Answer:
0.0718
Step-by-step explanation:
Given that there are 7 black balls and 8 red balls.
Probability of an event E is given as:
[tex]P(E) = \dfrac{\text{Number of favorable cases}}{\text {Total number of cases}}[/tex]
The required probability that exactly one black ball is drawn out of 4 drawn balls = Probability of drawing 1 black ball [tex]\times[/tex] Probability of drawing 3 black balls.
First of all, let us see the probability of drawing one black ball:
Number of favorable cases = 7 (Total number of black balls)
Total number of cases = 15 (Total number of black balls and red balls)
[tex]P(Black\ Ball) = \dfrac{7}{15}[/tex]
Now, have a look at probability of choosing 3 red balls:
We have to choose 3 red balls out of 8 balls:
Total number of favorable cases = [tex]8_{C_3}[/tex] = 8 [tex]\times 7 \times 6[/tex]
Now, one black ball is already chosen, so total 14 balls are left out of which 3 balls are to be chosen.
So, total number of cases = [tex]{14}_{C_3} = 14 \times 13 \times 12[/tex]
[tex]P(3\ red \ balls) = \dfrac{8 \times 7 \times 6}{14 \times 13 \times 12}[/tex]
The required probability =
[tex]P(Black\ balls) \times P(3\ red\ balls)\\\Rightarrow \dfrac{7}{15} \times \dfrac{8 \times 7 \times 6 }{14 \times 13 \times 12}\\\Rightarrow 0.0718[/tex]
So, the required probability is 0.0718.