TY - BOOK AU - Gujrati, Damodar N TI - Basic Econometrics SN - 9780071333450 U1 - 330.015195 GUJ-B PY - 2009/// CY - New Delhi PB - Mcgraw hill KW - Economics N1 - Contents Preface vii Acknowledgments xi Introduction 1 I.1 What is Econometrics? 1 I.2 Why a Separate Discipline? 2 I.3 Methodology of Econometrics 2 I.4 Types of Econometrics 9 I.5 Mathematical and Statistical Prerequisites 10 I.6 The Role of the Computer 10 I.7 Suggestions for Further Reading 10 PART 1 Single-Equation Regression Models 1. The Nature of Regression Analysis 15 1.1 Historical Origin of the Term Regression 15 1.2 The Modern Interpretation of Regression 15 1.3 Statistical versus Deterministic Relationships 19 1.4 Regression versus Causation 19 1.5 Regression versus Correlation 20 1.6 Terminology and Notation 20 1.7 The Nature and Sources of Data for Economic Analysis 21 Summary and Conclusions 28 Multiple Choice Questions 29 Exercises 32 Key to Multiple Choice Questions 37 2. Two-Variable Regression Analysis: Some Basic Ideas 38 2.1 A Hypothetical Example 38 2.2 The Concept of Population Regression Function (PRF) 41 2.3 The Meaning of the Term Linear 42 2.4 Stochastic Specifi cation of PRF 43 xvi Contents 2.5 The Signifi cance of the Stochastic Disturbance Term 45 2.6 The Sample Regression Function (SRF) 46 2.7 Illustrative Examples 49 Summary and Conclusions 51 Multiple Choice Questions 51 Exercises 54 Key to Multiple Choice Questions 60 3. Two-Variable Regression Model: The Problem of Estimation 61 3.1 The Method of Ordinary Least Squares 61 3.2 The Classical Linear Regression Model: The Assumptions Underlying the Method of Least Squares 67 3.3 Precision or Standard Errors of Least-Squares Estimates 74 3.4 Properties of Least-Squares Estimators: The Gauss–Markov Theorem 76 3.5 The Coeffi cient of Determination r2 : A Measure of “Goodness of Fit” 78 3.6 A Numerical Example 83 3.7 Illustrative Examples 86 3.8 A Note on Monte Carlo Experiments 88 Summary and Conclusions 89 Multiple Choice Questions 90 Exercises 93 Key to Multiple Choice Questions 99 Appendix 3A 100 4. Classical Normal Linear Regression Model (CNLRM) 105 4.1 The Probability Distribution of Disturbances ui 105 4.2 The Normality Assumption for ui 106 4.3 Properties of OLS Estimators under the Normality Assumption 107 4.4 The Method of Maximum Likelihood (ML) 109 Summary and Conclusions 110 Appendix 4A 113 5. Two-Variable Regression: Interval Estimation and Hypothesis Testing 115 5.1 Statistical Prerequisites 115 5.2 Interval Estimation: Some Basic Ideas 115 5.3 Confi dence Intervals for Regression Coeffi cients b1 and b2 117 5.4 Confi dence Interval for s2 119 5.5 Hypothesis Testing: General Comments 120 5.6 Hypothesis Testing: The Confi dence-Interval Approach 121 5.7 Hypothesis Testing: The Test-of-Signifi cance Approach 122 5.8 Hypothesis Testing: Some Practical Aspects 127 5.9 Regression Analysis and Analysis of Variance 131 5.10 Application of Regression Analysis: The Problem of Prediction 133 5.11 Reporting the Results of Regression Analysis 136 5.12 Evaluating the Results of Regression Analysis 137 Summary and Conclusions 140 Multiple Choice Questions 141 Exercises 146 Contents xvii Key to Multiple Choice Questions 154 Appendix 5A 155 6. Extensions of the Two-Variable Linear Regression Model 159 6.1 Regression through the Origin 159 6.2 Scaling and Units of Measurement 166 6.3 Regression on Standardized Variables 170 6.4 Functional Forms of Regression Models 171 6.5 How to Measure Elasticity: The Log-Linear Model 172 6.6 Semilog Models: Log–Lin and Lin–Log Models 175 6.7 Reciprocal Models 179 6.8 Choice of Functional Form 184 6.9 A Note on the Nature of the Stochastic Error Term: Additive versus Multiplicative Stochastic Error Term 186 Summary and Conclusions 187 Multiple Choice Questions 188 Exercises 190 Key to Multiple Choice Questions 