Final Flashcards

Question 1

Q

We do not need the normality of the error term assumption to perform valid statistical inference if the other multiple linear regression model assumptions hold and we have a large sample.

Question 2

Q

Heteroskedasticity causes the OLS estimator to be biased.

Question 3

Q

Heteroskedasticity causes the OLS estimator to be inconsistent.

Question 4

Q

Heteroskedasticity causes the usual estimator of the variance of the OLS estimator to be inconsistent.

Question 5

Q

Heteroskedasticity-robust standard errors are valid only if the sample size is large.

Question 6

Q

Heteroskedasticity-robust standard errors are always larger than the usual standard errors.

Question 7

Q

When the error term in a regression model is heteroskedastic, the OLS estimator is not the best linear unbiased estimator (BLUE).

Question 8

Q

With a large sample size, heteroskedasticity-robust standard errors are valid even if the error term is homoskedastic.

Question 9

Q

Classical measurement error in the dependent variable does not cause bias in the OLS estimator, although it does increase the variance of the OLS estimator.

Question 10

Q

Under the classical measurement error assumption, measurement error in an explanatory variable causes attenuation bias.

Question 11

Q

If x is correlated with x* and if x is uncorrelated with the error term, u, then we say that x is a good proxy for x*

Question 12

Q

The F test is not useful in detecting functional form misspecification. Instead, one should use RESET or the Davidson-MacKinnon test.

Question 13

Q

Functional form misspecification is when the model does not properly account for the relationship between the dependent and explanatory variables, often because the appropriate explanatory variables are not observed.

Question 14

Q

RESET is useful in detecting functional form misspecification as well as general omitted variable bias.

Question 15

Q

Removes serial correlation via an iterative process

Answer

A

Cochrone Orcutt / Prais Winston

Question 16

Q

Tests for Functional Form Misspecification

Answer

A

Ramsey RESET

Question 17

Q

Tests for Heteroskedasticity

Answer

A

Breusch Pagan Test or White Test

Question 18

Q

Highly persistent series do not give biased estimates.

Question 19

Q

Eliminates high persistence in a time series

Answer

A

First Difference

Question 20

Q

Any result from a highly persistent series is spurious.

Question 21

Q

Tests for unit root

Answer

A

Dicky Fuller

Question 22

Q

Finding a relationship between 2 or more trending variables simple because each is growing over time.

Answer

A

Spurious Regression Problem

Question 23

Q

The null hypothesis of the dicky fuller test

Answer

A

unit root

Question 24

Q

How to correct for a spurious regression problem in a time series

Answer

A

Add a time trend

Question 25

Q

How do you account for seasonality

Answer

A

Include seasonal dummy variables and joint f test all seasonal dummy variables to check for significance.

Question 26

Q

The long run propensity (LRP) in a finite distributed lag model is the average of all the coefficients on the included lags of the variable of interest plus the value of the contemporaneous variable of interest.

Question 27

Q

The Dickey-Fuller test can be used to determine if there is evidence that the specified time series is not highly persistent.

Question 28

Q

What would be an appropriate procedure to correct the standard errors when serial correlation is present in a time series regression model?

Answer

A

Cochrane-Orcutt Estimation

Question 29

Q

The Cochrane-Orcutt estimation procedure should be used when regressing a highly persistent time series on another highly persistent time series in order to obtain unbiased parameter estimates.

Answer

A

False. So what is Conchrane Orcutt used for?

Question 30

Q

Serially correlated errors cause the OLS estimator to be biased and inconsistent.

Question 31

Q

Regressing a highly persistent time series on another highly persistent time series produces spurious results.

Question 32

Q

First differencing can be used to render a highly persistent time series weakly dependent.

Question 33

Q

Both first-differenced estimation and fixed-effects estimation can be used to estimate causal effects if the unobserved factors that are correlated with the independent variable of interest change over time.

Question 34

Q

Fixed-effects estimation can be used to estimate causal effects if the unobserved factors that are correlated with the dependent variable of interest are time invariant.

Question 35

Q

If the average value of the outcome variable is different for the treated and control groups before the treatment, difference-in-differences estimation will not be able to provide an unbiased estimate of the effect.

Question 36

Q

The validity of difference-in-differences estimation depends on the assumption that the change in the treated and control groups would have been the same had it not been for the treatment.

Question 37

Q

Under which conditions is the difference-in-differences estimator not able to provide an unbiased estimate of the effect?

Answer

A

Some other factor that changes over time affects the outcome for only the treated group.

Question 38

Q

With panel data, estimation in first differences and fixed-effects estimation are computationally identical.

Question 39

Q

If the dependent variable is a binary variable, the error term is obviously not normally distributed. This may result in biased OLS estimates.

Question 40

Q

To model if there are increasing or decreasing returns to a particular independent variable one should include an interaction term.

Question 41

Q

What is the null hypothesis for the Breusch-Pagan Test?

Answer

A

Ho: homoskedasticity

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Final Flashcards

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