Respuesta :
We expect to lose $0.37 per lottery ticket
Explanation:
six winning numbers from = { 1, 2, 3, ....., 50}
So, the probability of winning:
[tex]P(win) = \frac{ no of favorable outcomes}{no of possible outcomes}[/tex]
[tex]P(win) = \frac{1}{^5^0C_6} \\\\P (win) = \frac{6! X (50 - 6)!}{50!} \\\\P(win) = \frac{6! X 44!}{50!} \\\\P(win) = \frac{1}{15,890,700}[/tex]
The probability of losing would be:
P(loss) = 1 - P(win)
[tex]P(loss) = 1 - \frac{1}{15,890,700} \\\\P(loss) = \frac{15,890,699}{15,890,700}[/tex]
According to the question,
When we win, then we gain $10 million and lose the cost of the lottery ticket.
So,
$10,000,000 - 1 = $9,999,999
When we lose, then we lose the cost of the lottery ticket = $1
The expected value is the sum of the product of each possibility x with its probability P(x):
E(x) = ∑ xP(x)
[tex]= 9,999,999 X \frac{1}{15,890,700} + ( -1 ) X \frac{15,890,699}{15,890,700} \\\\=- \frac{5,890,700}{15,890,700} \\\\= - \frac{58,907}{158,907} \\\\= - 0.37[/tex]
Thus, we expect to lose $0.37 per lottery ticket
