Solution manual For Introductory Econometrics A Modern Approach 6th Edition by Jeffrey Wooldridge ISBN 130527010X 978-1305270107

Chapter 1. The Nature of Econometrics and Economic Data

1-1. What Is Econometrics?

1-2. Steps in Empirical Economic Analysis

1-3. The Structure of Economic Data

1-3a. Cross-Sectional Data

1-3b. Time Series Data

1-3c. Pooled Cross Sections

1-3d. Panel or Longitudinal Data

1-3e. A Comment on Data Structures

1-4. Causality and the Notion of Ceteris Paribus in Econometric Analysis

Summary

Key Terms

Problems

Computer Exercises

Part 1. Regression Analysis with Cross-Sectional Data

Chapter 2. The Simple Regression Model

2-1. Definition of the Simple Regression Model

2-2. Deriving the Ordinary Least Squares Estimates

2-2a. A Note on Terminology

2-3. Properties of OLS on Any Sample of Data

2-3a. Fitted Values and Residuals

2-3b. Algebraic Properties of OLS Statistics

2-3c. Goodness-of-Fit

2-4. Units of Measurement and Functional Form

2-4a. The Effects of Changing Units of Measurement on OLS Statistics

2-4b. Incorporating Nonlinearities in Simple Regression

2-4c. The Meaning of “Linear” Regression

2-5. Expected Values and Variances of the OLS Estimators

2-5a. Unbiasedness of OLS

2-5b. Variances of the OLS Estimators

2-5c. Estimating the Error Variance

2-6. Regression through the Origin and Regression on a Constant

Summary

Key Terms

Problems

Computer Exercises

Appendix 2A.

Chapter 3. Multiple Regression Analysis: Estimation

3-1. Motivation for Multiple Regression

3-1a. The Model with Two Independent Variables

3-1b. The Model with k Independent Variables

3-2. Mechanics and Interpretation of Ordinary Least Squares

3-2a. Obtaining the OLS Estimates

3-2b. Interpreting the OLS Regression Equation

3-2c. On the Meaning of “Holding Other Factors Fixed” in Multiple Regression

3-2d. Changing More than One Independent Variable Simultaneously

3-2e. OLS Fitted Values and Residuals

3-2f. A “Partialling Out” Interpretation of Multiple Regression

3-2g. Comparison of Simple and Multiple Regression Estimates

3-2h. Goodness-of-Fit

3-2i. Regression through the Origin

3-3. The Expected Value of the OLS Estimators

3-3a. Including Irrelevant Variables in a Regression Model

3-3b. Omitted Variable Bias: The Simple Case

3-3c. Omitted Variable Bias: More General Cases

3-4. The Variance of the OLS Estimators

3-4a. The Components of the OLS Variances. Multicollinearity

3-4b. Variances in Misspecified Models

3-4c. Estimating σ 2 : Standard Errors of the OLS Estimators

3-5. Efficiency of OLS: The Gauss-Markov Theorem

3-6. Some Comments on the Language of Multiple Regression Analysis

Summary

Key Terms

Problems

Computer Exercises

Appendix 3A.

Chapter 4. Multiple Regression Analysis: Inference

4-1. Sampling Distributions of the OLS Estimators

4-2. Testing Hypotheses about a Single Population Parameter: The t Test

4-2a. Testing against One-Sided Alternatives

4-2b. Two-Sided Alternatives

4-2c. Testing Other Hypotheses about β j

4-2d. Computing p-Values for t Tests

4-2e. A Reminder on the Language of Classical Hypothesis Testing

4-2f. Economic, or Practical, versus Statistical Significance

4-3. Confidence Intervals

4-4. Testing Hypotheses about a Single Linear Combination of the Parameters

4-5. Testing Multiple Linear Restrictions: The F Test

4-5a. Testing Exclusion Restrictions

4-5b. Relationship between F and t Statistics

4-5c. The R-Squared Form of the F Statistic

4-5d. Computing p-Values for F Tests

4-5e. The F Statistic for Overall Significance of a Regression

4-5f. Testing General Linear Restrictions

4-6. Reporting Regression Results

Summary

Key Terms

Problems

Computer Exercises

Chapter 5. Multiple Regression Analysis: OLS Asymptotics

5-1. Consistency

5-1a. Deriving the Inconsistency in OLS

5-2. Asymptotic Normality and Large Sample Inference

5-2a. Other Large Sample Tests: The Lagrange Multiplier Statistic

5-3. Asymptotic Efficiency of OLS

Summary

Key Terms

Problems

Computer Exercises

Appendix 5A.

