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Brief Contents
PART ONE Introduction and Review
Chapter 1 Economic Questions and Data 43
Chapter 2 Review of Probability 55
Chapter 3 Review of Statistics 103
PART TWO Fundamentals of Regression Analysis
Chapter 4 Linear Regression with One Regressor 143
Chapter 5 Regression with a Single Regressor: Hypothesis Tests and Confidence Intervals 178
Chapter 6 Linear Regression with Multiple Regressors 211
Chapter 7 Hypothesis Tests and Confidence Intervals in Multiple Regression 247
Chapter 8 Nonlinear Regression Functions 277
Chapter 9 Assessing Studies Based on Multiple Regression 330
PART THREE
Further Topics in Regression Analysis
Chapter 10 Regression with Panel Data 361
Chapter 11 Regression with a Binary Dependent Variable 392
Chapter 12 Instrumental Variables Regression 427
Chapter 13 Experiments and Quasi-Experiments 474
Chapter 14 Prediction with Many Regressors and Big Data 514
PART FOUR Regression Analysis of Economic Time Series Data
Chapter 15 Introduction to Time Series Regression and Forecasting 554
Chapter 16 Estimation of Dynamic Causal Effects 609
Chapter 17 Additional Topics in Time Series Regression 649
PART FIVE
Regression Analysis of Economic Time Series Data
Chapter 18 The Theory of Linear Regression with One Regressor 687
Chapter 19 The Theory of Multiple Regression 713
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Contents
Preface 27
PART ONE Introduction and Review
CHAPTER 1 Economic Questions and Data 43
1.1 Economic Questions We Examine 43
Question #1: Does Reducing Class Size Improve Elementary School Education? 43
Question #2: Is There Racial Discrimination in the Market for Home Loans? 44
Question #3: Does Healthcare Spending Improve Health Outcomes? 45
Question #4: By How Much Will U.S. GDP Grow Next Year? 46
Quantitative Questions, Quantitative Answers 47
1.2 Causal Effects and Idealized Experiments 47
Estimation of Causal Effects 48
Prediction, Forecasting, and Causality 48
1.3 Data: Sources and Types 49
Experimental versus Observational Data 49
Cross-Sectional Data 50
Time Series Data 51
Panel Data 52
CHAPTER 2 Review of Probability 55
2.1 Random Variables and Probability Distributions 56
Probabilities, the Sample Space, and Random Variables 56
Probability Distribution of a Discrete Random Variable 56
Probability Distribution of a Continuous Random Variable 58
2.2 Expected Values, Mean, and Variance 60
The Expected Value of a Random Variable 60
The Standard Deviation and Variance 61
Mean and Variance of a Linear Function of a Random Variable 62
Other Measures of the Shape of a Distribution 63
Standardized Random Variables 65
2.3 Two Random Variables 65
Joint and Marginal Distributions 65
Conditional Distributions 66
Independence 70
Covariance and Correlation 70
The Mean and Variance of Sums of Random Variables 71
2.4 The Normal, Chi-Squared, Student t, and F Distributions 75
The Normal Distribution 75
The Chi-Squared Distribution 80
The Student t Distribution 80
The F Distribution 80
2.5 Random Sampling and the Distribution of the Sample Average 81
Random Sampling 81
The Sampling Distribution of the Sample Average 82
2.6 Large-Sample Approximations to Sampling Distributions 85
The Law of Large Numbers and Consistency 85
The Central Limit Theorem 86
APPENDIX 2.1 Derivation of Results in Key Concept 2.3 100
APPENDIX 2.2 The Conditional Mean as the Minimum Mean Squared Error Predictor 101
CHAPTER 3 Review of Statistics 103
3.1 Estimation of the Population Mean 104
Estimators and Their Properties 104
Properties of Y 106
The Importance of Random Sampling 108
3.2 Hypothesis Tests Concerning the Population Mean 109
Null and Alternative Hypotheses 109
The p-Value 110
Calculating the p-Value When sY Is Known 111
