1. Lecture 23 Preview: Simultaneous Equations – Identification
Demand and Supply Models
Ordinary Least Squares (OLS) Estimation Procedure
Reduced Form (RF) Estimation Procedure One Way to Cope with Simultaneous Equation Models
Two Stage Least Squares (TSLS): An Instrumental Variable Two Step Approach – A Second Way to Cope with Simultaneous Equation Models
1st Stage: Use the exogenous explanatory variable(s) to estimate the endogenous explanatory variable(s).
2nd Stage: In the original model, replace the endogenous explanatory variable with its estimate.
Comparison of Reduced Form (RF) and Two Stage Least Squares (TSLS) Estimates
Statistical Software and Two Stage least Squares (TSLS)
Identification of Simultaneous Equation Models: Order Condition
Taking Stock
Underidentification
Overidentification
Overidentification and Two Stage Least Squares (TSLS)
Summary of Identification Issues

2. Review: Simultaneous Equation Demand and Supply Models
Endogenous Variables: Qt and Pt
Exogenous Variables: FeedPt and Inct
Goal: Estimate the price coefficients of the demand and supply models.
Ordinary Least Squares (OLS) Estimation Procedure and Simultaneous Equation Models
Question: When an endogenous explanatory variables is present, is the ordinary least squares (OLS) estimation procedure for its coefficient value
Unbiased?
No.
Consistent?
No.
Review: Reduced Form (RF) Estimation Procedure
Quantity Reduced Form Equation:
Price Reduced Form Equation:
Reduced Form
Estimates:
Price Coefficient Estimates
Demand Model
Supply Model
332.00
17.347
= 314.3
= 921.5
1.0562
Question: When an endogenous explanatory variables is present, is the reduced form (RF) estimation procedure for its coefficient value
Unbiased?
No.
Consistent?
Yes.

3. Ordinary Least Squares (OLS)
Two Stage Least Squares (TSLS) Estimation Procedure
Endogenous Variables: Qt and Pt
Exogenous Variables: FeedPt and Inct
1st Stage: Estimate the variable that is creating the problem, the explanatory endogenous variable:
Dependent variable: “Problem” explanatory variable. The endogenous explanatory variable in the original simultaneous equation model. The variable that creates the bias problem.
In this case, the price of beef, P, is the problem explanatory variable.
Explanatory variables: All exogenous variables.
In this case, the exogenous variables are FeedP and Inc.
1st Stage: Dependent variable: P
Explanatory variables: FeedP and Inc
 EViews
Ordinary Least Squares (OLS)
Dependent Variable: P
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
FeedP
0.0003
Inc
Const
0.2895
Number of Observations
120
Estimated Equation: EstP = FeedP Inc

4. Ordinary Least Squares (OLS) Ordinary Least Squares (OLS)
2nd Stage: Estimate the original models using the estimate of the “problem” explanatory endogenous variable
Dependent variable: Original dependent variable.
In this case, the original explanatory variable is the quantity of beef, Q.
Explanatory variables: Estimate of the “problem” explanatory variable, the endogenous explanatory variable, based on the 1st stage and any relevant exogenous explanatory variables.
2nd Stage – Beef Market Demand Model: Dependent variable: Q
Explanatory Variables: EstP and Inc
Ordinary Least Squares (OLS)
Dependent Variable: Q
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
EstP 
0.0073
Inc
0.0000
Const
Number of Observations
120
 EViews
Estimated Equation: EstQD = 149,107  314.3EstP Inc
2nd Stage – Beef Market Supply Model: Dependent variable: Q
Explanatory Variables: EstP and FeedP
Ordinary Least Squares (OLS)
Dependent Variable: Q
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
EstP
0.0000
FeedP 
Const
Number of Observations
120
Estimated Equation: EstQS = 108, EstP  1,305.2 FeedP