Chapter 6. Multiple Regression Analysis: Further Issues

6-1. Effects of Data Scaling on OLS Statistics

6-1a. Beta Coefficients

6-2. More on Functional Form

6-2a. More on Using Logarithmic Functional Forms

6-2b. Models with Quadratics

6-2c. Models with Interaction Terms

6-2d. Computing Average Partial Effects

6-3. More on Goodness-of-Fit and Selection of Regressors

6-3a. Adjusted R-Squared

6-3b. Using Adjusted R-Squared to Choose between Nonnested Models

6-3c. Controlling for Too Many Factors in Regression Analysis

6-3d. Adding Regressors to Reduce the Error Variance

6-4. Prediction and Residual Analysis

6-4a. Confidence Intervals for Predictions

6-4b. Residual Analysis

6-4c. Predicting y When log ( y ) Is the Dependent Variable

6-4d. Predicting y When the Dependent Variable Is log ( y )

Summary

Key Terms

Problems

Computer Exercises

Appendix 6A.

Chapter 7. Multiple Regression Analysis with Qualitative Information: Binary (or Dummy) Variables

7-1. Describing Qualitative Information

7-2. A Single Dummy Independent Variable

7-2a. Interpreting Coefficients on Dummy Explanatory Variables When the Dependent Variable Is log ( y )

7-3. Using Dummy Variables for Multiple Categories

7-3a. Incorporating Ordinal Information by Using Dummy Variables

7-4. Interactions Involving Dummy Variables

7-4a. Interactions among Dummy Variables

7-4b. Allowing for Different Slopes

7-4c. Testing for Differences in Regression Functions across Groups

7-5. A Binary Dependent Variable: The Linear Probability Model

7-6. More on Policy Analysis and Program Evaluation

7-7. Interpreting Regression Results with Discrete Dependent Variables

Summary

Key Terms

Problems

Computer Exercises

Chapter 8. Heteroskedasticity

8-1. Consequences of Heteroskedasticity for OLS

8-2. Heteroskedasticity-Robust Inference after OLS Estimation

8-2a. Computing Heteroskedasticity-Robust LM Tests

8-3. Testing for Heteroskedasticity

8-3a. The White Test for Heteroskedasticity

8-4. Weighted Least Squares Estimation

8-4a. The Heteroskedasticity Is Known up to a Multiplicative Constant

8-4b. The Heteroskedasticity Function Must Be Estimated: Feasible GLS

8-4c. What If the Assumed Heteroskedasticity Function Is Wrong?

