4
$\begingroup$

Is there some basic examples to show that there are difference meaning between X and E(X) in the covariance formula?

2 Answers 2

2

Suppose $X$ and $Y$ are random variables which can take the following pairs of values with the following probabilities

X   Y    Probability 10  20      0.6  30  50      0.3  40  10      0.1 

Then $E[X]$, the expected value of $X$, is $0.6 \times 10 + 0.3 \times 30 +0.1 \times 40 = 19$.

Similarly $E[Y]$, the expected value of $X$, is $0.6 \times 20 + 0.3 \times 50 +0.1 \times 10 = 28$.

So the covariance $E\left[(X-E[X])(Y-E[Y])\right]$, the expected value of the products of the differences between the random variables and their expected values, is $0.6 \times (10-19)\times (20-28) + 0.3 \times (30-19)\times ( 50-28)+0.1 \times (40 -19) \times (10-28) = 78.$

5

The value $X$ represents a randomly-varying quantity. The value $E(X)$, if known, represents its average. For example, toss a fair coin 100 times and let $X$ denote the number of heads you see. In this case, if the coin is fair, you would reasonably expect $E(X) = 50$. The value $X$ will vary around 50 as you repeat the experiment.

  • 0
    Yes. $E(X)$ refers to a population average. A sample average is still a random quantity. Repeated trials will, in general, yield varying results.2012-09-03