The Sample Variance, Sample Standard Deviation, and Standard Error 112
Calculating the p-Value When sY Is Unknown 113
The t-Statistic 113
Hypothesis Testing with a Prespecified Significance Level 114
One-Sided Alternatives 116
3.3 Confidence Intervals for the Population Mean 117
3.4 Comparing Means from Different Populations 119
Hypothesis Tests for the Difference Between Two Means 119
Confidence Intervals for the Difference Between Two Population Means 120
3.5 Differences-of-Means Estimation of Causal Effects Using Experimental Data 121
The Causal Effect as a Difference of Conditional Expectations 121
Estimation of the Causal Effect Using Differences of Means 121
3.6 Using the t-Statistic When the Sample Size Is Small 123
The t-Statistic and the Student t Distribution 125
Use of the Student t Distribution in Practice 126
3.7 Scatterplots, the Sample Covariance, and the Sample Correlation 127
Scatterplots 127
Sample Covariance and Correlation 127
APPENDIX 3.1 The U.S. Current Population Survey 141
APPENDIX 3.2 Two Proofs That Y Is the Least Squares Estimator of μY 141
APPENDIX 3.3 A Proof That the Sample Variance Is Consistent 142
PART TWO Fundamentals of Regression Analysis
CHAPTER 4 Linear Regression with One Regressor 143
4.1 The Linear Regression Model 144
4.2 Estimating the Coefficients of the Linear Regression Model 147
The Ordinary Least Squares Estimator 148
OLS Estimates of the Relationship Between Test Scores and the Student–Teacher Ratio 149
Why Use the OLS Estimator? 151
4.3 Measures of Fit and Prediction Accuracy 153
The R2 153
The Standard Error of the Regression 154
Prediction Using OLS 155
Application to the Test Score Data 155
4.4 The Least Squares Assumptions for Causal Inference 156
Assumption 1: The Conditional Distribution of ui Given Xi Has a Mean of Zero 157 Assumption 2: (Xi, Yi), i = 1, . . . , n, Are Independently and Identically Distributed 158
Assumption 3: Large Outliers Are Unlikely 159
Use of the Least Squares Assumptions 160
4.5 The Sampling Distribution of the OLS Estimators 161
4.6 Conclusion 164
APPENDIX 4.1 The California Test Score Data Set 172
APPENDIX 4.2 Derivation of the OLS Estimators 172
APPENDIX 4.3 Sampling Distribution of the OLS Estimator 173
APPENDIX 4.4 The Least Squares Assumptions for Prediction 176
CHAPTER 5 Regression with a Single Regressor:
Hypothesis Tests and Confidence Intervals 178
5.1 Testing Hypotheses About One of the Regression Coefficients 178
Two-Sided Hypotheses Concerning ß1 179
One-Sided Hypotheses Concerning ß1 182
Testing Hypotheses About the Intercept ß0 184
5.2 Confidence Intervals for a Regression Coefficient 184
5.3 Regression When X Is a Binary Variable 186
Interpretation of the Regression Coefficients 186
5.4 Heteroskedasticity and Homoskedasticity 188
What Are Heteroskedasticity and Homoskedasticity? 188
Mathematical Implications of Homoskedasticity 190
What Does This Mean in Practice? 192
5.5 The Theoretical Foundations of Ordinary Least Squares 194
Linear Conditionally Unbiased Estimators and the Gauss–Markov Theorem 194
Regression Estimators Other Than OLS 195
5.6 Using the t-Statistic in Regression When the Sample Size Is Small 196
The t-Statistic and the Student t Distribution 196
Use of the Student t Distribution in Practice 197
5.7 Conclusion 197
APPENDIX 5.1 Formulas for OLS Standard Errors 206
APPENDIX 5.2 The Gauss–Markov Conditions and a Proof of the Gauss–Markov Theorem 207
CHAPTER 6
6.1
Linear Regression with Multiple Regressors 211
Omitted Variable Bias 211
Definition of Omitted Variable Bias 212
A Formula for Omitted Variable Bias 214
Addressing Omitted Variable Bias by Dividing the Data into Groups 215
6.2 The Multiple Regression Model 217
The Population Regression Line 217
The Population Multiple Regression Model 218
6.3 The OLS Estimator in Multiple Regression 220