8-4d. Prediction and Prediction Intervals with Heteroskedasticity

8-5. The Linear Probability Model Revisited

Summary

Key Terms

Problems

Computer Exercises

Chapter 9. More on Specification and Data Issues

9-1. Functional Form Misspecification

9-1a. RESET as a General Test for Functional Form Misspecification

9-1b. Tests against Nonnested Alternatives

9-2. Using Proxy Variables for Unobserved Explanatory Variables

9-2a. Using Lagged Dependent Variables as Proxy Variables

9-2b. A Different Slant on Multiple Regression

9-3. Models with Random Slopes

9-4. Properties of OLS under Measurement Error

9-4a. Measurement Error in the Dependent Variable

9-4b. Measurement Error in an Explanatory Variable

9-5. Missing Data, Nonrandom Samples, and Outlying Observations

9-5a. Missing Data

9-5b. Nonrandom Samples

9-5c. Outliers and Influential Observations

9-6. Least Absolute Deviations Estimation

Summary

Key Terms

Problems

Computer Exercises

Part 2. Regression Analysis with Time Series Data

Chapter 10. Basic Regression Analysis with Time Series Data

10-1. The Nature of Time Series Data

10-2. Examples of Time Series Regression Models

10-2a. Static Models

10-2b. Finite Distributed Lag Models

10-2c. A Convention about the Time Index

10-3. Finite Sample Properties of OLS under Classical Assumptions

10-3a. Unbiasedness of OLS

10-3b. The Variances of the OLS Estimators and the Gauss-Markov Theorem

10-3c. Inference under the Classical Linear Model Assumptions

10-4. Functional Form, Dummy Variables, and Index Numbers

10-5. Trends and Seasonality

10-5a. Characterizing Trending Time Series

10-5b. Using Trending Variables in Regression Analysis

10-5c. A Detrending Interpretation of Regressions with a Time Trend

10-5d. Computing R-Squared When the Dependent Variable Is Trending

10-5e. Seasonality

Summary

Key Terms

Problems

Computer Exercises

Chapter 11. Further Issues in Using OLS with Time Series Data

11-1. Stationary and Weakly Dependent Time Series

11-1a. Stationary and Nonstationary Time Series

11-1b. Weakly Dependent Time Series

11-2. Asymptotic Properties of OLS

11-3. Using Highly Persistent Time Series in Regression Analysis

11-3a. Highly Persistent Time Series

11-3b. Transformations on Highly Persistent Time Series

11-3c. Deciding Whether a Time Series Is I(1)

11-4. Dynamically Complete Models and the Absence of Serial Correlation

11-5. The Homoskedasticity Assumption for Time Series Models

Summary

Key Terms

Problems

Computer Exercises

Chapter 12. Serial Correlation and Heteroskedasticity in Time Series Regressions

12-1. Properties of OLS with Serially Correlated Errors

12-1a. Unbiasedness and Consistency

12-1b. Efficiency and Inference

12-1c. Goodness of Fit

12-1d. Serial Correlation in the Presence of Lagged Dependent Variables

12-2. Testing for Serial Correlation

12-2a. A t Test for AR(1) Serial Correlation with Strictly Exogenous Regressors

12-2b. The Durbin-Watson Test under Classical Assumptions

12-2c. Testing for AR(1) Serial Correlation Without Strictly Exogenous Regressors

12-2d. Testing for Higher Order Serial Correlation

12-3. Correcting for Serial Correlation with Strictly Exogenous Regressors

12-3a. Obtaining the Best Linear Unbiased Estimator in the AR(1) Model

12-3b. Feasible GLS Estimation with AR(1) Errors

12-3c. Comparing OLS and FGLS

12-3d. Correcting for Higher Order Serial Correlation

12-4. Differencing and Serial Correlation

12-5. Serial Correlation–Robust Inference after OLS

Serial Correlation–Robust Standard Error for β ^ 1

12-6. Heteroskedasticity in Time Series Regressions

12-6a. Heteroskedasticity-Robust Statistics

12-6b. Testing for Heteroskedasticity

12-6c. Autoregressive Conditional Heteroskedasticity

12-6d. Heteroskedasticity and Serial Correlation in Regression Models

Summary

Key Terms

Problems

Computer Exercises

Part 3. Advanced Topics

Chapter 13. Pooling Cross Sections across Time: Simple Panel Data Methods

13-1. Pooling Independent Cross Sections across Time

13-1a. The Chow Test for Structural Change across Time

13-2. Policy Analysis with Pooled Cross Sections

13-3. Two-Period Panel Data Analysis

13-3a. Organizing Panel Data

13-4. Policy Analysis with Two-Period Panel Data

13-5. Differencing with More than Two Time Periods

13-5a. Potential Pitfalls in First Differencing Panel Data

Summary

Key Terms

Problems

Computer Exercises

Appendix 13A.

Chapter 14. Advanced Panel Data Methods

14-1. Fixed Effects Estimation

14-1a. The Dummy Variable Regression

14-1b. Fixed Effects or First Differencing?

14-1c. Fixed Effects with Unbalanced Panels

14-2. Random Effects Models

14-2a. Random Effects or Fixed Effects?

14-3. The Correlated Random Effects Approach

14-3a. Unbalanced Panels

14-4. Applying Panel Data Methods to Other Data Structures

Summary

Key Terms

Problems

Computer Exercises

Appendix 14A.

