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book Introduction to Econometrics 3rd Edition by James Stock, Mark Watson cover

Introduction to Econometrics 3rd Edition by James Stock, Mark Watson

النسخة 3الرقم المعياري الدولي: 978-9352863501

book Introduction to Econometrics 3rd Edition by James Stock, Mark Watson cover

Introduction to Econometrics 3rd Edition by James Stock, Mark Watson

النسخة 3الرقم المعياري الدولي: 978-9352863501

تمرين 5

Consider the problem of minimizing the sum of squared residuals subject to the constraint that Rb = r, where R is q × ( k + 1) with rank cj. Let

Consider the problem of minimizing the sum of squared residuals subject to the constraint that Rb = r, where R is q × ( k + 1) with rank cj. Let be the value of b that solves the constrained minimization problem. a. Show that the Lagrangian for the minimization problem is L(b , ) = ( Y- Xb ) ' ( Y-Xb ) + ' ( Rb - r ), where is a q × 1 vector of Lagrange multipliers. b. Show that c. Show that d. Show that F in Equation (18.36) is equivalent to the homoskeskasticity-only F -statistic in Equation (7.13).

be the value of b that solves the constrained minimization problem.
a. Show that the Lagrangian for the minimization problem is L(b , ) = ( Y- Xb ) ' ( Y-Xb ) + ' ( Rb - r ), where is a q × 1 vector of Lagrange multipliers.
b. Show that

Consider the problem of minimizing the sum of squared residuals subject to the constraint that Rb = r, where R is q × ( k + 1) with rank cj. Let be the value of b that solves the constrained minimization problem. a. Show that the Lagrangian for the minimization problem is L(b , ) = ( Y- Xb ) ' ( Y-Xb ) + ' ( Rb - r ), where is a q × 1 vector of Lagrange multipliers. b. Show that c. Show that d. Show that F in Equation (18.36) is equivalent to the homoskeskasticity-only F -statistic in Equation (7.13).

c. Show that

Consider the problem of minimizing the sum of squared residuals subject to the constraint that Rb = r, where R is q × ( k + 1) with rank cj. Let be the value of b that solves the constrained minimization problem. a. Show that the Lagrangian for the minimization problem is L(b , ) = ( Y- Xb ) ' ( Y-Xb ) + ' ( Rb - r ), where is a q × 1 vector of Lagrange multipliers. b. Show that c. Show that d. Show that F in Equation (18.36) is equivalent to the homoskeskasticity-only F -statistic in Equation (7.13).

Consider the problem of minimizing the sum of squared residuals subject to the constraint that Rb = r, where R is q × ( k + 1) with rank cj. Let be the value of b that solves the constrained minimization problem. a. Show that the Lagrangian for the minimization problem is L(b , ) = ( Y- Xb ) ' ( Y-Xb ) + ' ( Rb - r ), where is a q × 1 vector of Lagrange multipliers. b. Show that c. Show that d. Show that F in Equation (18.36) is equivalent to the homoskeskasticity-only F -statistic in Equation (7.13).

d. Show that F in Equation (18.36) is equivalent to the homoskeskasticity-only F -statistic in Equation (7.13).

التوضيح

موثّق

a) The minimization is
However it is c...

Introduction to Econometrics 3rd Edition by James Stock, Mark Watson

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