The OLS Estimator 220
Application to Test Scores and the Student–Teacher Ratio 221
6.4 Measures of Fit in Multiple Regression 222
The Standard Error of the Regression (SER) 222
The R2 223
The Adjusted R2 223
Application to Test Scores 224
6.5 The Least Squares Assumptions for Causal Inference in Multiple Regression 225
Assumption 1: The Conditional Distribution of ui Given X1i, X2i, . . . , Xki Has a Mean of 0 225
Assumption 2: (X1i, X2i, . . . , Xki, Yi), i = 1, . . . , n, Are i.i.d. 225
Assumption 3: Large Outliers Are Unlikely 225
Assumption 4: No Perfect Multicollinearity 226
6.6 The Distribution of the OLS Estimators in Multiple Regression 227
6.7 Multicollinearity 228
Examples of Perfect Multicollinearity 228
Imperfect Multicollinearity 230
6.8 Control Variables and Conditional Mean Independence 231
Control Variables and Conditional Mean Independence 232
6.9 Conclusion 234
APPENDIX 6.1 Derivation of Equation (6.1) 242
APPENDIX 6.2 Distribution of the OLS Estimators When There Are Two Regressors and Homoskedastic Errors 243
APPENDIX 6.3 The Frisch–Waugh Theorem 243
APPENDIX 6.4 The Least Squares Assumptions for Prediction with Multiple Regressors 244
APPENDIX 6.5 Distribution of OLS Estimators in Multiple Regression with Control Variables 245
CHAPTER 7 Hypothesis Tests and Confidence Intervals in Multiple Regression 247
7.1 Hypothesis Tests and Confidence Intervals for a Single Coefficient 247
Standard Errors for the OLS Estimators 247
Hypothesis Tests for a Single Coefficient 248
Confidence Intervals for a Single Coefficient 249
Application to Test Scores and the Student–Teacher Ratio 249
7.2 Tests of Joint Hypotheses 251
Testing Hypotheses on Two or More Coefficients 252
The F-Statistic 253
Application to Test Scores and the Student–Teacher Ratio 255
The Homoskedasticity-Only F-Statistic 256
7.3 Testing Single Restrictions Involving Multiple Coefficients 258
7.4 Confidence Sets for Multiple Coefficients 259
7.5
Model Specification for Multiple Regression 260
Model Specification and Choosing Control Variables 261
Interpreting the R2 and the Adjusted R2 in Practice 262
7.6 Analysis of the Test Score Data Set 262
7.7 Conclusion 268
APPENDIX 7.1 The Bonferroni Test of a Joint Hypothesis 274
CHAPTER 8 Nonlinear Regression Functions 277
8.1 A General Strategy for Modeling Nonlinear Regression Functions 279
Test Scores and District Income 279
The Effect on Y of a Change in X in Nonlinear Specifications 282
A General Approach to Modeling Nonlinearities Using Multiple Regression 285
8.2 Nonlinear Functions of a Single Independent Variable 286
Polynomials 286
Logarithms 288
Polynomial and Logarithmic Models of Test Scores and District Income 296
8.3 Interactions Between Independent Variables 297
Interactions Between Two Binary Variables 298
Interactions Between a Continuous and a Binary Variable 300
Interactions Between Two Continuous Variables 305
8.4
Nonlinear Effects on Test Scores of the Student–Teacher Ratio 310
Discussion of Regression Results 310
Summary of Findings 314
8.5 Conclusion 315
APPENDIX 8.1 Regression Functions That Are Nonlinear in the Parameters 325
APPENDIX 8.2 Slopes and Elasticities for Nonlinear Regression Functions 328
CHAPTER 9 Assessing Studies Based on Multiple Regression 330
9.1
Internal and External Validity 330
Threats to Internal Validity 331
Threats to External Validity 332
9.2 Threats to Internal Validity of Multiple Regression Analysis 333
Omitted Variable Bias 334
Misspecification of the Functional Form of the Regression Function 336
Measurement Error and Errors-in-Variables Bias 336
Missing Data and Sample Selection 339
Simultaneous Causality 341
Sources of Inconsistency of OLS Standard Errors 343
9.3 Internal and External Validity When the Regression Is Used for Prediction 344
