Probability spaces Flashcards
Definition: The expected value of a random variable X defined on
a discrete probability space (Ω, F, P) is
E(X)
Definition: The expected value of a random variable X defined on
a discrete probability space (Ω, F, P) is
E(X) = X
ω∈Ω
X(ω) P(ω)
provided that this series converges absolutely (i.e., in any order).
The expected value of a random variable X with density function f is E(X) = Z ∞ −∞ tf (t)dt provided that this integral exists
Let X and Y be random variables defined on the same discrete
E(λX + µY
Let X and Y be random variables defined on the same discrete probability space (Ω, F, P) and let λ, µ ∈ R. Show that, if E(X) and E(Y ) exist then so does E(λX + µY ) and E(λX + µY ) = λE(X) + µE(Y ).
Definition: The variance of the random variable X is
Var(X) =
Definition: The variance of the random variable X is
Var(X) = E((X − E(X))^2) = E(X^2) − E(X)^2
whenever this expression exists.
The standard deviation of X is defined as square root ofVar(X).
If c is any number, Var(cX)
If c is any number, Var(cX) = c^2 Var(X).
Let X be a random variable. Show that the random variable X − E(X) divided by square rootVar(X) has expected value 0 and variance 1
Let X be a random variable. Show that the random variable X − E(X) divided by the square root of Var(X) has expected value 0 and variance 1
For random variables X and Y we define the covariance of X and
Y
For random variables X and Y we define the covariance of X and Y Covar(X,Y ) = E( (X − E(X))( Y − E(Y )))
Covar(X,Y )
Covar(X,Y ) = E(XY ) − E(X)E(Y
Var(X + Y )
Var(X + Y ) = Var(X) + 2 Covar(X,Y ) + Var(Y
Covar(X + a,Y + b) = Covar(X,Y ).
random variables X,Y and numbers
a, b ∈ R we have
Covar(X + a,Y + b) = Covar(X,Y ).
t Covar(−, −) is a bilinear function,
Covar(−, −) is a bilinear function, i.e., for random variables X,Y , Z and numbers λ, µ ∈ R we have Covar(λX + µY , Z) = λ Covar(X, Z) + µ Covar(Y , Z) and Covar(X, λY + µZ) = λ Covar(X,Y ) + µ Covar(X, Z).
correlation
The correlation between the random variables X and
Y is
ρ(X,Y ) = Covar(X,Y )/√ Var(X) Var(Y )
ρ(a(X − b), c(Y − d))
for random variables X and Y and any
a, b, c, d ∈ R with a, c > 0 we have
ρ(a(X − b), c(Y − d)) = ρ(X,Y ).
Var(X + Y )
For any two random variables X and Y
Var(X + Y ) = Var(X) + Var(Y ) + 2 Covar(X,Y )
= Var(X) + Var(Y ) + 2ρ(X,Y )√Var(X) Var(Y
