Sciences I

Rest of lecture 4 (Chapter 5: pg ) Statistical Inferences

Presentation transcript:

BHS Methods in Behavioral Sciences I May 9, 2003 Chapter 6 and 7 (Ray) Control: The Keystone of the Experimental Method

Sources of Variance  Systematic variation – differences related to the experimental manipulation. Can also be differences related to uncontrolled variables (confounds) or systematic bias (e.g. faulty equipment or procedures).  Chance variation – nonsystematic differences. Cannot be attributed to any factor. Also called “error”.

F-Ratio  A comparison of the differences between groups with the differences within groups.  Between-group variance = treatment effect + chance variance.  Within-group variance = chance variance.  If there is a treatment effect, then the between-group variance should be greater than the within-group variance.

Testing the Null Hypothesis  Between-group variance (treatment effect) must be greater than within-group variance (chance variation), F > 1.0.  How much greater? Normal curve shows that 2 SD, p <.05 is likely to be a meaningful difference.  The p value is a compromise between the likelihood of accepting a false finding and the likelihood of not accepting a true hypothesis.

Box 6.1. (p. 135) Type I and Type II Errors.

Types of Errors  Type I error – likelihood of rejecting the null when it is true and accepting the alternative when it is false (making a false claim). This is the p value is probability of making a Type I error.  Type II error – likelihood of accepting null when it is false and rejecting the alternative when it is true. Probability is , the power of a statistic is 1- .

Reporting the F-Ratio  ANOVA is used to calculate the F-Ratio.  Example: The experimental group showed significantly greater weight gain (M = 55) compared to the control group (M = 21), F(1, 12) = 4.75, p=.05. Give the degrees of freedom for the numerator and denominator.

When to Use ANOVA  When there are two or more independent groups.  When the population is likely to be normally distributed.  When variance is similar within the groups compared.  When group sizes (N’s) are close to equal.

Threats to Internal Validity  It is the experimenter’s job to eliminate as many threats to internal validity as possible.  Such threats constitute sources of systematic variance that can be confused with an effect, resulting in a Type I error.  Potential threats to validity must be evaluated in the Discussion section of the research report.

Two Ways of Achieving Control  Participant assignment and selection: Random sampling. Random assignment to conditions.  Experimental design: Add a control group. Include a baseline measurement before the treatment (pretest). Treat subjects consistently across all groups. Four-group design tests for effects of the testing.

Figure 7.3. (p. 159) The four conceptual steps in experimentation.