Curriculum
ECONOMETRICS
ECONOMETRICS
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PRF | SRF | CLRM |L-1|ECONOMETRICS
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MULTICOLLINEARITY |L-2|ECONOMETRICS
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TIME SERIES|L-3|ECONOMETRICS
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STATIONARY AND NON-STATIONARY DATA|L-4|ECONOMETRICS
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DESCRIPTIVE AND INFERENTIAL STATISTICS |L-5|ECONOMETRICS
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HYPOTHESIS TESTING |L-6|ECONOMETRICS
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NULL & ALTERNATE HYPOTHESIS |L-7|ECONOMETRICS
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NON PARAMETRIC TEST|L-8|ECONOMETRICS
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ALL PARAMETRIC TESTS| ECONOMETRICS|L-9|
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CRITICAL VALUE | ECONOMETRICS|L-10|
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P VALUE METHOD | ECONOMETRICS|L-11|
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FULL REVISION| ECONOMETRICS|L-12|
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FULL REVISION|PART-2| ECONOMETRICS|L-13|
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CENTRAL TENDENCY ECONOMETRICS|L-14|
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NORMAL DISTRIBUTION & ITS PROPERTIES | ECONOMETRICS|L-15|
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ALL TYPES OF SAMPLING | ECONOMETRICS|L-16|
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MEASUREMENT OF SCALES | ECONOMETRICS|L-17|
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TYPES OF CORRELATION | ECONOMETRICS|L-18|
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METHODS OF FINDING DEGREE OF CORRELATION | ECONOMETRICS|L-19|
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CRITICAL VALUE | ECONOMETRICS|L-10|
What is a critical value?
A critical value is the value of the test statistic which defines the upper and lower bounds of a confidence interval, or which defines the threshold of statistical significance in a statistical test. It describes how far from the mean of the distribution you have to go to cover a certain amount of the total variation in the data (i.e. 90%, 95%, 99%).
If you are constructing a 95% confidence interval and are using a threshold of statistical significance of p = 0.05, then your critical value will be identical in both cases.
What Is a T-Test?
A t-test is an inferential statistic used to determine if there is a significant difference between the means of two groups and how they are related. T-tests are used when the data sets follow a normal distribution and have unknown variances, like the data set recorded from flipping a coin 100 times.
The t-test is a test used for hypothesis testing in statistics and uses the t-statistic, the t-distribution values, and the degrees of freedom to determine statistical significance.
What is a Null Hypothesis?
The null hypothesis in statistics states that there is no difference between groups or no relationship between variables. It is one of two mutually exclusive hypotheses about a population in a hypothesis test.
Photograph of Rodin’s statue, The Thinker who is pondering the null hypothesis.When your sample contains sufficient evidence, you can reject the null and conclude that the effect is statistically significant. Statisticians often denote the null hypothesis as H0 or HA.
Null Hypothesis H0: No effect exists in the population.
Alternative Hypothesis HA: The effect exists in the population.
In every study or experiment, researchers assess an effect or relationship. This effect can be the effectiveness of a new drug, building material, or other intervention that has benefits. There is a benefit or connection that the researchers hope to identify. Unfortunately, no effect may exist. In statistics, we call this lack of an effect the null hypothesis. Researchers assume that this notion of no effect is correct until they have enough evidence to suggest otherwise, similar to how a trial presumes innocence.
In this context, the analysts don’t necessarily believe the null hypothesis is correct. In fact, they typically want to reject it because that leads to more exciting finds about an effect or relationship. The new vaccine works!
You can think of it as the default theory that requires sufficiently strong evidence to reject. Like a prosecutor, researchers must collect sufficient evidence to overturn the presumption of no effect. Investigators must work hard to set up a study and a data collection system to obtain evidence that can reject the null hypothesis.