5. Two Stage Least Squares (TSLS) the Easy Way: Let statistical software do the work:
Highlight all relevant variables: Q P Inc FeedP
Double Click.
In the Equation settings window, click the Method drop down list and select TSLS – Two Stage Least Squares (TSNLS and ARIMA).
Instrument List: The exogenous variables – Inc FeedP
Equation Specification: The dependent variable followed by the explanatory variables
Demand Model: Q P Inc
 EViews
Supply Model: Q P FeedP
Reduced Form and Two Stage Least Squares Estimates: A Comparison
Comparison of Estimates Reduced Form (RF) Two Stage Least Squares (TSLS)
 314.3
The reduced for (RF) and two stage least squares estimates (TSLS) are identical.
Identification of Simultaneous Equation Models: Order Condition
Question: Can we always estimate models when an endogenous explanatory variable is present?
Strategy: We shall exploit the coefficient interpretation approach that we introduced in the last lecture to address this question.

6. Review: Reduced Form Coefficient Interpretation Approach
Quantity Reduced Form Equation: EstQ = 38,726  FeedP Inc
Price Reduced Form Equation: EstP = FeedP Inc
Suppose that FeedP increases while Inc remains constant:
Suppose that Inc increases while FeedP remains constant:
Does the demand curve shift? No
Does the demand curve shift?
Yes
Does the supply curve shift?
Yes
Does the supply curve shift? No
What happens to Q and P?
What happens to Q and P?
Q  332.00FeedP
Q  Inc
P  FeedP
P  Inc
Price
Price S’ S
Inc constant FeedP increases
FeedP constant Inc increases D’
P = FeedP
P = Inc S
Q = 332.00FeedP
Q = Inc D D
Quantity
Quantity Q
332.00FeedP
332.00 Q
17.347Inc
17.347  =
= 314.3  =
= 921.5 P
1.0562FeedP
1.0562 P
Inc
QD
QS 
= 314.3 
= 921.5 P P

7. Critical role played by the absent exogenous variables.
Exogenous variables: FeedP and Inc.
A total of 2 exogenous explanatory variables.
Price
Price S’ S
Inc constant FeedP increases
FeedP constant Inc increases D’
Critical role played by the absent exogenous variables.
P = FeedP
P = Inc S
Q = 332.00FeedP
Q = Inc D D
Quantity
Quantity
QD
QS 
= 314.3 
= 921.5 P P
Demand Model
Supply Model
Changes in FeedP
allows us to estimate
demand model’s P coefficient
Changes in Inc
allows us to estimate
supply model’s P coefficient
Demand Model Explanatory Variables
Supply Model Explanatory Variables
Endogenous explanatory variables included
Endogenous explanatory variables included
Exogenous explanatory variables variables included absent
Exogenous explanatory variables variables included absent 1
2  1 = 1 1 1
2  1 = 1 1
1 equals 1
1 equals 1

8. Identification of a Simultaneous Equation Model – Order Condition
Number of exogenous explanatory variables absent from the model
Less Than
Number of endogenous explanatory variables included in the model
Equal To
Greater Than
Model Underidentified
Model Identified
Model Overidentified
No RF Estimate
Unique RF Estimates
Multiple RF Estimates

9. Ordinary Least Squares (OLS) Ordinary Least Squares (OLS)
Underidentified
Suppose that no income data were available?
Simultaneous Equation Demand and Supply Models
Endogenous Variables: Qt and Pt
Exogenous Variables: FeedPt and Inct
Quantity Reduced Form Equation: Dependent Variable: Q
Explanatory Variables: FeedP
 EViews
Ordinary Least Squares (OLS)
Dependent Variable: Q
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
FeedP 
0.0000
Const
Number of Observations
120
Price Reduced Form Equation: Dependent Variable: P
Explanatory Variables: FeedP
Ordinary Least Squares (OLS)
Dependent Variable: P
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
FeedP
0.0478
Const
0.0000
Number of Observations
120

10. Quantity Reduced Form Equation: EstQ = 239,158  821.85FeedP
Price Reduced Form Equation: EstP = FeedP
Suppose that Inc increases while FeedP remains constant:
Suppose that FeedP increases while Inc remains constant:
Does the demand curve shift? No
Does the demand curve shift?
Yes
Does the supply curve shift?
Yes
Does the supply curve shift? No
What happens to Q and P?
What happens to Q and P?
Q   FeedP
Q  ??????Inc
P  FeedP
P  ??????Inc
Price
Price S’ S
Inc constant FeedP increases
FeedP constant Inc increases D’
P = FeedP
P = ??????Inc S
Q = 821.85FeedP
Q = ??????Inc D D
Quantity
Quantity Q
 FeedP
821.85 Q
?????? Inc
??????  =
= 1,566.5  =
= ????? P
.52464FeedP
.52464 P
?????? Inc
??????
QD
QS 
= 1,566.5 
= ?????? P P