9.4 Example: Test Scores and Class Size 345
External Validity 346
Internal Validity 352
Discussion and Implications 353
9.5 Conclusion 354
APPENDIX 9.1 The Massachusetts Elementary School Testing Data 360
PART THREE Further Topics in Regression Analysis
CHAPTER 10 Regression with Panel Data 361
10.1 Panel Data 362
Example: Traffic Deaths and Alcohol Taxes 362
10.2 Panel Data with Two Time Periods: “Before and After” Comparisons 365
10.3 Fixed Effects Regression 367
The Fixed Effects Regression Model 367
Estimation and Inference 369
Application to Traffic Deaths 370
10.4 Regression with Time Fixed Effects 371
Time Effects Only 371
Both Entity and Time Fixed Effects 372
10.5 The Fixed Effects Regression Assumptions and Standard Errors for Fixed Effects Regression 374
The Fixed Effects Regression Assumptions 374
Standard Errors for Fixed Effects Regression 376
10.6 Drunk Driving Laws and Traffic Deaths 377
10.7 Conclusion 381
APPENDIX 10.1 The State Traffic Fatality Data Set 387
APPENDIX 10.2 Standard Errors for Fixed Effects Regression 388
CHAPTER 11 Regression with a Binary Dependent Variable 392
11.1 Binary Dependent Variables and the Linear Probability Model 393
Binary Dependent Variables 393
The Linear Probability Model 395
11.2 Probit and Logit Regression 397
Probit Regression 397
Logit Regression 401
Comparing the Linear Probability, Probit, and Logit Models 403
11.3 Estimation and Inference in the Logit and Probit Models 404
Nonlinear Least Squares Estimation 404
Maximum Likelihood Estimation 405 Measures of Fit 406
11.4 Application to the Boston HMDA Data 407
11.5 Conclusion 413
APPENDIX 11.1 The Boston HMDA Data Set 421
APPENDIX 11.2 Maximum Likelihood Estimation 421
APPENDIX 11.3 Other Limited Dependent Variable Models 424
CHAPTER 12 Instrumental Variables Regression 427
12.1 The IV Estimator with a Single Regressor and a Single Instrument 428
The IV Model and Assumptions 428
The Two Stage Least Squares Estimator 429
Why Does IV Regression Work? 429
The Sampling Distribution of the TSLS Estimator 434
Application to the Demand for Cigarettes 435
12.2 The General IV Regression Model 437
TSLS in the General IV Model 439
Instrument Relevance and Exogeneity in the General IV Model 440
The IV Regression Assumptions and Sampling Distribution of the TSLS Estimator 441
Inference Using the TSLS Estimator 442
Application to the Demand for Cigarettes 443
12.3 Checking Instrument Validity 444
Assumption 1: Instrument Relevance 444
Assumption 2: Instrument Exogeneity 446
12.4 Application to the Demand for Cigarettes 450
12.5 Where Do Valid Instruments Come From? 454
Three Examples 455
12.6 Conclusion 459
APPENDIX 12.1 The Cigarette Consumption Panel Data Set 467
APPENDIX 12.2 Derivation of the Formula for the TSLS Estimator in Equation (12.4) 467
APPENDIX 12.3 Large-Sample Distribution of the TSLS Estimator 468
APPENDIX 12.4 Large-Sample Distribution of the TSLS Estimator When the Instrument Is Not Valid 469
APPENDIX 12.5 Instrumental Variables Analysis with Weak Instruments 470
APPENDIX 12.6 TSLS with Control Variables 472
CHAPTER 13 Experiments and Quasi-Experiments 474
13.1 Potential Outcomes, Causal Effects, and Idealized Experiments 475
Potential Outcomes and the Average Causal Effect 475
Econometric Methods for Analyzing Experimental Data 476
13.2 Threats to Validity of Experiments 478
Threats to Internal Validity 478
Threats to External Validity 481
13.3 Experimental Estimates of the Effect of Class Size Reductions 482
Experimental Design 482
Analysis of the STAR Data 483
Comparison of the Observational and Experimental Estimates of Class Size Effects 488
13.4 Quasi-Experiments 490
Examples 490
The Differences-in-Differences Estimator 492
Instrumental Variables Estimators 494
Regression Discontinuity Estimators 495
