Instrumental variables

Question 1

What is the CIA?

Answer 1

Conditional on observed characteristics x_i,the selection bias disappears. That is, conditional on x_i, treatment status, D_i is independent of potential outcomes

conditional on covariates x_i, treatment status, D_i is as good as randomly assigned.

Question 2

If Conditional on a vector of observable covariates, x_i, D_i is statistically independent of η_i implying that E[η_i│D_i,x_i ]=E[η_i│x_i ], what assumption is satisfied?

Answer 2

CIA

The conditional expectation of η_i does not depend on D_i if we control for x_i. Conditional on x_i, D_i is as good as randomly assigned, so D_i becomes uncorrelated with η_i. The key assumption here is that the observable characteristics x_i are the only reason why η_i and D_i are correlated.

Question 3

our instrument, z_i, should satisfy the following two criteria

Answer 3

Cov(z_i,η_i )=0

Cov(z_i,x_i )≠0

Question 4

B1=cov(?,?)/cov(?,?)

Answer 4

(Cov(y,z))/(Cov(x,z))=((Cov(y,z))⁄(Var(z)))/((Cov(x,z))⁄(Var(z)))

Question 5

two variables in first stage regression (denominator)

Answer 5

reg x on z

Question 6

two variables in reduced form regression (numerator)

Answer 6

reg y on z

Question 7

True or false: i’s ok if first stage is 0

Answer 7

false–

Question 8

assumption for first stage?

Answer 8

the instrument must have a clear effect on x_i.

Question 9

exclusion restriction definition

Answer 9

the statement that the instrument is as good as randomly assigned (i.e., independent of potential outcomes, conditional on covariates), while the second is that the instrument has no effect on outcomes other than through the first-stage channel

Question 10

reduced form model?

Answer 10

y_i=γ_0+γ_1 z_i+ζ_i

Question 11

first stage model?

Answer 11

x_i=δ_0+δ_1 z_i+μ_i

Question 12

IV model?

Answer 12

y_i=β_0+β_1 x_i+η_i

Question 13

true or false: all instruments (including controls) should be included in all stages

Answer 13

true

Question 14

condition-instrument relevance

Answer 14

Cov(z_i,x_i)≠0

Question 15

condition-instrument independence

Answer 15

Cov(z_i,η_i )=0

Question 16

what happens to standard errors and causal estimates if instrument is weak?

Answer 16

.With weak instruments, instrumental variable estimates are badly biased–look just like ols

Furthermore, weak instruments imply that your first stage predicted value will be quite noisy. That fact implies that the second stage instrumental variable estimates are likely to have very large standard errors.

Question 17

test for weak instruments?

Answer 17

F-test–is it larger than 10?

if not, weak

Question 18

assumptions necessary for instrument validiity?

Answer 18

1) Random assignment of z (in first‐stage)
2) Exclusion restriction (z does not belong in the second stage)
3) Nonzero causal effect of z on x

Question 19

what estimates do IV provide?

Answer 19

LATE–ATE for those induced by instrument

Question 20

who are non-compliers?

Answer 20

always-takers and never-takers

Question 21

when will the the parameter identified by instrumental variables differ from the average effect of interest.

Answer 21

heterogeneous treatment effects

Question 22

what do compliers do?

Answer 22

what they are told

x=1 if z=1 and x=0 if z=0

Question 23

what do never-takers do?

Answer 23

never want treatment

x=0 if z=1 and x=0 if z=0

Question 24

what do always-takers do?

Answer 24

always want treatment

x=1 if z=1 and x=1 if z=0

Question 25

what do defiers do?

Answer 25

the opposite

x=0 if z=1 and x=1 if z=0

Question 26

what is monotonicity assumption?

Answer 26

there are no defiers

Question 27

can we identify who compliers are?

Answer 27

no

Question 28

why can’t we estimate ATE?

Answer 28

we can’t estimate the effect among non-compliers because the instrument doesn’t affect their treatment status, there is no exogenous variation in their treatment status that we can use.

Question 29

Is LATE informative about effects on always-takers and never-takers?

Answer 29

no–by definition, treatment status for these two groups is unchanged by the instrument (random assignment).

Question 30

Is LATE usually the same as TOT?

Answer 30

No–The effect of treatment on the treated (TOT) would be a weighted average of the effect on compliers and always takers, the latter effect we never observe.

Question 31

what is an instrumental variable?

Answer 31

An instrumental variable is a variable that can be used to isolate exogenous variation in a explanatory variable that would otherwise be endogenous.

Question 32

How can we test the assumption that Cov(Zi,ui) = 0

Answer 32

We can’t!