Chapter 15. Instrumental Variables Estimation and Two Stage Least Squares

15-1. Motivation: Omitted Variables in a Simple Regression Model

15-1a. Statistical Inference with the IV Estimator

15-1b. Properties of IV with a Poor Instrumental Variable

15-1c. Computing R-Squared after IV Estimation

15-2. IV Estimation of the Multiple Regression Model

15-3. Two Stage Least Squares

15-3a. A Single Endogenous Explanatory Variable

15-3b. Multicollinearity and 2SLS

15-3c. Detecting Weak Instruments

15-3d. Multiple Endogenous Explanatory Variables

15-3e. Testing Multiple Hypotheses after 2SLS Estimation

15-4. IV Solutions to Errors-in-Variables Problems

15-5. Testing for Endogeneity and Testing Overidentifying Restrictions

15-5a. Testing for Endogeneity

15-5b. Testing Overidentification Restrictions

15-6. 2SLS with Heteroskedasticity

15-7. Applying 2SLS to Time Series Equations

Testing for AR(1) Serial Correlation after 2SLS

15-8. Applying 2SLS to Pooled Cross Sections and Panel Data

Summary

Key Terms

Problems

Computer Exercises

Appendix 15A.

Chapter 16. Simultaneous Equations Models

16-1. The Nature of Simultaneous Equations Models

16-2. Simultaneity Bias in OLS

16-3. Identifying and Estimating a Structural Equation

16-3a. Identification in a Two-Equation System

16-3b. Estimation by 2SLS

16-4. Systems with More than Two Equations

16-4a. Identification in Systems with Three or More Equations

16-4b. Estimation

16-5. Simultaneous Equations Models with Time Series

16-6. Simultaneous Equations Models with Panel Data

Summary

Key Terms

Problems

Computer Exercises

Chapter 17. Limited Dependent Variable Models and Sample Selection Corrections

17-1. Logit and Probit Models for Binary Response

17-1a. Specifying Logit and Probit Models

17-1b. Maximum Likelihood Estimation of Logit and Probit Models

17-1c. Testing Multiple Hypotheses

17-1d. Interpreting the Logit and Probit Estimates

17-2. The Tobit Model for Corner Solution Responses

17-2a. Interpreting the Tobit Estimates

17-2b. Specification Issues in Tobit Models

17-3. The Poisson Regression Model

17-4. Censored and Truncated Regression Models

17-4a. Censored Regression Models

17-4b. Truncated Regression Models

17-5. Sample Selection Corrections

17-5a. When Is OLS on the Selected Sample Consistent?

17-5b. Incidental Truncation

Summary

Key Terms

Problems

Computer Exercises

Appendix 17A.

Appendix 17B.

Chapter 18. Advanced Time Series Topics

18-1. Infinite Distributed Lag Models

18-1a. The Geometric (or Koyck) Distributed Lag

18-1b. Rational Distributed Lag Models

18-2. Testing for Unit Roots

18-3. Spurious Regression

18-4. Cointegration and Error Correction Models

18-4a. Cointegration

18-4b. Error Correction Models

18-5. Forecasting

18-5a. Types of Regression Models Used for Forecasting

18-5b. One-Step-Ahead Forecasting

18-5c. Comparing One-Step-Ahead Forecasts

18-5d. Multiple-Step-Ahead Forecasts

18-5e. Forecasting Trending, Seasonal, and Integrated Processes

Summary

Key Terms

Problems

Computer Exercises

Chapter 19. Carrying out an Empirical Project

19-1. Posing a Question

19-2. Literature Review

19-3. Data Collection

19-3a. Deciding on the Appropriate Data Set

19-3b. Entering and Storing Your Data

19-3c. Inspecting, Cleaning, and Summarizing Your Data

19-4. Econometric Analysis

19-5. Writing an Empirical Paper

19-5a. Introduction

19-5b. Conceptual (or Theoretical) Framework

19-5c. Econometric Models and Estimation Methods

19-5d. The Data

19-5e. Results

19-5f. Conclusions

19-5g. Style Hints

Summary

Key Terms

Sample Empirical Projects

List of Journals

Data Sources

Appendix A. Basic Mathematical Tools

Appendix B. Fundamentals of Probability

Appendix C. Fundamentals of Mathematical Statistics

Appendix D. Summary of Matrix Algebra

Appendix E. The Linear Regression Model in Matrix Form

Appendix G. Statistical Tables

References