13.5 Potential Problems with Quasi-Experiments 496
Threats to Internal Validity 496
Threats to External Validity 498
13.6 Experimental and Quasi-Experimental Estimates in Heterogeneous Populations 498
OLS with Heterogeneous Causal Effects 499
IV Regression with Heterogeneous Causal Effects 500
13.7 Conclusion 503
APPENDIX 13.1 The Project STAR Data Set 510
APPENDIX 13.2 IV Estimation When the Causal Effect Varies Across Individuals 511
APPENDIX 13.3 The Potential Outcomes Framework for Analyzing Data from Experiments 512
CHAPTER 14 Prediction with Many Regressors and Big Data 514
14.1 What Is “Big Data”? 515
14.2 The Many-Predictor Problem and OLS 516
The Mean Squared Prediction Error 518
The First Least Squares Assumption for Prediction 519
The Predictive Regression Model with Standardized Regressors 519
The MSPE of OLS and the Principle of Shrinkage 521
Estimation of the MSPE 522
14.3 Ridge Regression 524
Shrinkage via Penalization and Ridge Regression 524
Estimation of the Ridge Shrinkage Parameter by Cross Validation 525
Application to School Test Scores 526
14.4 The Lasso 527
Shrinkage Using the Lasso 528
Application to School Test Scores 531
14.5 Principal Components 532
Principals Components with Two Variables 532
Principal Components with k Variables 534
Application to School Test Scores 536
14.6 Predicting School Test Scores with Many Predictors 537
14.7 Conclusion 542
APPENDIX 14.1 The California School Test Score Data Set 551
APPENDIX 14.2 Derivation of Equation (14.4) for k = 1 551
APPENDIX 14.3 The Ridge Regression Estimator When k = 1 551
APPENDIX 14.4 The Lasso Estimator When k = 1 552
APPENDIX 14.5 Computing Out-of-Sample Predictions in the Standardized Regression Model 552
PART FOUR Regression Analysis of Economic Time Series Data
CHAPTER 15
Introduction to Time Series Regression and Forecasting 554
15.1 Introduction to Time Series Data and Serial Correlation 555
Real GDP in the United States 555
Lags, First Differences, Logarithms, and Growth Rates 555
Autocorrelation 558
Other Examples of Economic Time Series 560
15.2 Stationarity and the Mean Squared Forecast Error 561
Stationarity 561
Forecasts and Forecast Errors 562
The Mean Squared Forecast Error 563
15.3 Autoregressions 565
The First-Order Autoregressive Model 565
The pth-Order Autoregressive Model 567
15.4 Time Series Regression with Additional Predictors and the Autoregressive Distributed Lag Model 568
Forecasting GDP Growth Using the Term Spread 569
The Autoregressive Distributed Lag Model 570
The Least Squares Assumptions for Forecasting with Multiple Predictors 571
15.5 Estimation of the MSFE and Forecast Intervals 573
Estimation of the MSFE 573
Forecast Uncertainty and Forecast Intervals 576
15.6
Estimating the Lag Length Using Information Criteria 578
Determining the Order of an Autoregression 578
Lag Length Selection in Time Series Regression with Multiple Predictors 581
15.7 Nonstationarity I: Trends 582
What Is a Trend? 582
Problems Caused by Stochastic Trends 584
Detecting Stochastic Trends: Testing for a Unit AR Root 586
Avoiding the Problems Caused by Stochastic Trends 588
15.8 Nonstationarity II: Breaks 589
What Is a Break? 589
Testing for Breaks 589
Detecting Breaks Using Pseudo Out-of-Sample Forecasts 594
Avoiding the Problems Caused by Breaks 595
15.9 Conclusion 596
APPENDIX 15.1 Time Series Data Used in Chapter 15 604
APPENDIX 15.2 Stationarity in the AR(1) Model 605
APPENDIX 15.3 Lag Operator Notation 606
APPENDIX 15.4 ARMA Models 607
APPENDIX 15.5 Consistency of the BIC Lag Length Estimator 607
CHAPTER 16 Estimation of Dynamic Causal Effects 609
16.1 An Initial Taste of the Orange Juice Data 610
16.2 Dynamic Causal Effects 612
Causal Effects and Time Series Data 612
Two Types of Exogeneity 615
16.3 Estimation of Dynamic Causal Effects with Exogenous Regressors 617
