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(a) Simplify \(^{n + 1}C_{3} - ^{n - 1}C_{3}\) (b) A fair die is thrown five times. ...

(a) Simplify \(^{n + 1}C_{3} - ^{n - 1}C_{3}\)
(b) A fair die is thrown five times. Calculate, correct to three decimal places, the probability of obtaining (i) at most two sixes ; (ii) exactly three sixes.
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    Correct Answer: Option n
    Explanation:
    (a) \(^{n + 1}C_{3} - ^{n - 1}C_{3}\)
    = \(\frac{(n + 1)!}{3! (n + 1 - 3)!} - \frac{(n - 1)!}{3! (n - 1 - 3)!}\)
    = \(\frac{(n + 1)!}{3! (n - 2)!} - \frac{(n - 1)!}{3! (n - 4)!}\)
    = \(\frac{(n + 1)(n)(n - 1)(n - 2)!}{3! (n - 2)!} - \frac{(n - 1)(n - 2)(n - 3)(n - 4)!}{3! (n - 4)!}\)
    = \(\frac{(n + 1)(n)(n - 1)}{6} - \frac{(n - 1)(n - 2)(n - 3)}{6}\)
    = \(\frac{(n - 1)[(n + 1)(n) - (n - 2)(n - 3)]}{6}\)
    = \(\frac{(n - 1)[n^{2} + n - (n^{2} - 5n + 6)}{6}\)
    = \(\frac{(n - 1)[6n - 6]}{6}\)
    = \(\frac{6(n - 1)^{2}}{6}\)
    = \((n - 1)^{2}\)
    (b) p(six) = p = \(\frac{1}{6}\), p(not six) = q = \(\frac{5}{6}\).
    \((p + q)^{5} = p^{5} + 5p^{4} q + 10p^{3} q^{2} + 10p^{2} q^{3} + 5pq^{4} + q^{5}\)
    (i) p( at most 2 sixes) = \(q^{5} + 5pq^{4} + 10p^{2} q^{3}\)
    = \((\frac{5}{6})^{5} + 5(\frac{1}{6})(\frac{5}{6})^{4} + 10(\frac{1}{6})^{2} (\frac{5}{6})^{3}\)
    = \(\frac{3125}{7776} + \frac{3125}{7776} + \frac{1250}{7776}\)
    = \(\frac{7500}{7776} = 0.9645 \approxeq 0.965\) (3 d.p)
    (ii) p(exactly 3 sixes) = \(10p^{3} q^{2}\)
    = \(10(\frac{1}{6})^{3} (\frac{5}{6})^{2}\)
    = \(\frac{250}{7776}\)
    = \(0.032\) (3 d.p)

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