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Convergent Sequence Random Variable Integral Well Defined Obvious Summation Function Measure Numerable Set Density Function Cauchy Random Variable

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Expected Value

Let us first consider a discrete random variable with values in $\mathbb{R}$ . Then has values in an at most countable set $\mathcal{X}$ . For $x\in\mathcal{X}$ denote the probability that by . If

$\displaystyle \sum_{x\in\mathcal{X}}\vert x\vert P_x$

converges, the sum

$\displaystyle \sum_{x\in\mathcal{X}}xP_x$

is well-defined. Its value is called the expected value, expectation or mean of

. It is usually denoted by

Taking this idea further, we can easily generalize to a continuous random variable with probability density $\varrho$ by setting

$\displaystyle E(X)=\int_{-\infty}^\infty x\varrho(x)dx,$

if this integral exists.

From the above definition it is clear that the expectation is a linear function, i.e. for two random variables we have

$\displaystyle E(aX+bY)=aE(X)+bE(Y)$

for $a,b\in\mathbb{R}$ .

Note that the expectation does not always exist (if the corresponding sum or integral does not converge, the expectation does not exist. One example of this situation is the Cauchy random variable).

Using the measure theoretical formulation of stochastics, we can give a more formal definition. Let $(\Omega, \mathcal{A}, P)$ be a probability space and $X:\Omega\to\mathbb{R}$ a random variable. We now define

$\displaystyle E(X)=\int_{\Omega} XdP,$

where the integral is understood as the Lebesgue-integral with respect to the measure

1	Random Variable
1	Measure
1	Well Defined
1	Summation
1	Obvious
1	Convergent Sequence
1	Function
1	Integral
4	Density Function
4	Numerable Set
9	Cauchy Random Variable