The Distributed Lag Model Assumptions 617
Autocorrelated ut, Standard Errors, and Inference 618
Dynamic Multipliers and Cumulative Dynamic Multipliers 618
16.4 Heteroskedasticity- and Autocorrelation-Consistent Standard Errors 620
Distribution of the OLS Estimator with Autocorrelated Errors 620
HAC Standard Errors 621
16.5 Estimation of Dynamic Causal Effects with Strictly Exogenous Regressors 624
The Distributed Lag Model with AR(1) Errors 625
OLS Estimation of the ADL Model 627
GLS Estimation 628
16.6 Orange Juice Prices and Cold Weather 630
16.7 Is Exogeneity Plausible? Some Examples 637
U.S. Income and Australian Exports 637
Oil Prices and Inflation 637
Monetary Policy and Inflation 638
The Growth Rate of GDP and the Term Spread 638
16.8 Conclusion 639
APPENDIX 16.1 The Orange Juice Data Set 646
APPENDIX 16.2 The ADL Model and Generalized Least Squares in Lag Operator Notation 647
CHAPTER 17 Additional Topics in Time Series Regression 649
17.1 Vector Autoregressions 649
The VAR Model 650
A VAR Model of the Growth Rate of GDP and the Term Spread 653
17.2 Multi-period Forecasts 654
Iterated Multi-period Forecasts 654
Direct Multi-period Forecasts 656
Which Method Should You Use? 658
17.3 Orders of Integration and the Nonnormality of Unit Root Test Statistics 658
Other Models of Trends and Orders of Integration 659
Why Do Unit Root Tests Have Nonnormal Distributions? 661
17.4 Cointegration 663
Cointegration and Error Correction 663
How Can You Tell Whether Two Variables Are Cointegrated? 664
Estimation of Cointegrating Coefficients 665
Extension to Multiple Cointegrated Variables 666
17.5 Volatility Clustering and Autoregressive Conditional Heteroskedasticity 667
Volatility Clustering 667
Realized Volatility 668
Autoregressive Conditional Heteroskedasticity 669
Application to Stock Price Volatility 670
17.6 Forecasting with Many Predictors Using Dynamic Factor Models and Principal Components 671
The Dynamic Factor Model 672
The DFM: Estimation and Forecasting 673
Application to U.S. Macroeconomic Data 676
17.7 Conclusion 682
APPENDIX 17.1 The Quarterly U.S. Macro Data Set 686
PART FIVE Regression Analysis of Economic Time Series Data
CHAPTER 18 The Theory of Linear Regression with One Regressor 687
18.1 The Extended Least Squares Assumptions and the OLS Estimator 688
The Extended Least Squares Assumptions 688
The OLS Estimator 689
18.2 Fundamentals of Asymptotic Distribution Theory 690
Convergence in Probability and the Law of Large Numbers 690
The Central Limit Theorem and Convergence in Distribution 692
Slutsky’s Theorem and the Continuous Mapping Theorem 693
Application to the t-Statistic Based on the Sample Mean 694
18.3 Asymptotic Distribution of the OLS Estimator and t-Statistic 695
Consistency and Asymptotic Normality of the OLS Estimators 695
Consistency of Heteroskedasticity-Robust Standard Errors 695
Asymptotic Normality of the Heteroskedasticity-Robust t-Statistic 696
18.4 Exact Sampling Distributions When the Errors Are Normally Distributed 697
Distribution of b n 1 with Normal Errors 697
Distribution of the Homoskedasticity-Only t-Statistic 698
18.5 Weighted Least Squares 699
WLS with Known Heteroskedasticity 700
WLS with Heteroskedasticity of Known Functional Form 701
Heteroskedasticity-Robust Standard Errors or WLS? 703
APPENDIX 18.1 The Normal and Related Distributions and Moments of Continuous Random Variables 709
APPENDIX 18.2 Two Inequalities 711
CHAPTER 19 The Theory of Multiple Regression 713
19.1 The Linear Multiple Regression Model and OLS Estimator in Matrix Form 714
The Multiple Regression Model in Matrix Notation 714
The Extended Least Squares Assumptions 715
The OLS Estimator 716
19.2 Asymptotic Distribution of the OLS Estimator and t-Statistic 717