196 Appendix 6A 197 7. Multiple Regression Analysis: The Problem of Estimation 203 7.1 The Three-Variable Model: Notation and Assumptions 203 7.2 Interpretation of Multiple Regression Equation 205 7.3 The Meaning of Partial Regression Coeffi cients 205 7.4 OLS and ML Estimation of the Partial Regression Coeffi cients 207 7.5 The Multiple Coeffi cient of Determination R2 and the Multiple Coeffi cient of Correlation R 210 7.6 An Illustrative Example 212 7.7 Simple Regression in the Context of Multiple Regression: Introduction to Specifi cation Bias 214 7.8 R2 and the Adjusted R2 215 7.9 The Cobb–Douglas Production Function: More on Functional Form 220 7.10 Polynomial Regression Models 223 *7.11 Partial Correlation Coeffi cients 226 Summary and Conclusions 228 Multiple Choice Questions 228 Exercises 231 Key to Multiple Choice Questions 243 Appendix 7A 243 8. Multiple Regression Analysis: The Problem of Inference 249 8.1 The Normality Assumption Once Again 249 8.2 Hypothesis Testing in Multiple Regression: General Comments 250 8.3 Hypothesis Testing about Individual Regression Coeffi cients 251 8.4 Testing the Overall Signifi cance of the Sample Regression 253 8.5 Testing the Equality of Two Regression Coeffi cients 262 8.6 Restricted Least Squares: Testing Linear Equality Restrictions 264 8.7 Testing for Structural or Parameter Stability of Regression Models: The Chow Test 270 xviii Contents 8.8 Prediction with Multiple Regression 275 8.9 The Troika of Hypothesis Tests: The Likelihood Ratio (LR), Wald (W), and Lagrange Multiplier (LM) Tests 275 8.10 Testing the Functional Form of Regression: Choosing between Linear and Log–Linear Regression Models 276 Summary and Conclusions 278 Multiple Choice Questions 278 Exercises 281 Key to Multiple Choice Questions 292 Appendix 8A 292 9. Dummy Variable Regression Models 295 9.1 The Nature of Dummy Variables 295 9.2 ANOVA Models 296 9.3 ANOVA Models with Two Qualitative Variables 300 9.4 Regression with a Mixture of Quantitative and Qualitative Regressors: The ANCOVA Models 302 9.5 The Dummy Variable Alternative to the Chow Test 303 9.6 Interaction Effects Using Dummy Variables 306 9.7 The Use of Dummy Variables in Seasonal Analysis 307 9.8 Piecewise Linear Regression 311 9.9 Panel Data Regression Models 314 9.10 Some Technical Aspects of the Dummy Variable Technique 314 9.11 Topics for Further Study 316 9.12 A Concluding Example 316 Summary and Conclusions 320 Multiple Choice Questions 320 Exercises 324 Key to Multiple Choice Questions 332 Appendix 9A 332 PART 2 Relaxing the Assumptions of the Classical Model 10. Multicollinearity: What Happens If the Regressors are Correlated? 339 10.1 The Nature of Multicollinearity 340 10.2 Estimation in the Presence of Perfect Multicollinearity 342 10.3 Estimation in the Presence of “High” but “Imperfect” Multicollinearity 344 10.4 Multicollinearity: Much Ado about Nothing? Theoretical Consequences of Multicollinearity 344 10.5 Practical Consequences of Multicollinearity 346 10.6 An Illustrative Example 351 10.7 Detection of Multicollinearity 356 10.8 Remedial Measures 360 10.9 Is Multicollinearity Necessarily Bad? Maybe Not, If the Objective Is Prediction Only 365 10.10 An Extended Example: The Longley Data 365 Summary and Conclusions 368 Contents xix Multiple Choice Questions 369 Exercises 372 Key to Multiple Choice Questions 385 11. Heteroscedasticity: What Happens if the Error Variance is Nonconstant? 386 11.1 The Nature of Heteroscedasticity 386 11.2 OLS Estimation in the Presence of Heteroscedasticity 391 11.3 The Method of Generalized Least Squares (GLS) 392 11.4 Consequences of Using OLS in the Presence of Heteroscedasticity 395 11.5 Detection of Heteroscedasticity 397 11.6 Remedial Measures 410 11.7 Concluding Examples 416 11.8 A Caution about Overreacting to Heteroscedasticity 420 Summary and Conclusions 421 Multiple Choice Questions 421 Exercises 424 Key to Multiple Choice Questions 432 Appendix 11A 432 12. Autocorrelation: What Happens if the Error Terms are Correlated? 