Answer: B

[math]\operatorname{Var}(X)=E\left(X^{2}\right)-[E(X)]^{2}[/math]

[math]E(X)=10(1-0.95)+[10+10 v](0.95)(1-0.9)+\left[10+10 v+10 v^{2}\right](0.95)(0.9)=26.23[/math]

[math]E\left(X^{2}\right)=10^{2}(1-0.95)+[10+10 v]^{2}(0.95)(1-0.9)+\left[10+10 v+10 v^{2}\right]^{2}(0.95)(0.9)=708.27[/math]

[math]\operatorname{Var}(X)=708.27-(26.23)^{2}=20.26[/math]

Standard Deviation [math]=(20.26)^{1 / 2}=4.5[/math]

It's not significantly less work, but since everyone receives the first 10, you could use the formula [math]\operatorname{Var}(X[/math]-constant [math])=\operatorname{Var}(X)[/math], and work with the three payment amounts as [math]0,10 v[/math], [math]10 v+10 v^{2}[/math], and you would get the same answer.