Question 33

How can we test the assumption that Cov(Zi,Xi) NOT= 0

Answer 33

regress x on z and see if coefficient it statistically significant–is z a good predictor of x?

Question 34

IV estimator expressed in terms of covariance of z, y and x?

Answer 34

β1,IV = Cov(Zi,Yi)/Cov(Zi,Xi)

Question 35

reduced form regression?

Answer 35

Yi =α+ρZi +wi

cov (zi, yi)/var(zi)

Question 36

first stage regression?

Answer 36

Di =γ+φZi +vi

cov(zi, di)/var(zi

Question 37

relationship between reduced form, first stage, and IV estimator?

Answer 37

estimator=reduced form/first stage

Question 38

IV tells us the ATE for which group?

Answer 38

those induced into treatment by the instrument (the lottery offer): the compliers

Question 39

which group drive the first stage regression?

Answer 39

compliers

Question 40

True or false: In IV, we don’t learn anything about always-takers or never-takers

Answer 40

True

Question 41

what assumption do we use to justify ignoring defiers?

Answer 41

monotonicity

Question 42

When would the LATE and TOT be the same?

Answer 42

When there are no always-takers in the treated pop

Question 43

What identifying assumptions are needed for consistency of IV estimator?

Answer 43

􏰎 Cov(Zi,Xi) NOT= 0

􏰎 Cov(Zi,ui) = 0

Question 44

Which is more efficient: OLS or IV estimator?

Answer 44

OLS

Question 45

Why is the variance of the IV estimator greater than of the OLS estimator?

Answer 45

We are using only a portion of the variance

Question 46

If the reduced form effect is statistically insignificant, can you accurately estiamte the LATE?

Answer 46

no

Question 47

What happens to standard errors if first stage is weak?

Answer 47

larger standard errors

Question 48

how can you counteract a weak first stage?

Answer 48

larger sample size

Question 49

If there is a violation of the exclusion restriction and there is a correlation bewteen zi and ui, can a large sample address this?

Answer 49

no

Question 50

what are the steps for implementing 2SLS using one instrument?

Answer 50

1. Get predicted values from first stage regression using reg of x on zi
2. Use predicted values of x to predict outcome

Question 51

True or false: you only need to include covariates in the second stage (not the first)

Answer 51

false–need to include in both

Question 52

True or false: if you have multiple instruments, you need to include them in both stages

Answer 52

false-include only in first stage

Question 53

what is the wald estimator?

Answer 53

the name given to estimation with one endogenous variable and one excluded instrument, in which the reduced form slope coefficient is divided by the first stage slope coefficient.

Question 54

definition of just identified IV model?

Answer 54

just identified if the number of excluded instruments in the vector Zi equals the number of endogenous explanatory variables.

Question 55

definition of over identified IV model?

Answer 55

over-identified if the number of excluded instruments in the vector Zi is more than the number of endogenous explanatory variables.

Question 56

definition of under identified IV model?

Answer 56

under-identified if the number of excluded instruments in the vector Zi is less than the number of endogenous explanatory variables.

Question 57

If the model is under identified (number of excluded instruments in the vector Zi is less than the number of endogenous explanatory variables.), then is there a consistent IV estimator?

Answer 57

No–you need at least as many excluded instruments as endogenous explanatory variables.

Question 58

how to test for validity of instruments, E (ui |Zi ) = 0, if overidentified?

Answer 58

over-identification test

Question 59

what is the null hypothesis of an over-identification test?

Answer 59

H0 : all instruments are valid
Rejection can be interpreted as one or more instruments are not valid (or, model was mis-specified to begin with). Note a lack of rejection should not be interpreted as confirmation of validity.

Question 60

We would prefer to use OLS–how do we test whether one of the explanatory variables actually is endogenous?

Answer 60

Durbin-Wu-Hausman test statistic

H0 : explanatory variable(s) is exogenous

Question 61

What does rejection of Wu-Hausman test imply?

Answer 61

Rejection suggests explanatory variable(s) is endogenous and IV is appropriate.

Question 62

how to test for weak insrumentt?

Answer 62

Look at first stage–When there is one endogenous explanatory variable, this statistic is the F statistic for significance of the instruments from the first stage. F > 10 is the usual rule-of-thumb for rejecting a weak instrument.

Question 63

What is the null for the estat firststage command in stata?

Answer 63

null is that instruments are weak

you can reject the null that instruments are weak by looking at the f stat–is it more than 10?

Question 64

what is the null for the estat overid command in stata?

Answer 64

null is that instruments are valid

if you reject the null, this means that your instrument is endogenous