436 12.1 The Nature of the Problem 437 12.2 OLS Estimation in the Presence of Autocorrelation 443 12.3 The BLUE Estimator in the Presence of Autocorrelation 445 12.4 Consequences of Using OLS in the Presence of Autocorrelation 446 12.5 Relationship between Wages and Productivity in the Business Sector of the United States, 1960–2005 451 12.6 Detecting Autocorrelation 453 12.7 What to do when you fi nd Autocorrelation: Remedial Measures 463 12.8 Model Mis-Specifi cation versus Pure Autocorrelation 463 12.9 Correcting for (Pure) Autocorrelation: The Method of Generalized Least Squares (GLS) 464 12.10 The Newey–West Method of Correcting the OLS Standard Errors 470 12.11 OLS versus FGLS and HAC 470 12.12 Additional Aspects of Autocorrelation 471 12.13 A Concluding Example 472 Summary and Conclusions 474 Multiple Choice Questions 475 Exercises 478 Key to Multiple Choice Questions 490 Appendix 12A 491 13. Econometric Modeling: Model Specifi cation and Diagnostic Testing 492 13.1 Model Selection Criteria 493 13.2 Types of Specifi cation Errors 493 13.3 Consequences of Model Specifi cation Errors 495 13.4 Tests of Specifi cation Errors 499 13.5 Errors of Measurement 506 xx Contents 13.6 Incorrect Specifi cation of the Stochastic Error Term 510 13.7 Nested versus Non-Nested Models 510 13.8 Tests of Non-Nested Hypotheses 511 13.9 Model Selection Criteria 516 13.10 Additional Topics in Econometric Modeling 520 13.11 Concluding Examples 524 13.12 Non-Normal Errors and Stochastic Regressors 533 13.13 A Word to the Practitioner 535 Summary and Conclusions 536 Multiple Choice Questions 537 Exercises 540 Key to Multiple Choice Questions 546 Appendix 13A 546 PART 3 Topics in Econometrics 14. Nonlinear Regression Models 553 14.1 Intrinsically Linear and Intrinsically Nonlinear Regression Models 553 14.2 Estimation of Linear and Nonlinear Regression Models 555 14.3 Estimating Nonlinear Regression Models: The Trial-and-Error Method 555 14.4 Approaches to Estimating Nonlinear Regression Models 557 14.5 Illustrative Examples 558 Summary and Conclusions 562 Multiple Choice Questions 563 Exercises 565 Key to Multiple Choice Questions 566 Appendix 14A 567 15. Qualitative Response Regression Models 570 15.1 The Nature of Qualitative Response Models 570 15.2 The Linear Probability Model (LPM) 572 15.3 Applications of LPM 578 15.4 Alternatives to LPM 581 15.5 The Logit Model 582 15.6 Estimation of the Logit Model 584 15.7 The Grouped Logit (Glogit) Model: A Numerical Example 587 15.8 The Logit Model for Ungrouped or Individual Data 590 15.9 The Probit Model 594 15.10 Logit and Probit Models 599 15.11 The Tobit Model 602 15.12 Modeling Count Data: The Poisson Regression Model 604 15.13 Further Topics in Qualitative Response Regression Models 607 Summary and Conclusions 609 Multiple Choice Questions 610 Exercises 613 Key to Multiple Choice Questions 620 Appendix 15A 620 Contents xxi 16. Panel Data Regression Models 622 16.1 Why Panel Data? 623 16.2 Panel Data: An Illustrative Example 624 16.3 Pooled OLS Regression or Constant Coeffi cients Model 625 16.4 The Fixed Effect Least-Squares Dummy Variable (LSDV) Model 627 16.5 The Fixed-Effect Within-Group (WG) Estimator 630 16.6 The Random Effects Model (REM) 633 16.7 Properties of Various Estimators 637 16.8 Fixed Effects versus Random Effects Model: Some Guidelines 637 16.9 Panel Data Regressions: Some Concluding Comments 638 16.10 Some Illustrative Examples 639 Summary and Conclusions 644 Multiple Choice Questions 645 Exercises 648 Key to Multiple Choice Questions 651 17. Dynamic Econometric Models: Autoregressive and Distributed-Lag Models 652 17.1 The Role of “Time,” or “Lag,” in Economics 653 