11. Critical role played by the absent exogenous variables.
Exogenous variable: FeedP
A total of 1 exogenous explanatory variables.
Price
Price S’ S
Inc constant FeedP increases
FeedP constant Inc increases D’
Critical role played by the absent exogenous variables.
P = FeedP S
Q = FeedP D D
Quantity
Quantity
QD 
= 1,566.5 P
Supply Model
Demand Model
Changes in FeedP
allows us to estimate
demand model’s P coefficient
Changes in Inc
allows us to estimate
supply model’s P coefficient
Demand Model Explanatory Variables
Supply Model Explanatory Variables
Endogenous explanatory variables included
Endogenous explanatory variables included
Exogenous explanatory variables variables included absent
Exogenous explanatory variables variables included absent
1  0 = 1 1 1
1  1 = 0 1
1 equals 1
0 less than 1

12. Two Stage Least Squares (TSLS)
Two Stage Least Squares (TSLS) Estimation Procedure
Simultaneous Equation Demand and Supply Models
Endogenous Variables: Qt and Pt
Exogenous Variables: FeedPt and Inct
Beef Market Demand Model: Dependent variable: Q
Explanatory Variables: P
Instrument List: FeedP
Two Stage Least Squares (TSLS)
Dependent Variable: Q
Instrument(s): FeedP
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob P 
0.0279
Number of Observations
120
 EViews
= 1,566.5
Beef Market Supply Model: Dependent variable: Q
Explanatory Variables: P and FeedP
Instrument List: FeedP
Error Message: Order condition violated.
Comparison of Estimates Reduced Form (RF) Two Stage Least Squares (TSLS)
1, 1,566.5
None None
The reduced for (RF) and two stage least squares estimates (TSLS) are identical.

13. Ordinary Least Squares (OLS) Ordinary Least Squares (OLS)
Overidentified
Suppose that the price of chicken is also available.
Simultaneous Equation Demand and Supply Models
Endogenous Variables: Qt and Pt
Exogenous Variables: FeedPt, Inct, and ChickPt
Quantity Reduced Form Equation: Dependent Variable: Q
Explanatory Variables: FeedP, Inc, and ChickP
 EViews
Ordinary Least Squares (OLS)
Dependent Variable: Q
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
FeedP 
0.0111
Inc
0.0000
ChickP
0.7644
Const
Number of Observations
120
Price Reduced Form Equation: Dependent Variable: P
Explanatory Variables: FeedP, Inc, and ChickP
Ordinary Least Squares (OLS)
Dependent Variable: P
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob
FeedP
0.0033
Inc
0.0120
ChickP
0.4621
Const
0.3416
Number of Observations
120
First, we will estimate the price coefficient in the demand model.

14. Critical role played by the absent exogenous variables.
Quantity RF Equation: EstQ = 138,194  FeedP Inc ChickP
Price RF Equation: EstP = FeedP Inc ChickP
Suppose that FeedP increases while Inc and ChickP remains constant:
Exogenous variables: FeedP, Inc, and ChickP
Does the demand curve shift? No
A total of 3 exogenous explanatory variables.
Does the supply curve shift?
Yes
What happens to Q and P?
Demand Model
Q  349.54FeedP
P  FeedP
Price S’
Changes in FeedP
allows us to estimate
demand model’s P coefficient
Inc constant
ChickP constant FeedP increases
Demand Model Explanatory Variables
P = FeedP
Endogenous explanatory variables included S
Exogenous explanatory variables variables included absent
Q = 349.54FeedP D
Quantity 2
3  2 = 1 1 Q
349.54FeedP
349.54
1 equals 1  =
= 366.0 P
.95501FeedP
.95501
Critical role played by the absent exogenous variables.
QD 
= 366.0 P