The Multivariate Central Limit Theorem 718
Asymptotic Normality of b n 718
Heteroskedasticity-Robust Standard Errors 719
Confidence Intervals for Predicted Effects 720
Asymptotic Distribution of the t-Statistic 720
19.3 Tests of Joint Hypotheses 721
Joint Hypotheses in Matrix Notation 721
Asymptotic Distribution of the F-Statistic 721
Confidence Sets for Multiple Coefficients 722
19.4 Distribution of Regression Statistics with Normal Errors 722
Matrix Representations of OLS Regression Statistics 723
Distribution of b n with Independent Normal Errors 724
Distribution of su 2 724
Homoskedasticity-Only Standard Errors 724
Distribution of the t-Statistic 725
Distribution of the F-Statistic 725 N
19.5 Efficiency of the OLS Estimator with Homoskedastic Errors 726
The Gauss–Markov Conditions for Multiple Regression 726
Linear Conditionally Unbiased Estimators 726
The Gauss–Markov Theorem for Multiple Regression 727
19.6 Generalized Least Squares 728
The GLS Assumptions 729
GLS When Ω Is Known 730
GLS When Ω Contains Unknown Parameters 731
The Conditional Mean Zero Assumption and GLS 731
19.7 Instrumental Variables and Generalized Method of Moments
Estimation 733
The IV Estimator in Matrix Form 733
Asymptotic Distribution of the TSLS Estimator 734
Properties of TSLS When the Errors Are Homoskedastic 735
Generalized Method of Moments Estimation in Linear Models 738
APPENDIX 19.1 Summary of Matrix Algebra 748
APPENDIX 19.2 Multivariate Distributions 752
APPENDIX 19.3 Derivation of the Asymptotic Distribution of b n 753
APPENDIX 19.4 Derivations of Exact Distributions of OLS Test Statistics with Normal Errors 754
APPENDIX 19.5 Proof of the Gauss–Markov Theorem for Multiple Regression 755
APPENDIX 19.6 Proof of Selected Results for IV and GMM Estimation 756
APPENDIX 19.7 Regression with Many Predictors: MSPE, Ridge Regression, and Principal Components Analysis 758
Appendix 763
References 771
Glossary 775
Index 785
Key Concepts
PART ONE Introduction and Review
1.1 Cross-Sectional, Time Series, and Panel Data 53
2.1 Expected Value and the Mean 60
2.2 Variance and Standard Deviation 61
2.3 Means, Variances, and Covariances of Sums of Random Variables 74
2.4 Computing Probabilities and Involving Normal Random Variables 76
2.5 Simple Random Sampling and i.i.d. Random Variables 82
2.6 Convergence in Probability, Consistency, and the Law of Large Numbers 86
2.7 The Central Limit Theorem 89
3.1 Estimators and Estimates 105
3.2 Bias, Consistency, and Efficiency 105
3.3 Efficiency of Y : Y Is BLUE 107
3.4 The Standard Error of Y 113
3.5 The Terminology of Hypothesis Testing 115
3.6 Testing the Hypothesis E(Y) = μY,0 Against the Alternative E(Y) ≠ μY,0 116
3.7 Confidence Intervals for the Population Mean 118
PART TWO Fundamentals of Regression Analysis
4.1 Terminology for the Linear Regression Model with a Single Regressor 146
4.2 The OLS Estimator, Predicted Values, and Residuals 150
4.3 The Least Squares Assumptions for Causal Inference 160
4.4 Large-Sample Distributions of b n 0 and b n 1 162
5.1 General Form of the t-Statistic 179
5.2 Testing the Hypothesis b1 = b1,0 Against the Alternative b1 ≠ b1,0 181
5.3 Confidence Interval for b1 185
5.4 Heteroskedasticity and Homoskedasticity 190
5.5 The Gauss–Markov Theorem for b1 195
6.1 Omitted Variable Bias in Regression with a Single Regressor 213
6.2 The Multiple Regression Model 219
6.3 The OLS Estimators, Predicted Values, and Residuals in the Multiple Regression Model 221
6.4 The Least Squares Assumptions for Causal Inference in the Multiple Regression Model 227
6.5 Large-Sample Distribution of b n 0, b n 1, c , b n k 228
6.6 The Least Squares Assumptions for Causal Inference in the Multiple Regression Model with Control Variables 233
7.1 Testing the Hypothesis bj = bj,0 Against the Alternative bj
