The horizontal axis represents the number of months after one unit change in the interest rate, the vertical axis shows the response of price level. Besides, there are multiple techniques to estimate and apply confident intervals, but still, through this example, we can represent the functionality of confidence interval in a more complicated problem. There are several ways to approach this issue, which involves complex theoretical and empirical analysis, that is far beyond the scope of this text. To be more specific, let's consider the following general question that often raises economists' interest: "How does a change in the interest rate affect the price level?"
One peculiar way of making use of confidence interval is the time series analysis, where the sample data set represents a sequence of observations in a specific time frame.Ī frequent subject of such a study is whether a change in one variable affects another variable in question. Now, the only thing left to do is to find the lower and upper bound of the confidence interval: Once you have calculated the Z(0.95) value, you can simply input this value into the equation above to get the margin of error. You can use the z-score tables to find the z-score that corresponds to 0.025 p-value.
That means that the area to the left of the opposite of your z-score is equal to 0.025 (2.5%) and the area to the right of your z-score is also equal to 0.025 (2.5%). Take a look at the normal distribution curve.Calculate what is the probability that your result won't be in the confidence interval.If you want to calculate this value using a z-score table, this is what you need to do: It means that if you draw a normal distribution curve, the area between the two z-scores will be equal to 0.95 (out of 1).
How to find the Z(0.95) value? It is the value of z-score where the two-tailed confidence level is equal to 95%. But don't fret, our z-score calculator will make this easy for you! If you are using a different confidence level, you need to calculate the appropriate z-score instead of this value. Where Z(0.95) is the z-score corresponding to the confidence level of 95%. Margin of error = standard error * Z(0.95) Then you can calculate the standard error and then the margin of error according to the following formulas: Calculating the confidence interval requires you to know three parameters of your sample: the mean ( average) value, μ, the standard deviation, σ, and the sample size, n (number of measurements taken).