Answer:
Mixed probabilty
Step-by-step explanation:
What is the probability that the first and second ball chosen are both targets, that is, X1 = 1 X2 = 2?
For this we must study the simple probability of each, for example for the target in that event is 5/13. However for the second chosen but also white in the second event where there is already a total of 12 balls is 4/12.
Thus
[tex]P (X1 = 1, X2 = 1) = \frac{5}{13} * \frac{4}{12} = \frac{5}{39}[/tex]
In this way is generated for all probabilities
[tex]P (X1 = 1, X2 = 0) = \frac{5}{13} *\frac{8}{12} = \frac{10}{39}\\P (X1 = 0, X2 = 1) = \frac{8}{13} * \frac{5}{12} = \frac{10}{39}\\P (X1 = 0, X2 = 0) = \frac{8}{13} *\frac{7}{12} =\frac{4}{39}\\[/tex]
b) In the same way analogous to the past example we can perform all cases of combinations, therefore it would be so
[tex]P (X1 = 1, X2 = 1) = \frac{5}{13}*\frac{4}{12}*\frac{3}{11}= \frac{5}{143}[/tex]
[tex]P (X1 = 0, X2 = 1) = \frac{8}{13} *\frac{5}{12} * \frac{4}{11} = \frac{40}{429}[/tex]
[tex]P (X1 = 1, X2 = 1) = \frac{5}{13}*\frac{8}{12}*\frac{4}{11} = \frac{40}{429}[/tex]
[tex]P (X1 = 1, X2 = 0) =\frac{5}{13}*\frac{4}{12}*\frac{8}{11} = \frac{40}{429}[/tex]
[tex]P(X1 = 0, X2 = 1) = \frac{8}{13}* \frac{7}{12}*\frac{5}{11}=\frac{70}{429}[/tex]
[tex]P (X1 = 0, X2 = 0) = \frac{8}{13} * \frac{7}{12} * \frac{5}{11} = \frac{70}{429}[/tex]
[tex]P (X1 = 1, X2 = 0) = \frac{8}{13} * \frac{7}{12} * \frac{5}{11} = \frac{70}{429}[/tex]
[tex]P (X1 = 0, X2 = 0) = \frac{8}{13} *\frac{7}{12} * \frac{6}{11} = \frac{28}{143}[/tex]