15. Two Stage Least Squares (TSLS)
Two Stage Least Squared (TSLS) Estimation Procedure
 EViews
Beef Market Demand Model: Dependent variable: Q
Explanatory Variables: P, Inc, and ChickP
Instrument List: FeedP, Inc, and ChickP
Two Stage Least Squares (TSLS)
Dependent Variable: Q
Instrument(s): FeedP, Inc, and ChickP
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob P 
0.0000
Inc
ChickP
0.0888
Const
Number of Observations
120
Comparison of Estimates Reduced Form (RF) Two Stage Least Squares (TSLS)
 366.0
The reduced form (RF) and the two stage least squares (TSLS) estimates are identical.
Simultaneous Equation Demand and Supply Models
Next, we will estimate the price coefficient in the supply model.

16. Suppose that Inc increases while FeedP and ChickP remain constant:
Quantity RF Equation: EstQ = 138,194  FeedP Inc ChickP
Price RF Equation: EstP = FeedP Inc ChickP
Suppose that Inc increases while FeedP and ChickP remain constant:
Suppose that ChickP increases while FeedP and Inc remain constant:
Does the demand curve shift?
Yes
Does the demand curve shift?
Yes
Does the supply curve shift? No
Does the supply curve shift? No
Q  Inc
Q  ChickP
P  Inc
P  ChickP
Price
Price
FeedP constant ChickP constant Inc increases S
FeedP constant Inc constant ChickP increases S D’ D’
P = Inc
P = ChickP
Q = Inc
Q = ChickP D D
Quantity
Quantity Q
16.865Inc
16.865 Q
47.600ChickP
47.600  =
= 1,051.2  =
= 173.3 P
Inc P
.27464ChickP
.27464
QS
QS 
= 1,051.2 
= 173.3 P P

17. Critical role played by the absent exogenous variables.
Exogenous variables: FeedP, Inc, and ChickP
A total of 3 exogenous explanatory variables.
Price
Price
FeedP constant ChickP constant Inc increases S
FeedP constant Inc constant ChickP increases S D’ D’
P = Inc
P = Inc
Q = Inc
Q = Inc D D
Quantity
Quantity
QS
QS =
= 1,051.2 =
= 173.3 P P
Supply Model
Changes in Inc
allows us to estimate
supply model’s P coefficient
Changes in ChickP
allows us to estimate
supply model’s P coefficient
Supply Model Explanatory Variables
Endogenous explanatory variables included
Critical role played by the absent exogenous variables.
Exogenous explanatory variables variables included absent 1
3  1 = 2 1
2 greater than 1

18.  EViews Two Stage Least Squared (TSLS) Estimation Procedure
Beef Market Supply Model: Dependent variable: Q
Explanatory Variables: P and FeedP
Instrument List: FeedP, Inc, and ChickP
Two Stage Least Squares (TSLS)
Dependent Variable: Q
Instrument(s): FeedP, Inc, and ChickP
Explanatory Variable(s):
Estimate SE
t-Statistic
Prob P
0.0087
FeedP 
0.0006
Const
0.0254
Number of Observations
120
Summary of Reduced Form (RF) and Two Stage Least Squares (TSLS)
Price Coefficient Estimates: Estimated “Slope” of
Demand Curve
Supply Curve
Reduced Form (RF)
366.0
Based on Income Coefficients
1,051.2
173.3
Based on Chicken Price Coefficients
Two Stage Least Squares (TSLS)
366.0
893.5
A difference emerges when the model is overidentified.
There are two reduced form estimates
and only one two stage least squares estimate.

19. Identification Summary
Number of exogenous explanatory variables absent from the model
Less Than
Number of endogenous explanatory variables included in the model
Equal To
Greater Than
Model Underidentified
Model Identified
Model Overidentified
 No RF Estimate
 Unique RF Estimate
 Multiple RF Estimates
No TSLS Estimate Identical to RF
Unique TSLS Estimate
Identical to RF
Unique TSLS Estimate.
Question: What about the two stage least squares (TSLS) estimation procedure?