7.2 Confidence Intervals for a Single Coefficient in Multiple Regression 250
7.3 R2 and R 2: What They Tell You—and What They Don’t 263
8.1 The Expected Change in Y from a Change in X1 in the Nonlinear Regression Model [Equation (8.3)] 283
8.2 Logarithms in Regression: Three Cases 295
8.3 A Method for Interpreting Coefficients in Regressions with Binary Variables 299
8.4 Interactions Between Binary and Continuous Variables 302
8.5 Interactions in Multiple Regression 306
9.1 Internal and External Validity 331
9.2 Omitted Variable Bias: Should I Include More Variables in My Regression? 335
9.3 Functional Form Misspecification 336
9.4 Errors-in-Variables Bias 338
9.5 Sample Selection Bias 340
9.6 Simultaneous Causality Bias 343
9.7 Threats to the Internal Validity of a Multiple Regression Study 344
PART THREE Further Topics in Regression Analysis
10.1 Notation for Panel Data 362
10.2 The Fixed Effects Regression Model 369
10.3 The Fixed Effects Regression Assumptions 375
11.1 The Linear Probability Model 396
11.2 The Probit Model, Predicted Probabilities, and Estimated Effects 400
11.3 Logit Regression 402
12.1 The General Instrumental Variables Regression Model and Terminology 438
12.2 Two Stage Least Squares 440
12.3 The Two Conditions for Valid Instruments 441
12.4 The IV Regression Assumptions 442
12.5 A Rule of Thumb for Checking for Weak Instruments 446
12.6 The Overidentifying Restrictions Test (The J-Statistic) 449
14.1 m-Fold Cross Validation 523
14.2 The Principal Components of X 535
PART FOUR Regression Analysis of Economic Time Series Data
15.1 Lags, First Differences, Logarithms, and Growth Rates 557
15.2 Autocorrelation (Serial Correlation) and Autocovariance 559
15.3 Stationarity 562
15.4 Autoregressions 568
15.5 The Autoregressive Distributed Lag Model 571
15.6 The Least Squares Assumptions for Forecasting with Time Series Data 572
15.7 Pseudo Out-of-Sample Forecasts 575
15.8 The QLR Test for Coefficient Stability 592
16.1 The Distributed Lag Model and Exogeneity 616
16.2 The Distributed Lag Model Assumptions 618
16.3 HAC Standard Errors 624
17.1 Vector Autoregressions 650
17.2 Iterated Multi-period Forecasts 656
17.3 Direct Multi-period Forecasts 658
17.4 Orders of Integration, Differencing, and Stationarity 660
17.5 Cointegration 664
PART FIVE Regression Analysis of Economic Time Series Data
18.1 The Extended Least Squares Assumptions for Regression with a Single Regressor 689
19.1 The Extended Least Squares Assumptions in the Multiple Regression Model 715
19.2 The Multivariate Central Limit Theorem 718
19.3 Gauss–Markov Theorem for Multiple Regression 727
19.4 The GLS Assumptions 729
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General Interest Boxes
The Distribution of Adulthood Earnings in the United Kingdom by Childhood
Socioeconomic Circumstances 72
The Unpegging of the Swiss Franc 77
Financial Diversification and Portfolios 84
Off the Mark! 108
Social Class or Education? Childhood Circumstances and Adult Earnings
Revisited 122
A Way to Increase Voter Turnout 124
The “Beta” of a Stock 152
The Economic Value of a Year of Education: Homoskedasticity or Heteroskedasticity? 193
Is Coffee Good for Your Health? 214
The Effect of Ageing on Healthcare Expenditures: A Red Herring? 304
The Demand for Economics Journals 307
Do Stock Mutual Funds Outper form the Market? 341
James Heckman and Daniel McFadden, Nobel Laureates 414
When Was Instrumental Variables Regression Invented? 430
The First IV Regression 447
The Externalities of Smoking 451
The Hawthorne Effect 480
Conditional Cash Transfers in Rural Mexico to Increase School Enrollment 483
Text as Data 543
Can You Beat the Market? 564
The River of Blood 577
Orange Trees on the March 635
NEWS FLASH: Commodity Traders Send Shivers Through Disney World 636