17.2 The Reasons for Lags 657 17.3 Estimation of Distributed-Lag Models 658 17.4 The Koyck Approach to Distributed-Lag Models 659 17.5 Rationalization of the Koyck Model: The Adaptive Expectations Model 664 17.6 Another Rationalization of the Koyck Model: The Stock Adjustment, or Partial Adjustment, Model 666 17.7 Combination of Adaptive Expectations and Partial Adjustment Models 668 17.8 Estimation of Autoregressive Models 669 17.9 The Method of Instrumental Variables (IV) 670 17.10 Detecting Autocorrelation in Autoregressive Models: Durbin h Test 671 17.11 A Numerical Example: The Demand for Money in Canada, 1979–I to 1988–IV 673 17.12 Illustrative Examples 676 17.13 The Almon Approach to Distributed-Lag Models: The Almon or Polynomial Distributed Lag (PDL) 679 17.14 Causality in Economics: The Granger Causality Test 686 Summary and Conclusions 692 Multiple Choice Questions 693 Exercises 696 Key to Multiple Choice Questions 705 Appendix 17A 705 PART 4 Simultaneous-Equation Models and Time Series Econometrics 18. Simultaneous-Equation Models 709 18.1 The Nature of Simultaneous-Equation Models 709 18.2 Examples of Simultaneous-Equation Models 710 18.3 The Simultaneous-Equation Bias: Inconsistency of OLS Estimators 715 18.4 The Simultaneous-Equation Bias: A Numerical Example 718 Summary and Conclusions 720 xxii Contents Multiple Choice Questions 720 Exercises 721 Key to Multiple Choice Questions 725 19. The Identifi cation Problem 726 19.1 Notations and Defi nitions 726 19.2 The Identifi cation Problem 729 19.3 Rules for Identifi cation 736 19.4 A Test of Simultaneity 740 19.5 Tests for Exogeneity 743 Summary and Conclusions 743 Multiple Choice Questions 744 Exercises 746 Key to Multiple Choice Questions 750 20. Simultaneous-Equation Methods 751 20.1 Approaches to Estimation 751 20.2 Recursive Models and Ordinary Least Squares 753 20.3 Estimation of a Just Identifi ed Equation: The Method of Indirect Least Squares (ILS) 755 20.4 Estimation of an Overidentifi ed Equation: The Method of Two-Stage Least Squares (2SLS) 758 20.5 2SLS: A Numerical Example 761 20.6 Illustrative Examples 764 Summary and Conclusions 770 Multiple Choice Questions 771 Exercises 773 Key to Multiple Choice Questions 777 Appendix 20A 777 21. Time Series Econometrics: Some Basic Concepts 780 21.1 A Look at Selected U.S. Economic Time Series 781 21.2 Key Concepts 782 21.3 Stochastic Processes 783 21.4 Unit Root Stochastic Process 787 21.5 Trend Stationary (TS) and Difference Stationary (DS) Stochastic Processes 788 21.6 Integrated Stochastic Processes 789 21.7 The Phenomenon of Spurious Regression 790 21.8 Tests of Stationarity 791 21.9 The Unit Root Test 797 21.10 Transforming Nonstationary Time Series 802 21.11 Cointegration: Regression of a Unit Root Time Series on Another Unit Root Time Series 805 21.12 Some Economic Applications 808 Summary and Conclusions 811 Multiple Choice Questions 812 Exercises 815 Key to Multiple Choice Questions 819 Contents xxiii 22. Time Series Econometrics: Forecasting 820 22.1 Approaches to Economic Forecasting 820 22.2 AR, MA, and ARIMA Modeling of Time Series Data 822 22.3 The Box–Jenkins (BJ) Methodology 824 22.4 Identifi cation 825 22.5 Estimation of the ARIMA Model 829 22.6 Diagnostic Checking 829 22.7 Forecasting 830 22.8 Further Aspects of the BJ Methodology 831 22.9 Vector Autoregression (VAR) 831 22.10 Measuring Volatility in Financial Time Series: The ARCH and GARCH Models 838 22.11 Concluding Examples 843 Summary and Conclusions 845 Multiple Choice Questions 846 Exercises 848 Key to Multiple Choice Questions 850 Appendix D* Statistical Tables 851 Selected Bibliography 868 Index 873 UR - https://books.google.co.in/books?id=WcCjAgAAQBAJ&printsec=frontcover&dq=Basic+Econometrics&hl=en&sa=X&ved=0ahUKEwiypaPPidXkAhWHMo8KHY6tCiEQ6AEIKDAA#v=onepage&q=Basic%20Econometrics&f=false ER -